Living in the corn belt, the way I remember (take that for what it's worth) it wasn't marketed to us as Green, it was marketed as "open new markets to sell your corn".
it is one of the things they used to destroy americas econimee all you have to do is look at feed and food prices every year since since this disaster was started not to mention all the motorized devices thwere destroyed by this garbage it was just a well planned ateack................
Im so confused by this video in what he doesn't say, partly in line with your comment. We have massive amount of corn syrup and corn sugars in all our food because of governemnt incentives to the corn belt, right? This pre-dates the 2005 date he mentions by like 20 years, ie we were already overproducing corn, and as you sggest, were looking for new markets for it...
Was just going to say - we knew this in the 90s during the height of “reducing our reliance on foreign oil” days. It’s the Iowa place on the presidential nominating calendar… hard to win if you don’t win Iowa
Petrol Heads and College Professors have been talking about this since the early 2000's. What we all agreed on was that the 10% ethanol requirement was pushed through congress by the corn lobby to grow and sell more corn with the help of government subsides. Also, the 1st state to vote in the US primaries is Iowa and that state is a huge corn grower. Politicians promised to vote the 10% requirement into to law to get the Iowa vote and help their chances at the wining the presidential nomination.
@@terrycannon570 that stunt has snow balled into a nightmare for marinas and other small engine industries,where do you think those industries do with the bad gas? Yes, they dump it on the ground, it also has increased the demand for fuel injection systems and carburetor system cleaning labor, actually economic pluses . Just name a few problems political lobbyists cost us daily
In all probability 'environmentalism' was founded by Vladimir Lenin at the Chelyabinsk Commune in the early Sovient; and, was simply a land grab by the then newly risen and entitled communist elites. Over time 'environmentalism' has most probably been a disinformation entity, continually 're-hatched' by the Kremlin, in order to gain complete world hegemony of fuels, fertilizer; hence, world food production (including bio-fuels).
@@richh1576 lmao care to cite any sources? this sounds like complete rubbish. have you ever even read an actual scientific journal article on these topics?
In Brazil, engines are "flex", meaning that they offer the flexibility to burn 100% gasoline or 100% ethanol, and also any mix in between. Most people drive on 100% ethanol, just because it is cheaper overall. In the early days of the technology, these engines were pretty bad when burning 100% ethanol, in particular when the engine was cold. However, nowadays, with sophisticated electronic injection systems, you don't feel much difference, even when the engine is cold. The technology dates back to 1970's, in response to the oil crisis which put Brazil on its knees. Being a vast country with a lot of sun, Brazil implemented a large scale program of producing ethanol from sugar cane.
Brazil’s cane ethanol program is based on several lies. Lie #1: there is an 8:1 EROI for cane ethanol. I did the math and it is no better than 2:1. Petrobras doesn’t want to count the burning of bagasse as an energy input because it is “free”, but it is energy that could be used for other purposes if not for corn ethanol, so it must be counted as an input. When properly computed, the EROI of Brazilian cane ethanol is about the same as USA corn ethanol. And we got the same 2:1 EROI growing cane ethanol in the USA when we have tried it. Only the difference in subsidies between the countries guides why one is a cane agriculture empire, and one is a corn agriculture empire. Lie #2: Brazilian cane is farmed sustainably. Reality is the land is slashed, burned, overfarmed, and rapidly depleted, requiring new acreage all the time. The new land is forcibly acquired from indigenous people, who are also used as quasi-slave laborers in the fields. The land and water resource and environmental damage footprints of cane ethanol is much higher than those of the onshore or offshore crude oil to gasoline lifecycle. Lie #3: Cane and corn ethanol reduce polluting and GHG emissions. Ethanol increases emissions of pm2.5 particulates, ozone, and volatile organics compared to straight gasoline. USA and German Academies of Science have also found their lifecycles also have increased GHG emissions. The whole premise of bioethanol is false. Whatever the feedstock, making fuel-grade ethanol is completely dependent on huge inputs of fossil fuels and the lifecycle produces excessive emissions of GHGs. The finished fossil fuel energy used to plow, plant, fertilize, burn, harvest, transport, de-water, ferment, distill, dehydrate, and transport ethanol and blend it into the petroleum fuel supply would be much better spent and yield a manifold higher EROI adding new petroleum fuel to the fuel supply.
@JuanGonzalez-hf6jc Not good for engines. If you can buy Ford Ranger trucks there..they use excellent gen2 - GTDI engine can use any fuel + trucks last 20yrs if cared for.
Switchgrass ethanol has been known for years, the corn standard continues and will likely continue because it is a MASSIVE government hand out to Archer Daniels Midland, the basically sole producer of corn ethanol in the US. Given the current geopolitical situation the RFS should be suspended entirely so the farmland currently devoted to ethanol production can be used to produce food instead as the two largest grain producers in Europe are currently at war with each other.
And don't forget the huge petrochemical industry that benefits as well, through the massive amounts of diesel, fertilizers, pesticides, herbicides, etc needed to grow the monsanto-sourced corn in heavily abused and depleted soils. The vast majority of the corn being raised is #2 field corn, which is not food grade; it's used for cattle feed and ethanol. and most of it is being diverted to ADM, while the preferred cattle food is shifting to soybeans.
What these studies don’t consider is that all of the byproduct of ethanol is distillers grain. All of this is being used as animal feed. If the corn wasn’t used for ethanol it would be grown for feed anyway. Some of these studies say that the ground is being broken up for ethanol. That’s not entirely true. None of the distillers grain is being wasted. So it also is being broke up for just ethanol. It’s needed for food production. By feeding animals. By making ethanol out of it first you get both. With close to the same carbon footprint. Not to mention that the same ground also raises other crops. Corn is just a rotation crop. Soybeans are also used to feed animals. We as farmers would still brake up land for other crops. And there are millions of bushel of corn in grain bins that could be used for food if it was needed. But it’s not. Ethanol is great for farmers and for so many other things. It’s being used as race fuels. Because of its high octane. It’s a 100 octane fuel when using E85. Us gear heads use it for our race cars instead of oil based fuels. Recap. The carbon foot print to make ethanol also makes animal feed. Not one bit of the corn is t used. So ethanol makes very little carbon over what would be made for animal feed anyway. And yes it takes energy to make the fuel. But then it’s animal ready. Without making into fuel the rancher has to run it through a grinder or roller mill. Which takes fuel and creates carbon as well.
@@wademills1616 Ontop of higher octane and higher knock resistance, using Ethanol also runs cooler in the combustion chamber, an cleans it out a lot better than gasoline. An I love how it smells.
With what's going on in the Ukraine and how that affects the supply and price of crude oil, I doubt any big efforts are going to currently be made to lessen the production of any kind of ethanol, corn made or not.
@@wademills1616 Sounds like the graduates of higher class coastal institutions that don't like meat or combustion engines realized a bunch of fly over country is making money off of corn.
1990s that’s right in the 1990s Popular Science wrote a magazine article explaining how Ethanol didn’t make sense because its energy intensive. Crazy that 30 years later we still can’t figure that out.
@ChrisLammTweets, we can/have it's just the politicians and big business who are using it as an excuse for the power/$$$. Talking about "land changing", "elitist" Bill Gates came to mind as he owns the most farm land I believe of anyone in the country nearly a quarter million acres he has bought up in the U.S. Now why would a "computer geek" buy up a couple hundred thousand acres of farm land. Ironically in an article he claimed he hadn't bought it for anything related to "climate/emissions" but said his "investment team bought it" and then he said "We need to grow more robust SEEDS....This will help with biofuels...." which obviously is about "climate/emissions" but then he went on to suggest "Poorer countries are not likely to consume unnatural sources of meet but rich countries like the U.S., we should definitely be eating 100% synthetic beef...." What an absolute nut-job.
First of all, he did point out the advantages of ethanol in increasing the octane rating, reducing engine nocking and providing oxygen (it can be done in other ways) to reduce carbon monoxide. So it's not ethanol that's bad but corn based ethanol produced in the way that most American farms grow corn. It's been known for a long time that about 2% of the world's carbon footprint is spent on the Haber process needed to make ammonia needed to make fertilizer. And no, the Solvay process to make nitrates was even more energy intensive. But there are renewable ways of powering the Haber process, pretty fancy green ways of making ammonia and frankly it may not be a bad thing if at least a good portion of farmers reverted to growing things more organically and rotated crops. Ethanol can be made from lots of other plant material. My own grandfather was doing so on an industrial scale, enough to light the homes of a million people, from sugar beginning in 1906. And I know researchers now who are perfecting doing this from algae again on vast scales.
The funniest part of this whole ethanol affair is that before 1920 a huge portion of internal combustion engines ran on ethanol. Ethanol was cheaper and more ubiquitous than gas which made it the preferred fuel. It was, however, heavily taxed in certain countries, including the US before 1906, which did make it more expensive than gas. Ford's Model T ran on ethanol by default (though it could be adjusted to run on gasoline as well). Especially all performance/race engines ran on various alcohols, due to their huge octane rating. And one of the major reasons for prohibition was lobbying by oil/gasoline companies, Standard Oil in particular. It was very effective indeed.
If any Congress votes to get rid of the ethanol mandate, the majority party in that Congress will get voted out of office in the next election. That’s what you’re up against. Which party wants to impale themselves on that spear? Anytime you introduce a subsidy, you mess up that market forever.
It was taxed so heavily because it fell under the liquor tax. Get real, moonshiners were making “corn liquor”. Right? ? Just like we’re making now. What goes around comes round! Junior Johnson coulda put the moonshine in his liquor-hauler’s tank and more easily outran the “revenues”.
I studied in Energy Engineering, and this was something that I have been explaining to people for years that a lot of this stuff can be greenwashed and isn't necessarily as good as someone might think it is. The corn growers were subsidized which made it profitable to do so, but it increased food prices by reducing food crop space, the greenhouse gas reduction also depends on how detailed the scope is, but it also might not consider pollution due to fertilizers in land, water, and especially land use change effects. I think one of the most efficient ones was sugar at the time, but it also caused some places to have rainforest deforestation due to its profitability. The last I heard someone was developing algae for biofuel as well.
The subsidies also increase CO2 emissions - if CO2 emissions were a Bad Thing, which is arguable - as those subsidies are taken from the wealth created by private business which might well have used that taxed away cash to increase the efficiency of their own production. See Bastiat, what is seen and not seen. The whole CO2 / Ethanol thing is a racket.
First of all the Co2 hysteria is scam just like the corona hysteria! Methanol and Ethanol in fuel is good not because of Co2 but because it reduces actual harful emmisions other then Co2. On my 1991 2 Liter Mercedes 190E I had to run it on 40% Ethanol fuel to pass the emmission tests here in Norway and when running that the test result was 0 emmision (lower then they could measure?). Without the Ethanol it had no chanse of passing the emmissions tests. . . .
What's more important is usually how energy is produced (or caught) rather than transported. Cultivating is a quite inefficient and pollutive way to get energy.
Co2 is an issue, just a complicated issue. Let’s just say that you could pump an unlimited amount of Co2 into the atmosphere and it would not effect climate in anyway. That completely ignores what it does to acidifying the ocean. More Co2 = more acidic oceans, less co2 = less acidic. It’s a pretty black and white. So why is acid water an issue. Well because it’s destroys habitat that is the base for almost all ocean life. Fun fact the reef off of the coast of Florida has had 90% die off of the reef build species. Which has let to a collapse of the fishing industry in the area.
Hemp makes biofuel cost almost noting to grow dosnt require water or fertilizers or herbsides pulls co2 out of the air and basically has more then one use, and im not talking about it as a drug. The plant has many uses. We should also look at suger crops as a fuel then your motor will really rummmm along. Might even smell sweeter.
I was directly involved in the effort to avoid the EtOH mandates on the oil and gas side. We specifically told all members of Congress we could make cleaner burning fuel without EtOH. We showed them we could do it. We said they could set whatever fuel standard they wanted as for how clean it needed to burn, and we could develop a fuel to meet it. But that is not what they wanted to hear. Most Congressmen refused to even speak to us about it. It was the period of time where I gave up on the US Government as a whole and realized it had nothing to do with actually helping anyone. The only language that spoke was money and whoever was willing to give more of it wins.
I was thinking when watching this video all the facts do not matter. The narrative has been set, the politicians have been paid (and are still being paid) and the EtOH will continue. It will take deeper pockets to change the narrative. FACTS and TRUTH DO NOT MATTER.
Money buys votes self interest buys votes. Voted into office who wants to loose their job. No use complaining when you need to realize the basic reality of political science.
I work near an auto repair shop and consider this: all the emissions equipment costs mega money to repair and cannot be recycled. No only that, but the damage and unnecessary service, tags, licenses, paperwork, gov employees, the energy from the buildings, electricity, CO2 tied to what the goverment spends enforcing the codes to get to that 20% is more than they could ever hope to offset.
@@Sturzfaktor2 Are we actually, though? And if we were, couldn't we just put more trees(such in in those fields used for fuel crops), or, better yet, spread out the exhaust instead of concentrating in into megacities? We do have a year and a half or so of environmental data from people being forced to mostly stay at home to consider as well.
Can you give me a few examples of such emissions equipment? The ones I know of are only costly or unable to be repaired because car manufacturers use them for profit.
The corn lobby is insanely powerful. 10 years ago, I wrote a paper for an undergraduate economics class. TL,DR corn subsidies pay companies to jam high fructose corn syrup (HFCS) into our processed food. HFCS causes significantly more obesity than cane sugar. We are using our tax dollars to make people fat. My professor suggested that I should write a different paper, because no politician will ever cancel corn subsidies.
@@paulsto6516 Part of the problem is our system in the US that gives the ag states way more influence for the size of the population. Think of the Senate where Iowa, Nebraska, ND, SD, Montana, Kansas and Wyoming have 7 times the votes as CA with about 30% of the population of CA. The electoral collage also give these states undue influence. A screwed up system unique to our country!
Well, GMO's are VERY bad. Corn is not alone in causing health issues. Any company changing less than 1% of a Seed then claiming that they own the rights to ALL varieties of the original Seed? 100% EVIL
@@gregkramer5588 that's by design. Different things are important to people in different population densities, but if you didn't have the Senate disproportionately representing low population states you'd have every vote determined by residents of New York and California alone.
@@arcanondrum6543 That is basic capitalism, change a very small percentage of something that already exists and claim it is your invention, has been going on for many hundreds of years.
I work at a ethanol plant in 2014 they use a coal fired boiler to generate steam, the plant also used natural gas and electricity. Plus because of ATF regulations gasoline has to be hauled to the plant and mixed with the ethanol before it can be transported. After seeing it first hand I would guess ethanol does very little to reduce carbon emissions.
It can and does reduce emissions, it's the method we're using to make it at scale which is horribly inefficient. Question is, do we want cheap gas, or do we want cleaner gas? Can't have both, yet. A solar reflector array and a highrise hydroponics tower... Energy, heat, and a gravity battery, built into one facility. that'd do it. Nobody is going to front the cost of construction though.
OIL refining also burns tons of natural gas and electricity, to distill gasoline. It actually takes more energy to make gasoline than the amount of energy that gasoline will produce. Also ethanol is only bad in the US, because the US can only grow corn to make ethanol. In brasil, where they make it out of sugar cane, the amount of ethanol obtained by mass, and by land area, is WAY much higher. Like 6 times more i think. And corn is actually one of the worst crops for ethanol, but it's the only thing that the US can grow for it. Because of soil and climate.
I’m just impressed how Jason keeps improving his production value. Using jugs and randomly falling corn to illustrate the effect corn has on our environment. Keep up the great job. 👏
There is an unpopular variety "Oaxaca Green Dent" and I am partial to the white "Silver Queen" because I heard corn smut likes it. Smutty (huitlacoche) quesadillas are tasty.
"Explaining the science behind slapping two corn cobs against one another." This is my favorite video of yours that I have seen. Thank you for what appears to have been a lot of hard work.
Nooo! I found the corn bit distracting and disrespectful of the white board. Once was ok but was way overdone. I suppose it’s entertaining for some, likely the same crowd that would start a food fight in grade school.
@@EngineeringExplained All (negative emissions, Hydrocarbons & Nox) come directly from the moisture (H2O) that is 'baked into the cake' of all fossil fuels. As the fuel passes through the combustion process, the water turns to steam, and because water is a solvent, it attracts unburned carbons (HCL) and burned carbons (Nox), creating negative emissions. A catalytic converter is 'supposed to' reheat the exhaust enough to 'burn' the water enough to release the carbons (burned and unburned) lowering emissions. However, not until the engine temp gets hot enough to make the catalytic converter hot enough to do it's job. Now, just imagine, if there was a way to disassociate the hydrogens from the oxygen molecules in the combustion process. If those hydrogen atoms could be released, they could then be burned with the fuel, raising the BTU of the fuel, making it more powerful (more power= more efficient), as well as adding oxygen to the combustion process (kind of a little shot of nitrous oxide, increasing the oxygen level of the ambient intake air charge). And once the water has now been 'burned' (disassociate H2 from O), there are zero emissions, and no catalytic converter necessary. Now imagine IF no catalytic converter is necessary, One could lower the engine water temperature, back to say 160-185 for maximum fuel burn efficiency, and oil viscosity life, one could increase efficiency even more. Ironically, I know how to do the process of burning (disassociating H2 from O), simply by imparting a specific frequency into the fuel, before it reaches combustion chamber. The process of imparting a frequency upon the fuel changes the dynamic structure of the water in the fuel, changing it from H2O to H3O2 (known as Hydronium, Structured Water, or EZ water, depending on what discipline of science you are accustomed to) The end result is (depending on driver) up to a 20% increase in fuel efficiency, as well as a drastic reduction in both HCL and Nox. In my experiments, the emissions measure in an algorithmic fashion, depending on how humid the intake air is that the engine is running in. That indicates that the moisture that the air is holding, is the factor that changes the emissions. I haven't quite figured out how to 'treat' the intake charge with the frequency I speak of.... Yet.... Now, to go one further, I am experimenting with adding MORE water directly to the gasoline and getting even more positive results. I'm currently adding 16oz. of tap water directly to 5 gallons of 87octane gasoline, and getting another 10-15% increase in fuel efficiency, with negligible effect on exhaust emissions. I've tried numerous times to demonstrate my discoveries with gas companies, auto manufacturers, and politicians (concerned with environment). NONE of them will communicate with me, once I reveal how I do what I do... I've figured out it's not about the environment, it's about maximizing profit. Follow the $$$.
I'm a chemical engineer. One of the projects we did in my plant design class was a corn based ethanol plant. You could tell who couldn't get their head around it being a net energy loss and losing money. A few groups tried to say their plant was profitable. Since corn has such low sugar concentration, it takes more energy to make the ethanol than you get from it's use as fuel. Need to use something like sugar cane or sugar beets like Brazil does to make it profitable. My professor made it a point that we all knew back when these regulations were rolling out that it was worse just from that aspect. Any savings in emissions at the tailpipe is lost in the production of the ethanol. Not to mention, all the corn being gobbled up for fuel made food manufacturers move to soy which caused food prices to increase. Now, biodiesel plants are moving to soy bean oil, so there are more food price increases as they compete with heavily subsidized biodiesel plants for soy.
Teh increase in food prices are justthe harbinger warning - even at few % of fuel this actually supplies. Did you ever look at it from the wide picture - biochemical/ sun / photosynthesis energy harvest pointt of view. My understanding is that to fuel a billion cars more and more with *any* plant crop it means that more and more of the 7 billion people on earth starve. Ultimately the total area of arable land needed to produce all fuel requirements - even via more efficient sugar beet - exceeds the land we need to feed humans. If we have a spare Earth to grow these crops on then sure- otherwise this seems the dumbest idea ever.
As a Im a Physical Chemist and Mech. Engr. (thermo). Why would anyone NOT see that 10% EtOH is a net loss ... simply because of lower energy density of EtOH; and which also lowers the energy density of the combined fluids when mixed with 'normal' gasoline. Why are the so-called environmentalists, politicians, and Lobbyists attempting to change & disinform the (inviolate) laws of thermodynamics ????? If you really want to have your eyes opened, do a 'back of the envelope' estimate calculation of exactly how much of the 48 contiguous US states' surface area would need to be ***covered with SOLAR PANELS*** in order to equate to the approx. 100 'quadrillion' BTUs/yr. of energy presently consumed in the US.
@@richh1576 Most folks in Maryland hadf small farms or had a relative with one until the early 60's anyhow as gasoline ended up being gasahol we let each other know make sure you run it dry because condensation
I'm a little late, but Brazil (where I'm from) does use ethanol as fuel. And probably we're the only country in the world that does that in large scale. Here, at any gas station you have both options (ethanol or gas) and of course Diesel too. Our gasoline is mandatory 27% ethanol mixed or we use E100 (even BMWs now are flex fuel). We started it back in the 1970's due to oil crisis, but environment and sustentability wasn't a concern. We did it for economic purposes and we have a domestic control of an energy resource. In Brazil we use sugar cane and it take 17 years to breakeven the carbon release. Many, many studies have been conducted here. One thing, decades of inovations made the whole chain to be 30% more cleaner since early 2,000s when 2nd gen ethanol began. We also have to consider ethanol from sugar cane has a better ratio of gallons per hectare than corn. But any inovation or gain you only can have if any country really adopts ethanol in large scale and then as expected, invest to make it way cheaper, relase less greenhouse gases, etc. That's what happened here. Let's be real. If you wanna think about environment and sustentability we can only have by reducing private vehicles (ICE or EV) to public transportation. Tesla wont1s save us. What will save is our change in behaviour and consumption. You can't beat physics: 4,000lb car to carry 1 or 2 people is not efficient.
Yeah but the lighter the car the less safe it is in a wreck. That's why we can never have flying cars, they would absolutely fail any crash test standards.
@@trey2735 any safety gained by driving a heavier vehicles comes at the cost of people outside of the vehicle which creates an incentive for others to drive heavier vehicles which creates a feedback loop that leads to heavier and heavier vehicles
@@trey2735 Lighter cars made of metal is less safe. Lighter cars made of carbon fibers and such are not suffering from the same problems as they are easier to make crash resistant. They absorb an impact in a much different way. We can take F1 cars as an example. Will it be more efficient in environmental terms, as for construction? I really don't know. But it will reduce fuel consumption.
The biggest reason they went with corn was simply that it was easy and (relatively) cheap. Stuff like switchgrass is unquestionably better, but even today there is no cost effective way to convert it to ethanol at scale.
I know here where I live, the amount of waterways, tree lines, and grass decreased big time when farmers realized they could grow corn if they could address certain limitations of the land here in Nebraska. They put center pivot irrigation systems into use which also operate from largely fossil fuels or electricity generated by fossil fuel. There is a large amount of energy used to produce the anhydrous ammonia used to fertilize that ground every year to get a crop of corn from it. I'm pretty sure that the UWM study could've gone even further in identifying carbon released by some of these other inputs required to grow a decent crop of corn.
Iowa has the worst water ways in the Nation because farmers now plant right to the edge. The govt subsidizing ethanol is woven into many aspects of life there, it won't be easy to take that away. Farmers are never going to return crop land into native grass lands, without, you guessed it, massive subsidies.
@@9023gregb you got it! The environmental damage done to the land in the quest for more corn for more ethanol, has caused loss of erosion controls that had been in place since the 1930s. Much of that was habitat for wildlife that has decreased in population. Which is another in planned negative effect driven by the unsuccessful attempt at reducing carbon with corn based ethanol.
In 2005 when my dad became convinced that ethanol was bad for Iowa. His main reasoning is, it has caused the consolidation of the farming industry and has eliminated small family farms because corn easy harvest and this create a Walmart like affect on farming. I don’t think gov is gonna change because farmers will be mad about short term losses even though it’s bad for them in the long run. I am Iowan farmer.
Iowa and even the rest of the corn belt grew more acres of corn in 1980 before ethanol than in 2018, the year of most ethanol production ever. 2018 Iowa 13,200,000 acres of corn 1980 Iowa 14,000,000 acres of corn Forest use land from Census data: 2012 Iowa 2,968,000 acres 1982 Iowa 1,227,000 acres Grassland and pastures from Census data 2012 Iowa 2,879,000 acres 1982 Iowa 2,065,000 acres Rural parks and wildlife areas from Census data: 2012 Iowa 510,000 acres 1982 Iowa 313,000 acres All the ethanol plants in Iowa must have been a big help for the economies of small towns across Iowa. The trend of consolidation in farms began long before ethanol. With ethanol, more of your money goes to Iowan workers and Iowan businesses who pay Iowa state taxes and put the rest in Iowan banks to buy goods and services that you and/or your fellow Iowans produce. With petroleum, more of your money goes to Arab sheiks and transnational companies who put it into Swiss banks and pay little if any in taxes.
This discussion we took in Brazil in the 90's. Here we grow sugarcane (with second generation fermentation) thats waay more productive than corn ethanol. The results of the discussion here is: no need to increase the crop area. Sugarcane DESTROYS the soil and the iimpact is huge. But where the damage is already done worth continue cropping. Also, we have flexfuel cars, that run purely in hidrated ethanol, what also increase the impact. Our gas have 27% of ethanol too. It's not perfect tho, in big cities, like Sao Paulo, the ethanol burn produces aldehydes that worsen the city smog
@Elias Håkansson Yep. Cars in ethanol are the worst in the winter too :) There is a channel about an Brazilian that bought a Brazilian car and try to use the USA ethanol in his car. Less power, and smells like a very drunk person. Besides, they sacrifice crop fields that could produce FOOD. E que bom!! Mais um brasileiro que fala as verdades sobre a cana, combustível etanol e os impactos ambientais que o governo INSISTE em falar que não acontece!!!
If sugarcane is destroying the soil in your property you're doing something VERY wrong. We already have the technology and management techniques to avoid that. Source: am brazilian agronomist.
US restricts sugar cane and sugar cane ethanol imports - again due to lobbying by a strong US sugar cartel. This keeps US prices high and sticks us with worse tasting foods and poorer quality ethanol. Thanks politicians.
@Elias Håkansson we had that problem in Brazil as well, since some regions do get cold here. Initally (1st gen Flex - up to ~2010) cars had a cold start which basically injected a small amount of gasoline (separate tank, with 1-2liters), when the weather outside is below 15ºC. Around 2010, Bosch and Magneti Marelli developed a heating coil (2nd gen flex) that heats the ethanol before injecting it in the engine. Currently, some cars have direct injection (3rd gen flex) so that is no longer needed. I believe there isnt any car being produced today that is still 1st gen flex, that need the extra tank of gasoline for cold start.
@@Kiyoone here in Brazil we may have an advantaged vs. the US since sugar cane ethanol is used as fuel for cars since the 70's. Also, we are the 2nd largest producer of sugar in the world, so there was not the need to convert soil for sugarcane, when it began being used for fuel. All gasoline has ethanol here since the 90's, when we dropped lead and added ethanol in its place. All ethanol/flex cars here produce more power than when used with gasoline, for a few decades, specially those that were E100 only (no longer produced).
I would like to know more about how they calculated the land-use for ethanol. Farmers generally don't react to market changes by simply clearing and planting virgin land. They usually just change what gets planted on the acres they already have, and maybe plant low-yield acres which are unprofitable when prices are low. And in terms of corn markets in general, if corn based ethanol is elevating prices, that means other corn consumption goes down. High feed prices mean reduced meat production, or high HFCS prices mean more substitution of cane sugar. The Ag markets are not in some steady state where increased demand can only be met by clearing virgin land. It's a really messy economics problem to model how many virgin acres are really being cleared and plowed in an ethanol vs non-ethanol US energy policy. This is true in a lot of CO2 modeling when it comes to setting policy. It's really straight forward to calculate the emissions of a defined industrial process. It's hard to model what happens out in the real world which is governed by market forces. But perhaps that reinforces your point that it's not a good idea to undergo huge policy programs when the modeled payoff is only marginal. The focus should be on solutions which offer very clear and very large advantages such that it doesn't matter if your calculations or assumptions were off by a few percent here and there.
I doubt that "family farms" are clearing new land: They do not have it. But the small farmer, the "family farm," seems to be a disappearing entity. They are useful to exploit when justifying legislation, and convincing voters that a program is "for the people." However, increasingly the farming is done by large corporate farms (I liked the term in the book, "Wind Up Girl:" the "Calorie Companies."). Increasingly, the "family farms" produce to contract for the mega-corps. The mega-corps commonly till their own land (as opposed to contracted land) as well. Mega-corp exists to expand. Indeed, stagnation is death. Thus, mega-corp must acquire more contractors (a diminishing resource), acquire smaller/vulnerable/available industrial agriculture firms, or expand their own tilled acreage. Here is where I expect that you will find the land use conversion.
@@billharm6006 - "Mega-corp exists to expand. Indeed, stagnation is death" - BUT our planet is finite! So I guess these "superior idiots' ( by which I mean while they may have a "higher" education, they have a poor grasp of reality! ) see planet extinction as just another "externality" they can continue ignoring???
@@deshaunjackson8188 Ethanol makes no sense on any sort of large scale. It is all about energy density. You have to burn more Ethanol to get the same or similar performance among other things.
living where i do and working on the amount of farm equipment that I do I find it insane that the fuel consumed by the equipment maintaining and harvesting this corn is never factored in either in addition to the equipment being reasonably fuel inefficient
AND the soil destruction, AND the increased use of dwindling fertilizers, AND the increased dead zones in coastal waters from excess nutrient runoff, AND the use of marginal land that was previously wildlife habitat-
Agree! And I think the new study referenced in the beginning of this does actually take this into account, along with a whole bunch of other factors that were ignored/never considered in the original equations... in order to give Ethanol a great big push and a shove into profit-land
Not to mention that the transportation cost is usually double. Oil tanker ships are super efficient. Shipping high volume corn in trucks only to throw most of it away is super inefficient. Then you refine them and still have to ship both to the pumps.
Also, something really important that nobody mentions is that forests probably absorb more co2 than corn fields. Then factor in that producing ethanol runs a net energy loss (it takes more energy to produce than you get back from the fuel) The growing global food demand while we are decreasing corn production for consumption... And the fact that ethanol is actually MORE EXPENSIVE to produce and only costs less because of tax funded subsidies... And you'll see the ONLY benefit is the increased price of food (corn) for the corn farmers union. They poured unbelievable sums into getting the laws changed to require ethanol knowing full well it was worse in just about every way. Then look at the consumers side. It's less energy dense so you get less mpg. It absorbs water out of the air so it goes bad quickly and can damage your vehicles. It dissolves standard rubber fuel lines. And a lot of older vehicles with carbs really struggle to burn it. I used to think it was great, but it turns out it's a worse scam than the prius. It doesn't improve anything but tax revenue and profits for Monsanto.
If you're going to argue that ethanol isn't necessarily a poor choice aside from the emissions resulting from land clearing and production, I'd be interested in seeing a similar scrutiny applied to the process of refining oil. Specifically, consider the emissions impact of constructing drilling platforms and transporting oil in container ships across oceans compared to a farmer clearing land just once. It seems you've overlooked the fact that our energy demands are growing, and we must address today's needs. If, as you mention, the lifecycle of ethanol proves to be more favorable than the linear journey of oil from extraction to atmosphere, then the one-off impact of land clearing could potentially be less detrimental than the ongoing processes involved in importing foreign oil or erecting infrastructure for refining oil into gasoline. Considering a container ship's journey from the Middle East to the United States, spanning roughly 8,000 nautical miles at an average speed of 23 knots with a daily fuel consumption of 150 metric tons, the voyage consumes about 13.78 million gallons of fuel. Intriguingly, this amount of fuel-the same consumed by a cargo ship on such a trip-could be used to clear approximately 1,722,861 acres of land with a bulldozer that uses 8 gallons of diesel per hour and clears an acre an hour. I'd appreciate your perspective on this.
He was arguing that we should have went with another alterative to corn instead of using corn. He cited the oil would be bad to continue with but switch grass would be better than corn and there are others too. Right now I am thinking we will be going onto EVs and nuclear fission for how the USA will be powered. The fear of a nuclear melt down is founded in a false understanding of how it works. Yes it can happen if all the safe guards fail all at once but the fall out will be less than what was in the example commonly given of Chernobyl. It made it seem bigger than it was and now humans can live there again just not as well as we can live outside of a nuclear fallout zone. The main reason why is the fuel source is different. Then you have how the fission is done is different then how the safety is done is also different. If everything fails the lead inside of the thick cerement blocks that make up the outside of the building will prevent it but even the dead man switch will prevent that from being needed. So even if everyone dies and no one is around to hit the button there is a fail safe to make sure it will be stopped. The reactor will not be useable afterwards but the reaction will be stopped. The people who design them learned over the decades how to do it efficiently and safely. Still the sci-fi tech of fusion power generating power is not here due to what is needed to contain it. Fusion has been here for 1000s of years being controlled by humans just not a power source. Maybe in the future we will have fusion power but right now all the new nuclear power plants are for fission power.
If corn can be used to make fuel, and the emissions end up being somewhat similar to a gas car, and if you think about the transportation, how oil is gathered, processed, etc., being able to eliminate a lot of that process, and if they are not buying the main raw materials from overseas, the price for E85 should come down in price significantly. Well, you would think so anyway. And if they started making cars come out of the factory as flex fuel compatible and invested in ways to lower ethanol's emission output, I don't see why a renewable fuel like E85 wouldn't be a viable idea since the world will one day run out of oil.
I've been saying this for 15 years. Ethanol is a great fuel, but corn is a poor feed stock. Switchgrass, sugar cane, and wood pulp are all significantly better options. Honestly, they only produce ethanol from corn due to lobbyists pushing it so hard. Thank you for drawing more attention to this and for sharing this new study!
Switchgrass and most other cellulose sources are worse than corn. They are too bulky to transport. Most take more energy to process. Crops like switchgrass are single use. Unlike corn which produces ethanol plus acre for acre as much feed as soybeans. Corn ethanol has another benefit for human security. We depend on corn not only for food but also many manufacturing processes. If there is a severe drought for example, ethanol production could be reduced. Thus, saving corn for other uses. I'd guess a 20-30% buffer against really dramatic consequences. Can't do that with your other sources.
There was a large biomass project utilizing switchgrass in southern Iowa several years ago. The switchgrass was ground and burned in a coal fired power plant as a renewable fuel. I spent a lot of time mowing and picking up switchgrass bales. If memory serves, the BTU comparison between coal and switchgrass by the pound was small (coal > switchgrass). The whole project was shut down when "someone" came in and stated they were going to commercialize it. I think it needs a second, very, serious look. Switchgrass provides excellent erosion control (up to 20' deep root systems) and habitat for wildlife. If the push for electric cars is going to continue, the need for better fuels at power plants will become paramount.
Why are we wasting accumulating biomass that builds up along our streets, or after a flood or tornado. All the material that is organic can be processed with a wood still, and generate methanol alcohol. Now the argument is that you have to use energy to create energy. You can extract the alcohol the from filtering cooking oil and 10-20 %alcohol to the oil for fuel to create the methanol alcohol. You can process methanol alcohol from many organic sources, down tree limbs, grass clippings, manure from animals, and scraps from building materials ect. In fact we may want to rethink how we process sewage in our country.
It really is all about input vs output when it comes to biomass. Which is really why ethanol isn't as big of a benefit as expected. It's a lot of fuel (and carbon release from soil) to collect and transport organics to a processing facility. New data from a broader analysis, apparently, has shown this. For any new processes It really comes down to tonnage of material. General cleanup would not provide the amount of material needed to offset the output in my opinion. After a disaster a lot of the arguments against the collection is negated because it needs to be cleaned up anyway. Manure processing is in place and works well in larger feeds lots to my knowledge. I do not have first hand experience with these systems and need to look into them. Processing of sewage is a whole other issue. Lots of chemicals and heavy metals involved from what I've seen and read. The biggest potential net gain is altering an already established process. Disaster cleanup, manure processing, household trash pickup, and possibly sewage all have some of that potential. That all said - I don't think we should completely ignore carbon but I do agree that methane collection and use would better suit our needs and efforts.
Would cut in to to may profits. The sell them seed ,fertalizer,weed killer,pesticides, and fuel every year. The grass would only take fuel and time so to much money loss to let that happen. Oh and cows don't need corn to survive either.
When we take organic material from the field we must return it in some form. Fertilizer is usually the form chosen, but even then we tend to take more than we return. Eventually, that becomes a problem.
You left out the fact that ethanol doesn't contain the same amount of energy as gasoline thus reducing the efficiency of internal combustion engines resulting in more fuel being consumed in the pursuit of conservation. It's also bad for many engines, especially small engines, causing them to run too lean. Another wonderful known byproduct is that ethanol is hydroscopic which leads to fuel system problems and internal corrosion. Rubber and plastic can swell or lose their structural integrity causing seals to leak or fail. Some manufacturers will void the warranty if E15 is used. Everything about this substitute adds to more energy being consumed to compensate for it. If it worked there would be no need to mandate it. "As a result, taxpayers have spent billions of dollars over the last 30 years subsidizing the production of corn ethanol, while at the same time creating unintended costs for consumers and the environment." This was always politics. It's been well known since its inception that the unintended consequences outweighed any theoretical good.
detail question, what makes you say it's bad especially for small engines? don't oxygen sensors and stoichiometric EFI operating/control strategies correct it to lambda=1 which is say 14.7 for 0% Eth gas and 14.3 or whatever respective point (i forget) it might be for E10 gas etc?
Imagine having a carburetted motorcycle and leaving it for some time without starting it. Gunks up jets, clogs the fuel bowl etc Makes startups after winter a pain in the back Yes. I did use fuel stabilizer, didnt do jackshit
@@renizer not on lawn mowers/ lawn equipment and carbureted motorcycles. Anything without electronics to compensate. Seems like you’re nit picking and missing the bigger picture…
The best results would be reached if gasoline cars were turned into flex-fuel (or bi-fuel, whatever the name) cars. I installed a small box to my previous car and that basically monitors the data from lambda and increases the time the injectors are open. So it stands between the car's own computer and the injector. Of course it also monitors the alcohol concentration. E85 contains about 85% of ethanol and my 2001 Audi A6 was running like a charm with it and also with any mixture of that and gasoline. Only cold starts in the winter are a problem, below -5 celsius needs some gasoline mixture. Pure E85 consumption was about 30% bigger than 98 octane (Europe standard, don't remember the RON vs whatever differences) that has 5% ethanol in it and can be used without any modifications to your car. But also, the ethanol should be made out of waste, not turn land and grow food for that. In Finland ST1 produces it's ethanol from wood industry's waste and some common waste too. So they're using the leftovers that wouldn't be used elsewhere. CO2 isn't of course the only emission difference, ethanol burns much cleaner too. And a bit cooler.
@@someguy9520 yes. I spent hours attempting to clean a carburetor on a motorcycle that had sat for an extended time. It never fully regained its original performance. At least not with the time I put into it.
YAY! I've been a ineffectual proponent of switchgrass since the early 2000s. It's awesome to see this topic presented. Please now make a video showing alcohol production from switch grass vs from corn, especially showing the amount of leftover waste produced by both (just make two piles of the leftover biomass).
Just under half of our corn planted is value added into ethanol and distillers grains. 100% of the fertilizer and things in the soil still get fed to livestock in the distillers grains. Ethanol comes from only things of the air: solar energy, CO2, and water with the latter two recycled once burnt. 100% of the protein, minerals, vitamins, fats, etc are in the triple concentrated distillers grains. It is not a waste, indeed corn ethanol would be far too uneconomical to even produce otherwise. But with its feed factor, few other sources (even though they may make more ethanol per acre) can compete with it. The Federal subsidy on corn ethanol ended back in 2011. There still exists a Federal subsidy for generation 2 ethanol which switchgrass would qualify for, and this subsidy is over twice as much as what corn ethanol's (generation 1) had been. There was a generation 2 ethanol plant almost built that was to use corn stover in Nevada, Iowa but this was never completed and was since repurposed. It is hard and expensive to make ethanol from cellulose which is why all the drinkable spirits we have been made from sugars and starches. Switchgrass requires a dedicated acre of land whereas corn ethanol comes from already existing feed production acres but as a source, we can only economically just over double our current production from it.
Corn has no nutritional value, Its roughage until you turn it into corn fructose a sugar additive they put in soft drinks and use instead of cain sugers open a bottle of karo syrup its corn syrup its thick think what that dose in your blood stream. Its banned in European country's as a sugar substute because its not healthy. Your better off plowing it into the soil.
I also know sugar cane is about 12x more efficient. Since there is an already perfected system of production of extremely cheap ethanol in Brazil, why was not that copies into sunny and wet places like Florida or the golf cost states?
@@fmilan1 Bing copilot says we do a little, but the vast majority is (value-added) from corn. I imagine they make more money for sugar production. Hawaii imports expensive diesel to make dirty electricity, they could use their abandoned sugar cane fields to make pollution free cheap fuel and electricity for a fraction of what they spend on other renewables. Bing states sugarcane make 560 gallons of ethanol per acre on a 35 ton/acre crop. Sounds a little low to me but that is what it said. Value-adding corn into ethanol produces not only >500 gallons per acre but also 1000 lbs. of protein (& other things) per acre. This feed factor is why it can economically outcompete even sugarcane. So much so that Brazil put an import tariff on US ethanol in 2017. Went up to 18% this year. Brazil is also using corn for ethanol. It is a good fit because unlike cane, corn stores well so they are able to more efficiently run their ethanol plants all year-round in-between cane harvests.
@@deltalimaactual Switch grass is fine and there exists a Federal subsidy if anyone wanted to make it of $1.01/gallon. Corn ethanol's subsidy which had been $.45/gal. ended back in 2011. Switchgrass requires a dedicated acre of farmland and dedicated fertilizer. Cellulose ethanol plants are expensive to build and it is harder to get ethanol from which is why spirits like whiskey, rum, gin, vodka, saki, etc. are made from sugars and starches, not cellulose. Corn ethanol is value-added from already existing feed production acres which preserves the feed in a healthier and more productive form called distillers grains. There were no grassland or forestland broken up for corn ethanol. US cropland acres have been declining so it is quite impossible. Most corn grown is fed to livestock though there is nothing stopping us from eating distillers grains. 100% of the fertilizer and everything from the soil still gets fed to the livestock in the distillers grains. Ethanol is made only of things of the air: solar energy, CO2, and water with the latter two recycled once burnt. Cattle cannot digest starch well and waste it out their backsides as methane gas and carb rich manure which turns into methane later. I personally try to eat grass fed beef so if everyone ate like me, corn ethanol would not exist as it would become too uneconomical to produce without its feed factor (distillers grain).
Farmers have historically been supported by government in America because food production and the ability to feed ourselves is considered a part of national security.
Not just a farm subsidy but a subsidy for agriscience giants promoting their seed/fertilizer/herbacides and the petroleum companies that get to sell you about 15% more gallons when you look at the 14/9 split in stoichiometry.
@@76horsepower Unfortunately the ethanol subsidies aren't going to the small farmers but rather to the farming giants such as ADM as Jim Urrata pointed out below. These folks spend millions in lobbying to keep ethanol subsidies in place and they won't be interested in moving to switchgrass . And Jim's also right when he points out that ethanol "enhanced" gas is less efficient and causes us to use MORE fuel than would be necessary with alcohol-free fuel. This is the government working for big industry and against its citizens.
It’s funny, when I was 10 years old i did a paper for a literary competition discussing the effects of ethanol in Gasoline, the only difference is mine was based on sugar cane (grew up on an island, that’s where we get our ethanol). i did the argument against ethanol in gas and surprisingly won. That paper listed all the negatives which far outweighed the positives. Im 24 soon. This information has been out for a long time but the government doesn’t care
You're absolutely right. Keep fighting. This stuff was obvious to me when I was a kid too. Now I'm 50 and too old and tired to do anything about it. Nobody does anything today unless it will net a profit, and that needs to change if we want to remain a viable species.
@@stickyfox Existentially speaking, what is our ‘purpose’ in the universe anyway? The viability of the human race is irrelevant. In the big picture, it makes NO difference if we make it or not as a race.
They knew the corn based ethanol math was horseshit. The politicians cooked the numbers to make it fit what they wanted, which was a way to require more dollars to be funneled to their corporate corn-growing friends. He says "farmers" but in the US almost all the corn is grown by corporations and the farmers are little more than employees.
@@ichoppabroccoli3670 The lifetime carbon cost of EVs is lower than ICE and more to the point can be reduced with decrabonisation of electricity production. Yes, I know renewables can't come close to fill the hole that removing "burning stuff" creates in energy utilisation - but they're a stepping stone in reducing carbon emissions until nuclear power gets better Hint: ORNL MSRE, SINAP TMSR-LF1 - if the Chinese rebuild of Oak Ridge's 1960s work validates the results of 55 years ago, then nuclear power just got 80% cheaper to build/operate and waste output was reduced by 99%, whilst the reactor temperature got high enough to efficiently generate power and substantially reduce maintenance costs in the non-nuclear side (superrcritical steam production, instead of wet steam as is currently produced in nuke plants - which causes massive levels of blade erosion in steam turbines) If nuclear energy is cheap enough, then hydrogen for Haber-bosch processes is carbon-neutral (current carbon emissions from fertilizer production are higher than the world's transport fleet) and you have enough energy available to tack on atmospheric carbon and make portable synthetic hydrocarbons - which gets around the massive costs and dangers of trying to use raw hydrogen as a transport fuel. Yes, it means fuels will be more expensive than electricity (joule for joule), but in cases such as longhaul aviation, it's a cost that will be eaten (air transport will return to being something for the rich and public transportation _will_ rise again as fuel costs pass $10/gallon)
@@ichoppabroccoli3670 at least with EV, the thermodynamics checks out, unlike ethanol. A properly supported EV network will produce double the distance a car can produce using the same amount of gasoline as fuel for their generators. Cars simply suck at converting fuel to motion and cogeneration makes fuel stretch significantly
Amory Lovins of the 'Land Institute' was onto this way back in the 1970's. The whole corn ethanol thing was just a back door means of supporting the corn price in a way that would clear the new WTO trade rules during the 80's. and 90's.
Here is how the 2007 Energy Independence and Security Act affected food/feed prices(if at all): 2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE 2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE 2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE 2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT 2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT 2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + MOST ETHANOL EVER PRODUCED Wheat 2007...............$6.48/bu 2008...............$6.78/bu 2009...………$4.87/bu 2016...………$3.89/bu 2017...............$4.72/bu 2018...............$5.15/bu Soybeans 2007..............$10.10/bu 2008..............$ 9.97/bu 2009...……...$9.59/bu 2016..............$9.47/bu 2017..............$9.33/bu 2018..............$8.48/bu
Good vid. I'm not sure of the ethanol source but here in the UK, we have recently moved to 10% and many people are reporting higher fuel consumption, therefore further reducing the environmental savings.
That IS correct. Ethanol has about 70% the energy density of pure Gasoline. So with 10% added you will see around 3% worse MPG. Ethanol does allow higher compression ratios and If an engine is designed to take advantage of that you can reduce this defict.
@@rgrigio Even turn it into a benefit. It's not fair to judge an engine that has had 100 years of fine tuning to one type of fuel to the same engine running a different fuel and then blame the fuel for a lack of efficiency. There's sort of a conflation of two issues though, one being the energy density of the fuel and the other being the efficient extraction of that energy. They aren't related. Ethanol is less energy dense, but what matters is the net energy put into useful work. In a gasoline engine less energy is converted into useful work even at best design efficiency as a ration of gross to net. Ethanol is able to extract more effective work meaning the ration of net to gross is HIGHER in an engine DESINGED FOR ETHANOL. The question is how those factors fit into the larger puzzle of tradeoffs. For a gasoline engine 10% ethanol is about as high as one can go before you increase fuel consumption for the same amount of work. Unless you go to 95% Ethanol in an engine designed for it, in which case you are getting a lot of benefits and MORE efficient extraction of energy. The main reason they put ethanol in fuel though is not for environmental reason, but to help keep it dry, blended, and at the appropriate octane.
It has been known for many years that corn based ethanol is an absolutely idiotic idea. In the end, the reason for choosing it was to prop up corn prices and make corn production more viable, it was not to reduce CO2.
@@johndrew6730 Buy off the ag lobby? You mean they get favors from Congress and we pay them ? Both? Pretty sure the lobby does the buying in exchange for beneficial legislation.
Very interesting, thanks! In Switzerland, land cannot be used for the production of ethanol. therefore, it is produced from wood scraps only. Likewise, biomethane is produced from food scraps, agriculture waste etc. and it's proportion in the natural gaz mix is on average 25%.
@@fredschnerbert1238 which is why they put it into the natural gas to burn it into CO2 instead of having it leach into the atmosphere from rotting in a landfill. Pretty smart if you ask me!
One more thing. The feed value of the corn in animal rations, which remains after fermentation, was ignored and is a vital component of the ethanol equation. Suggesting agricultural lands could be returned to non agricultural uses would lead to a sharp increase in food prices and have a ripple effect on global hunger. Converting agricultural lands to subdivisions, parking lots and malls represents a far greater threat to life and quality of life and is a permanent loss of land that could be used for food production.
I’m a little late to the comments, but my comment is that not all of the negative things were mentioned. 1 very big negative is the amount of water needed to grow Corn. The irrigation needed lowered the water table greatly, that water took many years to be deposited in the underground. It’s gone. Kansas has started limiting the amount of water that can be pumped, it’s a little late but it will take many years to rebuild the water table. I’m old so I’ll never live to see any difference. Thank you for your video. Thank you Sir
Most corn(>85%) is not irrigated and of the top thirteen states who do irrigate only Nebraska is known for corn. The US and even dry Nebraska used MORE irrigation water before the RFS existed than after it was law: National Totals Irrigation, in Bgal/d 1950 89 1955 110 1960 110 1965 120 1970 130 1975 140 1980 150 1985 135 1990 134 1995 130 2000 139 2005 127 2010 116 2015 118 Irrigation, Total self-supplied withdrawals, fresh, in Mgal/d Nebraska 1985 7265.09 Nebraska 1990 6097.64 Nebraska 1995 7549.78 Nebraska 2000 8793.76 Nebraska 2005 8460.43 Nebraska 2010 5660.12 Nebraska 2015 6090.6 In other words, ending ethanol would not change irrigation use even one iota. It is impossible for ethanol to have caused land to be broken up since US cropland acres have declined since ethanol. The corn belt actually grew more corn acres in 1980 before ethanol than in 2018, the year of most ethanol production ever. One reason water tables are going down is that the land is not infiltrating the rainwater so it is running off to the rivers creating more flooding along the way. Years of acid rain made the calcium in the soil go down faster than normal so the magnesium tightened and compacted the soils without the calcium there to keep it flocculated. It also damaged our forests losing the calcium. We need to increase soil health and infiltration rates to rebuild the water tables and reduce flooding.
Without the subsidy for ethanol, KS would probably be a wheat or alfalfa state. Corn does best in tallgrass prairie rainfall further east. (Though I wish we still had some prairie left, tallgrass and shortgrass.)
87% of corn is rain fed. Of the top states who do irrigate only dry Nebraska is known for corn. There were no grasslands or forests broken up for ethanol. Quite impossible since US cropland acres have been declining. Census data shows corn producing states (including Kansas) increased grassland/range, forest, and wildlife areas since ethanol came. The corn belt actually grew more acres of corn in 1980 before ethanol than in 2018, the year of most ethanol production ever. Erik Johnson, the corn ethanol subsidy ended back in 2011.
Did you factor distillers grains into your conclusions? Every study that I've looked at that results in a negative for corn ethanol fails to get even the most simple facts straight. The one in this video is no different.
@@rdizzy1 They only result in better numbers because they are flawed. Switchgrass and most other cellulose sources are worse than corn. They are too bulky to transport. Most take more energy to process. Crops like switchgrass are single use. Unlike corn which produces ethanol while at the same time acre for acre as much feed as soybeans. The protein and fiber in corn is not converted to ethanol. Corn ethanol has another benefit for human security. We depend on corn for many things. If there is a severe drought for example, ethanol production could be reduced. Thus, helping ensure enough corn for other uses. I'd guess it provides a 20-30% buffer against really dramatic consequences.
@@benchoflemons398 incorrect, it was in fact due to lobbying by big ag. There were increasingly more countries producing their own corn and relying less on imported American corn, thus dropping prices. It was intended to create a new, domestic market for corn that would increase prices and be less susceptible to increased production globally. No one gives enough shits about voters of any demographic to make a policy like this purely to placate them.
@@benchoflemons398 No it has nothing to do with farmer votes. They are literally the smallest voting block in America, that would be political suicide. The reason for it has to do with American food policy. Farming is heavily meddled with by our federal government.
@@benchoflemons398 That only proves my point. It has nothing to do with placating farmers OR placating people who marry young. It’s about overall energy policy / cultures where dating/marriage isn’t just a means for using someone for sex.
@@benchoflemons398 A quick Google search shows me that the ethanol requirement was passed by Congress in 05, which wasn't even a voting year so them doing it for the Iowa caucus damn near 3 years in the future just doesn't hold up. It sure wasn't farmers who read the study referenced in this video and started a lobbying campaign to get this passed, and Congress sure wasn't thinking of a caucus 3 years in the future. A lobbyist or an employee of big ag read the study and saw an opportunity. A quick Google search confirms this. My god man, the information is out there at the tip of your fingers. Look it up before so boldly stating such opinions based clearly on nothing more than gut feelings.
Farmers have been supported historically by the government in America because the ability to grow our own food and feed our population is considered a part of national security.
I know this is an older video but iv'e got to say as a UK citizen I really like the style of this video, quick start, straight into the subject matter no heavy guitar riffs at the beginning no 'in video' ads for PCB manufacturers or VPN suppliers etc...love it, and i'll subscribe just for that, and of course for the very well presented subject...
The only problem with it is that there were no grasslands or forests broken up for corn. Quite impossible since US cropland acres have been declining since ethanol. US Census data even shows corn producing states increased grassland, forest, and wildlife areas since ethanol as well. Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than they did in 2018, the year of most ethanol production ever and ethanol plants everywhere. 2018 Iowa 13,200,000 acres of corn with record ethanol production 1980 Iowa 14,000,000 acres of corn before ethanol 2018 Illinois 11,000,000 acres of corn with record ethanol production 1980 Illinois 11,600,000 acres of corn before ethanol 2018 Indiana 5,350,000 acres of corn with record ethanol production 1980 Indiana 6,450,000 acres of corn before ethanol
I don't think it ever was a secret that ethanol had less energy density and more costly to produce per BTU. I always took it as a way to subsidize the farmers' surplus and replace foreign oil supplies. What really wasn't apparent to the user was since State and Federal gas taxes are based on a fixed cost per gallon, the lower mpg results in paying a higher tax per mile.
It costs less to make ethanol than gasoline when you end up buying the gasoline from people who hate you and spend YOUR MONEY on weapons to attack you with. The geopolitical situation changes the economics.
You are right. It is not a secret. What people forget is that we have MORE corn than we need. It would get wasted. We 100% want to grow more food than we need, to account for problematic years. So we ALREADY have the corn. Ethanol is a way to use up that buffer when we don't need it. Now, certainly, the ethanol and corn industry lobby to get every advantage they can. Every industry is guilty of that though. Still, having a food buffer and finding ways to use the excess is a good thing. As noted in the video, causing an even greater corn growth increase. Which should not happen. With electricity becoming renewable, obviously that is now the better choice. We still are going to want excess food; converting it to ethanol is likely a solid use. I normally agree with Engineering Explained, but I'm pretty sure they wouldn't want us to live on the brink of starvation, and also wouldn't want us to let that already grown corn go to waste.
@@legonut78 it's not corn that humans can eat. They wouldn't be wasting a crop they would plant something else. You can't plant corn year after year in the same field.
@@RJL612 I’m not following you. Are you saying that the corn used for ethanol is inedible? I assure you, it’s the same corn humans eat. Field corn (dent corn) is what we eat and it is used for ethanol. It is also our animal feed. So yes, corn is where our food comes from including most of the interior supermarket isles and all of our meat and dairy. Without corn, we die. Also. You certainly can grow corn in the same field year after year. It’s cheaper to rotate it with legumes however, to reduce nitrogen costs. That problem is being solved however and someday soon corn will fix its own nitrogen. Several folks are working on it, which would be a huge win for Mother Earth.
Studied and did research on this in college 15 years ago and the conclusion was it was way more inefficient and countries should think long and hard about using food stocks for energy ambitions. Yet auto makers signed on to it
I hope you got an F in whatever class you did that study for. Because ethanol is not using feedstock. Ethanol allows us to get both food and fuel from every kernel of corn.
@@jeffp6786 still need to produce increasingly more corn as more cars started using higher ethanol contents not to mention how variable seasons can be with droughts
@@Brandon_letsgo That is not true in the slightest. Corn is not diverted from food to fuel. Once the ethanol is extracted, DDG (dry distillers grain) remains. That DDG is then fed to livestock thereby creating food.
@@austinh1028 No. The vast majority of corn used for ethanol would be grown regardless for animal feed. With ethanol, we extract the fuel from the corn leaving protein dense distillers grain to feed to livestock. The reason this study is bogus is because it assumes the land growing corn would go back to idle if not for ethanol. That's simply not true and skews the study results.
This is a very good presentation with good supporting documentation. In the 1975 my engineer/farmer father along with a friend that was a plumber built the largest ethanol still in our county. It was a highly efficient packed column and could distill ethanol to a fraction of a degree. It could produce near 95% ethanol. It was powered by a boiler that burned firewood from dead trees on the farm so the fuel cost to distill was nearly zero except gas for the chainsaws and a little fuel for the farm truck to haul it to the still. He even raised the corn which was used to make the ethanol which was quite cheap at the time. The left over mash was donated to a neighbor to feed his hogs. After two years of experimenting with different ethanol mixtures from 10 to 95% including a trial run of 50% ethanol and 50% water he found that he could not break even with just using straight gasoline. The fuel consumption was greater with any mixture of ethanol in his gas tractors and didn't even come close to the efficiency of his diesels. Even though his only real cost was the corn he used instead of taking it to market, It was a money losing proposition. He did not even count the cost of the large still which was built from surplus materials nor the expensive government permit to distill ethanol nor his hours of labor building and running his project. Running ethanol was a waste of resources and it was rusting his metal storage tanks including the metal tractor fuel tanks. When they started building ethanol plants in our area a couple years later, we knew they were a money losing business as the cost of corn doubled and their fuel and labor costs to distill were much higher than ours. It was a feel good government scam that made a lot of people money but did nothing to actually help the environment or reduce our dependence on foreign oil. It required more fertilizer and chemicals to raise more corn which is harmful to our well being. While we made more money on our corn, we could no longer drink the water from our well which is now contaminated with nitrates. My father's early experimenting was fairly scientific at the time. None of the tractors back then were fuel injected and all the engine tuning had to be done by trial and error but the results compare closely to the literature of work done more recently. Just a side note to consider. I don't know of any farmer that raises corn using ethanol powered equipment.
Nice to hear perspective from those with experience on the field! I suspect this has a lot more to do with corn than ethanol itself from what I gather though :/
If ethanol producers gave away their distillers grains, they all would lose money as well. The feed component is what makes corn outcompete most any other source even though they make more ethanol per acre. John Deere and Cummins just dropped a chunk of money into a company named ClearFlame who converts diesel engines into pure ethanol burners. So clean it eliminates the need for the costly and unreliable exhaust particulate filters and DEF. Henry Ford's dream of ethanol tractors may come true. The US actually used more fertilizer and chemical in 1980 before ethanol than after. Everything from fertilizer and from the soil is still goes to the feed, the only thing that goes to the ethanol is solar energy, CO2, and water with the latter two needed for the new gallon of ethanol. Here is how the 2007 Energy Independence and Security Act affected food/feed prices (not counting inflation): 2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE 2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE 2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE 2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT 2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT 2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + RECORD PRODUCTION OF ETHANOL Wheat 2007...............$6.48/bu 2008...............$6.78/bu 2009...………$4.87/bu 2016...………$3.89/bu 2017...............$4.72/bu 2018...............$5.15/bu Soybeans 2007..............$10.10/bu 2008..............$ 9.97/bu 2009...……...$9.59/bu 2016..............$9.47/bu 2017..............$9.33/bu 2018..............$8.48/bu
Govern = CONTROL Ment = MENTAL The WORD GOVERNMENT IS MIND CONTROL ! We can't vote our way out of it ! Any where in the world ! If you have any doubt in 20 22 Look up the word politics ! Parasites always kill their host !
@@crazydragy4233 NO IT'S ABOUT THE PARASITES ! That controls our MINDS ! Check out the Arab spring ! And how ethanol base fuel caused it ! Then ask Al Gore why did he lie ?
Agricultural land use in the U.S. has decreased from 1949 to 2012 by 11%. The new breaking of land for corn production did not happen, which is a fundamental error in the calculation used to calculate the net benefit of ethanol. It's also important to note that the new emphasis of long term storage of carbon in the soil, by climate change alarmists, is also debunked by the Harvard study. Bottom line, agricultural food production is essential to living and quality of life. Agricultural economics is an important part of the equation.
Not only that, in the corn producing states, Census data shows that grassland, forest use, and wildlife areas increased after ethanol. Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than they did in 2018, the year of most ethanol production ever and ethanol plants everywhere. 2018 Iowa 13,200,000 acres of corn with record ethanol production 1980 Iowa 14,000,000 acres of corn before ethanol 2018 Illinois 11,000,000 acres of corn with record ethanol production 1980 Illinois 11,600,000 acres of corn before ethanol 2018 Indiana 5,350,000 acres of corn with record ethanol production 1980 Indiana 6,450,000 acres of corn before ethanol The US used 11,160,933 tons total fertilizer on corn in 1980, before ethanol. In 2018, the year of most ethanol production ever, the US used 10,521,850 tons total fertilizer on corn.
We’ve known for years that switchgrass-based ethanol is a better solution than corn-based ethanol. But, our government doesn’t subsidize the growing of natural prairie grasses like it does corn.
Cane ethanol would be even better than that. Much higher energy potential. But corn has very little energy in it, even for the biological machines it's been tailored to power (our stomachs) being more of a filler than a nutrient, so there's no surprise there.
@@Astroinmotion Exactly. I remember my Dad and I discussing the use of sugar ethanol in South American countries for all these reasons, when he was still healthy. (he's been gone almost a decade now).
Seems like the government gets in its own way a lot of times. They always talk about looking for a better solution and lowering emissions and hear a solution is staring them right in the face (switchgrass) but they won't do anything with it. The politics get in the way of doing what's actually better.
When I first visited an ethanol production facility and saw the amount natural gas they had to use to boil the mash and other heating operations didn’t seem to make sense. Using fossil fuel to save fossil fuel I knew at least cut down on the benefit. It didn’t make sense to the owner of the oil company that was operating the big still, but he said they government was paying him to offer it so it only makes sense for the oil company.
Poet, the largest ethanol producer now has half their plants using waste steam from natural gas electric plants to make ethanol. Waste steam = free energy. Thus, the already low price of ethanol has room to remain low for soon all plants will be like that for who can compete with free energy. You do realize the crude oil and tar sands require huge amounts of fossil fuels to distill into gasoline? Tar sands require the pipeline and rail cars to be heated from Canada to even move it.
@@TheRealPlato They would have to or probably mix in natural gas distillates in the cars to prevent it from setting up like a rock and then redistill them out.
There is another factor that I didn't hear you address. When comparing reduction of emissions between E10 and E0 gas, you also need to factor in reduced fuel mileage due to the ethanol. So while I'm polluting 2% less on E10, I'm burning 5% or more E10 fuel overall to travel the same number of miles I would on E0. I'm curious if that was something Tyler's study factored in. Because if you factor in burning MORE fuel per mile, then it's apparent that ethanol doesn't do what they claim it will. And never did.
Even with just 10% ethanol added to E0, the Swiss Federal Laboratory for Materials Science and Technology found that the especially health devastating ultra fine or nano particulate emissions were lowered by 97%, carbon monoxide lowered by 81%, carbon dioxide lowered by 13%, aromatic hydrocarbon emissions lowered by 67-96%, and genotoxic emissions lowered by 72%.
@@danafletcher2341 I looked up that study and found it referenced from 2016. It's interesting that it specifically only applied to direct injection engines, which are engineered for better efficiency/lower emissions to begin with. Those engines come with their own problems, but regardless, suffer from the same reduced fuel mileage using ethanol products compared to pure gasoline, thus still burning more fuel per mile driven. Fuel that's still 90% gasoline. I'm not remotely sold that a 10% change in fuel type reduces emissions by 13%, much less 72-97% of anything. If it's true, the study can be replicated by others. And should have been. But if that's the only study showing reduced emissions since 2016, and others that show a net increase, I'm not buying it.
Clay you're spot on and it should have been touched on in this presentation. 5-8% increase in consumption with E10 vs non-ethanol gasoline in my personal vehicle. Nascar switched over to 15% ethanol and saw a 10% increase in consumption or reduction in efficiency. However you want to look at it. How is that "green"? I'm just a simple man with some common sense. But then again I don't have a vested interest in corn, ethanol production or its subsides..........
except the efficiency of a otto cycle is dependent on the compression ratio. Without the octane enhancer your engine would be forced to run at a compression ratio of 7.4/1 vs running an engine at 11/1 . And that is what happened in the early 70%, Ethanol was forced in as a oxygenating agent to reduce hydrocarbon emissions. It was never there to reduce greenhouse gas emissions. MBTE was its competitor but was taken out (cancer causing) And a engine with E10 at 11/1 will far outdo an engine at 7.4/1 running on E0. This is the octane effect of adding ethanol.
There's not only that consideration, but the issue with so much land being turned to corn production for ethanol. This has caused a decrease in other food crops, particularly rice, as farmers around the globe are not in farming for their health but to at least break even financially. This has had devastating effects upon world food supplies. I know that the green crowd thinks that it's a win to kill off large swathes of the Earth's population because it will be "good for the planet", but it's a bit less of a positive if you are one of those who starves.
All the clips of raw corn being thrown around at gallon bottles of ethanol were a nice funny touch 🤓 Very interesting video, shedding light on this issue. U had no idea that just tilling the land releases the C.
The fermentation and burning of ethanol releases no new CO2 so they needed to find a release of CO2 somehow, so they fictitiously claim virgin soils and forests were broken up for ethanol. This is simply impossible since US cropland acres have been falling since ethanol came to be. Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than in 2018, the year of most ethanol production ever. 100% of the fertilizer applied to corn still goes to livestock in the distillers grains. Ethanol is only made of things from the air: solar energy, CO2, and water. What logic is it to assign all the CO2 from fertilizer to ethanol and none to the distillers grains?
I live on the border of NE/IA in the heart of corn country. What is noticeable (but rarely discussed) is the loss of habitat from the increase of corn production. There has been an extreme drop in the pheasant (and grouse/quail) population in the last 30 years that coincides with the growth of corn. The boundaries of cornfields have been pushed out to the limits, and land that may have sat idle is now plowed and planted. Shrubs, tall grasses and growth around fence lines used to surround cornfields and provide cover for pheasants. But that’s gone, and corn cover only lasts until harvest. When modern ag equipment harvests, the resulting field is barren until the following spring.
Because that is the primary purpose of the corn ethanol program. It's welfare/gov cheese for big agro. EVERYTHING in America is a RACKET. It is now not that unusual to hear about police robbing people on the side of the road and now, they are even robbing armored cars (YES, this happened). EVERYTHING is a RACKET in the United States. Even our wars are RACKETS. There is NOTHING we do that is not a racket.
@@EngineeringExplained It gets a little more interesting. This is a larger problem across the entire corn-growing region of the US, which is far larger than just Iowa. The loss of habitat for species in the Phasianidae family (pheasants, etc.) and the Odontophoridae family (quails) has so reduced bird populations that more and more Americans of all political affiliations are starting and joining conservation groups, if for no other reason than to hopefully be able to hunt them again at some point in the future. For example, the bobwhite quail has been all but extirpated from several US states. They're just canaries in the coal mine, though. There are even bigger underlying problems...
Remember reading this on the auto forums 30 years ago. Turns out those saying this was bad were right. However, replacing mbte I think it was with 5-10% ethanol is a plus. Mbte was very bad for the environment
Same here! This was all over the forums 20+ years ago! The same thing is going to happen with all of the "green" energy policies. They are all nothing more than opportunity for corporations to steal tax payer money.
@@ajm5007 That's MTBE. But your right we could adjust the engines to run on vaporized fuel instead of atomized fuel. They'd run cooler, cleaner, and way more efficiently.
@@fivish I have a problem with old cars honestly, most people I see driving old cars here in beautiful airy SC pump out an absolutely disgraceful amount of pollution from their dirty mufflers. I hate it and I wish there was a way to make them disappear. Disgusting
I remember reading how switchgrass was so much better 30 years ago in Successful Farming. Not only does it have a good conversion, it also is very low maintenance so not much fuel is used to produce the switchgrass, you just cut it every year or 2x a year. Successful Farming talked about how it would be so much cheaper to grow switchgrass because you don't need the till, cultivation, reseed and so on. They actually had a chart of a lot of many different ethanol fuel sources and seed corn was the worst of them all.
You guys are on crack if you think they will be piles of switchgrass 100s of feet high in bales at the local processers. 95% of the land was already in production, so that great carbon kill is taken out of the equation. No word on cheap feed for livestock was talked about. Sure, go to 60% switchgrass across millions of acres, whats the corn price going to do? where's that put the livestock industry. All in the tank where these egg heads want it.
This "quantifies" what many have been arguing for years- the costs to till, plant, fertilize, harvest, transport and refine ethanol must be considered. The resultant emissions from farming, the emissions from refining, plus the reduction in fuel economy know to exist with ethanol-based fuels (you burn more of it than gasoline) further calls into question ethanol's economic as well as environmental viability. And, I'd question the viability of switchgrass (etc) as the "flower" of the plant (i.e., the corn "cob" vs. the flowering head of other vegetation) would seem to require more real estate to produce. So why corn? I maintain that, when in doubt, follow the money as there's huge federal dollars going to subsidize the farmers to produce the required volume of corn!!!
Using ethanol to bring down the price of gas is like buying a new refrigerator, then selling it used on ebay to pay your mortgage payment. Ethanol is government subsidized because it takes more energy to make than it produces (thanks ADM)- and it will drive up the cost of corn- which we need for our food supply! More democrat dumbfuckery. FJB LGB 🤡🤡
Excellent video. - As an engineer, I know that there are many more reasons why adding ethanol to gasoline is a bad idea. For one thing, ethanol makes gasoline MUCH more difficult to store over several months. Once the ethanol separates from the gasoline, it can’t be forced to mix properly again. That gas becomes virtually useless. - It will be almost impossible to stop the use of corn-based ethanol in the USA. Huge companies are making many billions of dollars each year from this business. These companies have hundreds of big lobbyists with huge budgets. This will be VERY hard to change.
If there is going tl be a switch it has to be economicaly fesable ofcourse, a lot of the fermenting equipment can be reused for switchgrass but the farming equipment is not.
Exactly- I live in a corn-ag state (Illinois) and the amount of profit that is generated by this ill-advised boondoggle means we will never escape this. Politicians love the rewards of bribery as much as the big ag companies.
Give the public solid reasons why it benefits them to switch and even the most powerful lobbies lose. Lobbyists can only vote once - constituents outnumber them. But the decades of overregulation have created a lot of problems that flow into this policy - ignoring those is why big lobbying efforts succeed more than the money. Without a comprehensive solution the people hurt indirectly start fighting the changes. Lobbyists capitalize on this. Now might be a good time for this fight - American farmers are likely to benefit from Russia's stupidity shortterm. If those market gains can be stabilized agribusiness will be less dependent on ethanol.
After experiencing lawn mower issues last year, I started using Ethanol-free gas in all of my small engine equipment. So far, it seems to store much better than gas with Ethanol.
I hope more people look at this. You should NOT run gasoline with ethanol in your small engines (look for premium without ethanol). In the long run, its not good for the engine.
Nothing wrong with using ethanol gas in small engines, just finely store it in them. For something that a gallon of gas lasts a year then premium ethanol free gasoline is the only way to go. For something like a generator the cost of that would be less then desirable. My solution is I run both, I’ll run regular gasoline for the week and bring a can of premium as well. The premium is the last tank that gets ran before putting it away. Of course this only works for something that goes through a sufficient amount to make it worth the effort.
It wasn't a mistake, it was a con. They were shouting from the rooftops, but people like my mom didn't listen. She bought a flex fuel car and there was only one place in town that had ethanol. She usually just put regular fuel instead.
I’m waiting for the study on diesel emissions and what impact it’s had in the industry. From decreased reliability, increase in demand for large parts like engines and rare earth minerals in catalyst, it should be quite the study. We can burn diesel clean and efficiently without the particulate filters and catalyst. But then we would have reliable engines that get 25 mpg and don’t burn down houses. Instead, many new engines struggle to reliably get more than 5000 hours on them before failure and an increasing amount failing near the 1000 hour mark due to increased exhaust temperatures.
Yeah, why do so many people forget that the majority of European Cars and Trucks used to be DIESEL until oil companies imposed "green" laws through governments in order to drive up profits. :/
@@christianlibertarian5488 Not any that I ever spoke to. They hated going to Petrol from Diesel. Diesel is Safer, Cheaper, and more Useful for as more than just Fuel.
@@christianlibertarian5488 lol what? If they start banning euro 5 diesel and let go euro 3 gasoline emissions it’s by law that they want to kill diesel.
I remember almost 20 years ago my wife's uncle was a petroleum engineer for ExxonMobil and was laughing at what a crock ethanol was and that everyone knew it, but it was being forced onto them.
The fact they grow corn for the express purpose of turning it into ethanol when there is so much food waste that could be used instead tells you all you need to know about the corruption involved in this
@@michaeld4861 And this has to do with what? The OP is talking about their wife's uncle - I THINK they might be credible as a family member. Exxon, sure think what you want, youre probably not wrong.
Corn syrup is the worst. Cane sugar is so much healthier. But the “flyover states” in the Midwest “lobbied” aka bought our senators to hand the corn industry billions every year.
Fun fact: corn fuel produce food like meat and milk... When using grain, corn, rapeseed oil and sugar canes and sugar beets for fuel the wastes from this production is used as feed to cows, pigs and animals like that. Then we have here in Sweden a thing with green fuels: some of this fuel comes from slaughtered animals. I can talk very much about how good Sweden are in green energy. I work in farming here and if all farmers in the world would change to how we do things here the global emissions would go down with 30%!
I grew up in Iowa. Entire state's economies are built on corn production. Prices are always very low per bushel, so farmers need to create many bushels to turn any kind of profit. The problem is, we don't need nearly as much corn as is produced. So we are stuck trying to find ways to use it. Problem is, most of these usages just aren't very good or healthy: corn-fed beef, high fructose corn syrup, ethanol, etc. Since the 80s, the government has actually paid farmers money NOT to produce more crop. The alternative is to drive entire economies into bankruptcy. I think what really needs to happen is that alternative crops be found for these farmers. But that would be heresy if I went back to Iowa and said that.
@@steven4315 No, they aren't. It's another desperate solution to sell all this corn. It's a big plant and we only use its ear to produce those plastics. Any other solution that uses the whole plant is better.
My grandfather was paid not to grow corn in the 1950s, in Indiana. Then he planted clover, got a bee guy, made money on that, then, when it went to seed, he had me combine it up and made money on that too! Lol Long b4 Ethenol!
I remember them pushing e85 really heavily in the mid to late 00's. Started seeing gas stations put in new e85 pumps and car makers pushing new flex fuel vehicles. The price for e85 was much lower than regular gas ( especially in 08) but you needed to either have a flex fuel vehicle to use it or have your car outfitted for it. It died out pretty quickly once people noticed that it gave worse mph and waa not great for the environment (this has been known for a while). It was nothing more than to giving money to agro and government while riding the massive green movement in the late 00's.
I remember earlier when they were all over M85 in California in the 90's. Pumps were popping up in Ventura and L.A.. Price per gallon was good, about 75¢, but my goal was HP. I was looking into modding my car back then. It's pretty corrosive and hard to select materials that are resistance to both gasoline and methanol. Needed bigger injectors to keep up with the flow and higher compression to take advantage of the octane. Ideally, a bigger fuel tank to maintain the range. One thing that was nice was the vapor pressure was high enough that the tank didn't need to be foam-filled like with neat methanol. Still too much effort.
Even the muscle car magazines got on the bandwagon - it was like someone flipped a switch and it was being promoted everywhere overnight. Vanished about as quickly!
e85 is going strong where I live in the west. Almost $1 less per gallon than unleaded. Without modifications to increase compression ratio, it doesn't give much of an advantage to run ( e85). Late model vehicles now include turbocharging, which allows a big boost to performance. With e85s high octane rating, this is the perfect setup. My 2016 Ford Focus gets nearly identical mileage (36 mpg) whether e85 or unleaded fuel. It runs a 12 to 1 compression ratio. A big Thank You to Ford for finally seeing the light. Check gasbuddy for e85 locations around the country . They are in the thousands.
E85 was pretty close to payola - the government deciding to give money away and creating a phony premise for doing it. E85 was never possible without subsidies, and wasted billions of your tax dollars, did not hing to help the environment, and made a lot of freinds of politicians wealthy. It was shameful.
This doesn’t take into account the increase in fuel consumption when ethanol is added. Volume for volume, ethanol generates about 30% less energy than hydrocarbons fuels, so you have to use more fuel to travel the same distance. The difference may only be a couple of percent, but as you have shown, small percentages matter.
This wouldn't be the case if we designed cars to run on the E85 ethanol and it's 105 octane...you could bump the compression ratio up and pick up big efficiencies there. Basically we are using the wrong car engines for it.
@@robertelmo7736 I agree with you the current daily driven cars are not set up to be efficient on biofuels. As a gearhead, I modify my car to increase its performance and in this process, I have learned some of the naturally aspirated cars have increased compression to 13:1 on pump E85. Granted, the pump has to test for 80% ethanol or more for these cars to safely run but I would be curious to see an optimized engine for high ethanol content such as E85 and how its increased efficiency compared to traditional gas engines.
A while back I was driving across the country. One of the states I passed through had a higher ethanol percentage in the fuels. I spent less money per gallon crossing that state, but spent more money per mile doing so because my MPG dropped so much running that fuel.
yep you are right. I run E10 (94RON) in a 6 cylinder Australian ford falcon which also runs on LPG. I get about 8% less kilometers less than I get running our standard unleaded (91RON). The car runs a little better on E10 though. What i do is i start the car from cold on petrol and when the motor warms up I switch to LPG. which gives about 20% worse economy but costs 55% of the cost of E10. nothing is easy these days but with what is going on in the Ukraine I am glad I have dual fuel. E10 cost me $1.61/litre 91 cost me 1.90/litre and LPG cost me 0.869/litre. I just looked online and already most outlets are selling E10 at $1.95/litre
If most farmers were to use a no-till system for growing corn like they do in North Dakota, not only would they accumulate carbon in the soil at a much higher rate than ever thought possible but they would also save an enormous amount of fuel necessary for the farm equipment. Gabe Brown is an excellent example for this kind of farming practice.
I thought it was interesting how he conveniently left out the fact that a high percentage of farmers use no-till AND cover crops. That fact doesn't fit his narrative.
@@joecoolioness6399 The USDA Farm Census data disagrees with that. The 2017 census puts no-till at 37%, conservation (partial) till at 35%, and 28% of land in conventional tillage. This is from the 282 million acres covered by the census, however, this covers all field crops(not tree crops) which can be drastically different in soil prep. Cereals and cover crops are much easier to go no till, whereas vegetables require more soil preparation. This can be seen in the census data, states with high percentage of cereals/cover (IA,Il,KS) have more no till versus states with more percentage of vegetables (CA, MN).
There are a couple things here I would like to point out: The land transition study said that the increase in land use was 26% more than the EXPECTED INCREASE in land use, NOT 26% more TOTAL land use. In other words, if the otherwise expected land use increase was 10,000 acres/ year, the actual increase was 12,600 acres/year. Acres planted to corn fluctuates by as much as 10 million acres/year depending on weather, input costs and the price of corn, and this generally happens in a several-years-long cycle. During this study, corn acreage went from 86M acres in 2008 to 94M in 2016. However, the peak was 2012 with 97.25M acres, where it began to fall off until hitting a low of 89M in 2018. (Source: USDA Crop Acreage Reports) Also, the vast majority of the "new" acres of corn are from farmers choosing to plant more corn and less soybeans or wheat in fields based on prices for that year, from converting unused grass pasture to row crop fields, or from planting fringe ground that had been idled during years where the price of grain was not high enough to justify planting that land. There is very, very little truly new land being converted into farmland. In fact, farmland acreage has been slowly and steadily declining for decades, as urban and suburban areas continue to grow and take up land that was previously farmed. In fact, there were 48 MILLION fewer acres of farmland in 2018 than in 2000 (USDA).
Thank you for stating this. As a Kansan who's closest neighbor is 600ac of corn, I am really confused by the land use change figures. Added corn acres =/= tilling virgin soil. It may be anecdotal, but I can't remember the last time I saw grasslands taken down and turned over into row crops.
@@danielgerhardson7017 But CRP or (conservation reserve program) land had been in production prior to being put into reserve. Those acres also fluctuate annually.
One thing that is often forgotten about in the ethanol debate is the byproduct of ethanol production. When corn is converted into ethanol the carbohydrates in the corn are turned into ethanol leaving behind the protein, fats, and micronutrients creating a product called DDG's or dried distillers grains. DDG's are a very valuable feed for cattle and other livestock as it is rich in protein which is typically the most in demand, and expensive macronutrient. The beneficial by products created during the distillation of grains is often completely disregarded in the cost/benefit analysis of ethanol.
This is never forgotten about, and is taken into account in all studies of ethanol, including the one Jason mentioned. Without taking that into account (and it is usually overestimated), ethanol is _severely_ carbon positive.
@Kswa S Are willing to pay the outrageous prices for beef to have grass-fed cattle? A rough estimate would be around $40.00 a pound for the cheapest cuts of beef. There isn't enough pasture space for the cattle. 3 head of cattle per acre.
Ethanol is economical in Brazil. Sugar cane grows so fast they have to cut it out of the median on the highways an throw it out for safety reasons so drivers can see over it.
"Many scientists...." Is a statement that makes me think the study is faulty. An unsubstantiated comment like that should never be included in a study without being substantiated.
The way you always integrate the mathematics into the science of your videos makes you one of the few credible sources on the internet. 'Science' has been a term thrown around excessively over the past couple of years and it often gets intermingled with political and emotional ideas. You don't do that and we all appreciate the facts you provide. Thank you.
@@heathwirt8919 Talking about the country where a certain vaccine has been mandated in many places, while the manufacturer of said vaccine has legal immunity from the side effects of it.
Great Video. Could you do one using the Brazil's case? Here we use a mixture of 27,5% Ethanol / 82,5 pure gasoline, but the catch is in Brazil the Ethanol comes from sugar cane, something Brazil's has been farming since 1700s and sugar cane is far more richer to create ethanol (or sugar), also the by-product is burned to run the Ethanol/Sugar mills and to produce electricity in thermoplants.
Very interesting! but the corn lobby here is SO strong - it was a huge cash-grab for wannabe farmers and investors, so they just ran with it. As others have stated, all the evidence pointed to corn-based ethanol being a joke from the start.
@@ajl9491 you are right, wrote on a hurry and made the most basic math error. The ethanol rate is 27.5% so the gasoline must be 72.5%. Thanks for your observation.
@@hotcoffee5542 🤣America is already buying ethanol from Brazil. I'm a little fuzzy on the numbers, but I think that we're buying 20% of our ethanol from Brazil due to the requirements set forth in the Clean Air Act, where we can't get all of our ethanol from one source (corn). There's a small problem, however: While American is theoretically getting ethanol from Brazil, it's not that we're buying it outright...we're simply trading our corn-based ethanol for the sugar-based variety: The ships that haul this similar product back and forth pass each other in the night.
There are some errors in the UW-Madison study, based on a few smaller Ethanol plants which do use the same processes as the larger ethanol plants. Corn has a higher starch content than other grains. Second in the US cornbelt where most of the corn is grown, they have converted land to agricultural use in about 100 years, the actual number of acres has been reducing because of urban growth. The difference is made up by increasing yields on the land used, Tillage is not quite the carbon sin you make it out to be (and don't listen to lawyers talking about farming in the 1st place). Grasslands are not as effective at collecting atmo. CO2 as corn fields. Corn plants grow a lot faster and the corn kernels make up a small portion of the corn plants weight. All that corn plant is made from CO2 taken from the air and water. Tillage of the corn ground after harvesting the grain sequesters a significant amount of CO2 in the form of Soil Organic matter which further increases soil productivity.
You're about the 100th person commenting on this video about how wrong this study was (it was clearly agenda driven IMO), and yet our esteemed presenter ran and hid when people began calling him out for presenting this nonsense as fact. I'm no fan of subsidies (nor of high fructose corn syrup), but fuel ethanol is pretty damn useful, even when it's made from corn.
I can drive you around in a 50mi radius and show you lots of new fields were there were once fencerows, county roads, mature woods, homes, barns, pig-sheep-cattle-goat-horse farms, pastures, prairie grasses, etc. It is COMMON to see a 50a woods one day, and piles of trees burning for a week. I watched a 10a woods completely returned to farmground in 3 days...with a smoldering dirt covered hole for a week. They rarely log before dozing & burning. It is common to see very recently occupied houses & barns bulldozed for 2a of farm ground. I cannot tell you of a single fence row that I know of in a one hour radius of me...unless it is actively holding beef cattle or horses. Wildlife of any kind has no way to dodge predators or habitat to flourish/survive. There is no urban sprawl because landowners will not give up an acre....unless it is to lease a windmill....and I will get off the soapbox before I get going on that.
@@bradleywatt9769 That's an anecdote. Meaning it happened, but it isn't representative of the whole. The amount of land in the US being used for agriculture has dropped precipitously since the ethanol mandates. That's total amount of land.
As a farmer and conservationist in Nebraska, I can tell you there's a glaring piece missing from these calculations. Prior to ethanol, corn was previously being raised to feed livestock. The largest volume by-product of ethanol production is animal feed via corn mash, so corn that was destined to be fed now has the sugars extracted, and is still used to feed animals. In my area, no new land was converted to corn production, and we have no-tillagel farming practices with crop rotation and cover crops, to keep plants growing and consuming CO2 and enriching the soil year round. No-tillage farming practices turn the Wisconsin study on it's head. Also, in this part of the country, the idea of virgin forest or grasslands being tilled or burned to produce ethanol is some kind of myth. There's no such thing in Nebraska and Iowa. If ground COULD be farmed it already was. There's some CRP fields that may have come out of contract and were put into production, but, usually an equal number of marginal production fields are put back in CRP. If you want to talk about environmental impact, it's meat production, not ethanol. But, bacon tastes good... pork chops taste good!
So there you are. Eat less meat. It tastes great, but you do not have to have it every day. Further, if you do eat meat, it is better for your health as well as general land use practices to insist on meat from animals that grazed or foraged. (Cows should eat grass, pigs, whatever they find. Goat and sheep can eat almost anything. Chickens eat well, chicken scratch... bugs, seeds, what they find.) Of course that's not practical in the high population factory farms, so support small livestock farmers to make the giant operations obsolete. And support the no till /low till growers. *Although switchgrass development still seems worthwhile. Fuel from weeds. Would kudzu work?*
Over processed food has been proven to be bad for human health ,and so with other animals.The cattle might not live long enough to have issues and obesity could be a plus for some farmers. Steak house buyers and their suppliers are smart so it would be good to get there take on the best feed for the best meat . Corn mash , corn, sileage , grass feed will work itself out in the market place if gov mandates are abolished Grass fed beef was once sneered at, but now comands a premium
MY first thought when seeing the Wisconsin study was "where is this mythical 26% of land that is untilled". The reason we use corn and not other plants is because every farmer already owns a corn planter and combine.
One of the top ethanol fuel-using nations is Brazil, which derives their supply primarily from sugar cane. Based on studies I read years ago the environment footprint of sugar cane is much smaller than corn. That’s what America is best at, though, telling farmers to grow a certain crop in massive volumes then rushing to figure out what to do with it. (See also: corn syrup.)
yeah I smell the corn syrup screw up at pay here to...don't want to sound conspiratorial, but it smells like something was rotten in the decision making process. Vested interests....lobbying....
@@tommydowning4463 At this point "conspiracy theory " is just another way to say spoiler alert. I mean havent we seen the conspiracy theorists right about most, if not all, they have predicted?
You can thank the Corn Lobbyist for that. It was found that sugar beat will produce about 4 or 5 times the amount of ethanol per acre than corn. But the Corn Farmer Lobbyist fought hard to keep sugar beets out of that program even though Brazil proved that back in the late 1970's. From what I remember from a report, Brazil owed the USA a large amount of money they got in loans. They were having problems keeping up with the interest at that time. But they had a huge bumper crop of sugar beets one year that they were depending on to get caught up. Problem was, there was a bumper crop of sugar beets and cane world wide that year and the bottom fell out of the sugar market. Brazil was in trouble and couldn't sell it's crop and was not going to be able to buy fuel for the country. So they sought help from some scientists and they decided they could produce fuel from that crop. They came to the US petroleum industry and they help them with a product that would up the octane to about 100 octane that was not petroleum based. So Brazil turned that bumper crop of beets into fuel. Within a year, Brazil not only paid off their back interest but paid off the entire lone. Brazil became the first mass producer of ethanol and is still the second largest producer of ethanol fuel in the world second only to the US.
It was created to help boost the price of corn and reduce the cost of subsidies to the farmers going broke right and left. They were paying farmers to not grow, and they were paid to idle acres. Farmers did not clear land back then. Places like Brazil were clearing forest, maybe based on what effect the raising corn prices caused globally
Here is how the 2007 Energy Independence and Security Act affected food/feed prices(if at all): 2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE 2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE 2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE 2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT 2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT 2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + MOST ETHANOL EVER PRODUCED Wheat 2007...............$6.48/bu 2008...............$6.78/bu 2009...………$4.87/bu 2016...………$3.89/bu 2017...............$4.72/bu 2018...............$5.15/bu Soybeans 2007..............$10.10/bu 2008..............$ 9.97/bu 2009...……...$9.59/bu 2016..............$9.47/bu 2017..............$9.33/bu 2018..............$8.48/bu
Something us Brits have just learned about ethanol in gas is that E10 over E5 reduces MPG by about 5%.... More and more comes up against adding Ethanol to gasoline.
And while a 5% reduction in fuel economy doesn't sound that bad on an individual level, try multiplying it by tens of millions of vehicles having their fuel economy reduced every day.
British Thermal Units in the combustion process of making energy is the factor. Hard to believe that the same factor happens our side of the pond and with the same name! 😎
Yup. Basically ethanol provides zero net energy to gas .. Ethanol absorbs h2o, and there is enough in any gas station tank to make every drop of ethanol worthless... Methanol, although nasty, actually produces usable energy in an ICE
Well done. One factor that I'd like to hear more about is the fact that in order to grow corn, we need massive amounts of nitrogen based fertilizers. Corn naturally takes an enormous amount of nitrogen out of the soil. Without ammonia fertilizers we may get one or two seasons of economically viable crops and then the soil is depleted for quite a long time. So where does ammonia fertilizer come from? Ammonia is NH3. The nitrogen comes from the air. It has to be separated from the air with massive amounts of cryogenic cooling. That takes electricity. Wich in the U.S. means most likely from coal. Next, the hydrogen comes from natural gas, i.e. methane. The byproduct of turning methane into hydrogen is..CO2. So long before the corn is planted with diesel burning farm equipment, we have already dumped thousands of tons of CO2 into the atmosphere just to make the fertilizer. I'd be curious to find out if that CO2 was taken into account when calculating the carbon emissions of ethanol.
Corn is a substandard producer of biomass in many regards. For some reason we have a hard on for corn, the government subsidizes the hell out of it, and it doesn't make much sense to me. Commenting on your analysis instead of using corn if we used hemp I don't think you need fertilizer for hemp. And it produces more biomass than corn does by magnitudes.
Ethanol fuel was never about carbon emissions. It persists because for some reason in America, the Iowa Caucuses largely determine who gets to run for President, and Iowa has a lot of corn farmers that would be upset if demand for their crop drops off.
You're on the right path, but that's an oversimplification. Yes it's because of politics, but not due to anyone caring about voters. Agricultural lobbying is why it exists in the first place, because the corn subsidy from the Dept of Agriculture paid farmers to grow it before it was ever even sold. So they lobbied the EPA to require it in fuel to ensure corn prices stayed high.
That’s not actually what happens with ethanol distillation. Engineering Explained failed to mention the fact that corn ethanol has a useful byproduct that these other alternatives do not, namely distiller grains. These are used as highly nutritious feed additives for livestock.
They use E10 in Europe too. I live in Ireland and we use E10. (E10 is RON 95 with 10% ethenol) we have no way of growing corn on a large scale in Ireland as we do not get the weather for it and yet we are still using E10. So I doubt it is because of the corn farmers.
Welcome to the club dear millennial engineer. The inefficiency of corn ethanol was widely discussed around the time of the bill. The problem is that corn farmers are a strong lobby and have made a lot of money from this. Let it serve as a warning for looking for government regulation to solve our problems.
Like all the other alternative energy schemes, there is big profit to be made for a few with little benefit to the rest, and usually the profit is in the form of public subsidy, without which they might break even or lose.
@@AnonyMous-jf4lc There is a big ethanol operation that sprang up near my home in the mid aughts, no doubt due to public policy suddenly making it profitable.
Brazil has an Ethanol program since the early 80's. It got to a point where most cars were running with cheap 100% Ethanol from sugarcane. I remember being in Sao Paulo and traffic smelled like a Rum factory... The initial program ran into problems with injectors, carburetors and other gaskets going bad. With time all these were substituted with ethanol proof materials and the cars started to run fine. The only gas they use is a small, like a windshield wiper container, with regular gasoline that is used to start the car in cold weather. Brazil was basically independent of Petroleum gasoline for a few years - until politics screwed things up...(I dont believe the Petroleum companies like that idea). At a point there were Tri-fuel cars running all over: gasoline, pure ethanol and natural gas...you picked any of these and the car would run fine by changing the ECU specs at a press of a button. These were Ford and GM cars. Why here is the US nobody ever heard or done anything similar??
I'm brazilian. Today, cars made in Brazil can run on either ethanol or gasoline, in any proportion. Our gasoline contains 27% ethanol in its formula. It is no longer necessary the tank with gasoline for cold start. The injectors heat the ethanol when needed. This technology is employed by GM, Ford, Honda, Hyundai, etc. The idea of a vehicle being able to use any type of fuel is not to be dependent on prices. This technology we call "flex fuel" has been in use since 2004. Before, you could opt for gasoline or ethanol vehicles. Ethanol manufactured in Brazil comes from sugarcane. Depending on fluctuation and market demand, mills can manufacture sugar and/or ethanol. The mills use their own sugarcane bagasse to generate thermal and electrical energy, and they even sell part of this excess energy to electricity concessionaires.
An acquaintance of mine from Europe was here in Brazil for the first time and asked about this smell we could feel the street. It took me a while to figure out she was talking about the cars exhaust, because it was so common for me that it was just a background nois... huh, I mean, background odor.
The problem is that Congress has enacted laws preventing the use of anything but corn for ethanol production, and also preventing any increase in actual sugar crops like sugar beets, by limiting the total U.S. crop to 3x the sugar cane crop, which is limited in the U.S. by climate limitations. They aren't looking for a solution. The solutions already exist. There is still money and power to be milked from the current system, so there are laws to keep that system in place.
Brazil was using sugarcane derived ethanol. The amount of energy gained is higher than from corn because the energy investment is far lower for the conversion. The most interesting ideas in the US that I have seen relate to bioengineering algae as a source. Pluses - better potential yield, less land use. Negative - water requirements. Of course with the Great Lakes, the Midwest does have a vast supply of fresh water.
Switchback grass is an amaizing option. It can be used for ethanol production, pelletized for animal feed and as a fuel source in pellet stoves. It has more BTU per cord than oak.
In order to use switchgrass as an ethanol source you would need a ton of land to store bales on. (South Dakota state) has been researching it, we have been doing the baling on it. You would need 160 acres at least in order to store the bales for “slow” times- snow storm and no inventory coming in and so on. Than the other part is ethanol plants are profitable from the byproducts.
Burning the pellets adds carbon 😂😂😂😂😂 that's efficient. In reality look at the mass of grain vs bio forges the added trucking vs land to store it is hugely diff plus to get the grass to market you will mow, rake, ted, bale, collect and haul bales 3+ times a year. Apposed to planting harvesting and hauling grain one time. Look at the entire system of things
Burning the pellets adds carbon 😂😂😂😂😂 that's efficient. In reality look at the mass of grain vs bio forges the added trucking vs land to store it is hugely diff plus to get the grass to market you will mow, rake, ted, bale, collect and haul bales 3+ times a year. Apposed to planting harvesting and hauling grain one time. Look at the entire system of things
Impressive to see a "suggested video" that is actually intelligent and well thought out. Not done watching yet, but a side note this, it does keep farms active to function as reserve food production if there is a food crisis, but you probably cover that
The complexity of using biofuels has been in study for a while, and the indirect impact really seem to be deal killers in some instances (or some are way better). Land use as such a big impact. in all agriculture, land use is the biggest impact of it. that is why agricultural Sciences want to increase yield. Producing more on less land has big positive impact on emission reduction. In any case, this is a excellent video, and I have to say, I like how, at the end, you went for a testing in the negative of that study ( what if they are wrong). which is the proper way of analysing Science. Real good scientific skepticism here. This is not a just car channel, but a proper science channel :-) great work, again. Also, I had a friend being impressed with your lighting setup skills. it seem that having a white board with no reflection seem to impressed him haha :-)
With corn based Ethanol; they've always known it was a giant ripoff. It was pushed due the USA's addiction to large scale corruption/bribery. Sorry 'Lobbying' Like the rest of the Feds; anything out of the EPA's mouth is stuffed pockets lying trash. Cane sugar based Ethanol makes a lot more sense as the production per acre is far higher. But even then it's arguable unless you have billions of hectares of rainforest to mow down to grow it.
lets not ignore the harm of mono-cropping, leaving land dead and barren as we see in the mid-west/rust belt states. These agricultural Scientists want to increase yield production with the use of oil based fertilisers, its one big giant farce.
Perhaps the biofuel sector ends up with some modified photosynthetic prokaryotes or so, in any case the more advanced and environmentally demanding the energetic politics is, the less it should be stuck and committed to one particular direction which may soon render not that great, better fail fast and progress.
@@Savantjazzcollective nobody mono-crops in the USA, if only you knew something about farming other than what you see on youtube 😂😂 All you city folk would be starving to death without oil based fertilizers.
Very much appreciate the breakdown. Seems to me this whole "corn ethanol" thing began with the idea that we'd take surplus corn and break it down for fuel. Of course the natural human reaction to this was to make it into a huge separate industry to make a truckload of money. I think that's the part we keep missing when speculating the results of stuff like this.
The original-original intent was to reduce our reliance on Middle East oil. We were barely coming off the OPEC oil embargo when ethanol began to get pushed as the self-sustaining fuel solution.
No, it was designed to precisely do exactly what it is doing. This is the intended outcome. Regulation is a system. Those who write regulations do not make mistakes like this. They make choices.
Navíc v Americe máte genově upravenou kukuřici. Kapitalisté už nevědí, kde nahrabat stále více. (Plus you have genetically engineered corn in America. Capitalists no longer know where to dig more and more)
Two or three decades ago I read a National Geographic article asserting that ethanol from corn had negative benefits in terms of oil usage reduction, that is, it produced less energy in the form of ethanol than the oil energy used to produce it. Brazil’s ethanol from sugar cane produced 8 times the oil input energy due to a better suited crop and better integration of the biofuel into the production process. Ethanol from corn is largely a political bonus for farmers.
Look out the plane window when you're flying over the "flyover" states and this becomes self-evident. It's all fecking corn, mostly planted on corporate farms. It isn't "small farmers." It also explains how entrenched interests will lobby (buy off) "representatives" from these same states to simply continue the process. Iowa should change their license plates to include the motto: "What's our grift?: CORN."
The Indians made a beer out of the corn stalks buy squeezing the sugary liquid out of them and fermenting it! We should investigate how well using that would be, use the corn for food!
i understand the lobby of the agriculture industry, it is very powerful in Brazil as well, but i am curious as to why sugarcane was not used in the US alongside with corn. Maybe the climate or soil are not a good fit for sugarcane?
@@generalfail7301 Yes, Brazil lies right on The Equator. Only a small portion of Florida and Hawaii can economically grow sugar cane, and in fact they already ARE, but it's only enough for the sweetener market, not bio-fuels.
If I watched a similar video from someone else I would probably still have questions at the end. Not so with you, you go into great detail, you don't gloss over areas that need to be discussed. Your videos are the best! Thank you for your hard work! Take care!!
You gotta love how the pitch for ethanol fuel is “corn grows, we ferment it, a miracle occurs to make white lightning, and then we stick it in a car.” Anyone who’s ever even looked at home brewing has had that brief moment of consideration of going one step further and making moonshine. And it quickly becomes apparent that you have to dump a metric ton of thermal energy into the mash to boils off the alcohol and distill it. Which should prompt the question, “what is behind that heat source and is that being included in the carbon figures?” It obviously wasn’t, there’s no way in hell they could have pitched ethanol as a less carbon intensive fuel source than 87 octane when you consider how much natural gas or coal is needed to generate enough electricity to distill that fuel.
If that was the only problem, that could probably be solved using solar thermal energy - The roof mounted kind. That would definitely be cheaper but Limit productivity proportional to the amount of solar thermal collectors. After all, that is the most efficient way to use solar energy for heat because you skip the detour of electricity.
It makes sense, and I’ve never had it marketed replacement for gas. It was a substitute in order for America to not be so dependent on OPEC. Saving the environment was secondary to running out of crude oil. The true goal is the replacement, like hydrogen. If we use electric cars we need to charge the cars with hydrogen or nuclear power. Not coal, or fossil fuel. Either way you slice it, cutting off energy in less than 50 years is not truly achievable as the USA is so massive and infrastructures need replacement as well.
I'd like to see you cover the ocean shipping industry's pollution footprint. Did you know 1 container ship emits more sulfur oxides than 50 million vehicles each year?!? There's around 1.4 billion vehicles in use around the world today that means 28 container ships emit the same amount of pollution as every single vehicle around the world! What's even worse is there's currently 5461 container ships in active service globally! Seems like if global leaders actually cared about global emissions the shipping industry would be the place to start. Even if we switched every single vehicle in the world to an EV that would only offset what just 28 container ships emit out of 5461.
Yup and the battery in the EVs only lasts 8 to 12 years, is toxic, unrecyclable, and made of rare earth elements. Of which there is not nearly enough to replace every vehicle on the road today in America let alone the world.
@@snoolee7950 If you drive through Oregon, you'll actually see ships docked semi-permanently. From what I understand, is those are ships registered in China and docked in OR. This somehow skirts EPA and US regulations in some beneficial way for the logging industry and consumers. These ships are why plywood processing actually takes place. So, trees are cut down (sustainably because US/OR logging industry plants new trees in swaths) driven and/or floated to these ships, go in as logs and come out as plywood that is then shipped around the US. So, still bad obv otherwise they would just have a factory do it instead of having it on a boat and skirting some regulations, but not as bad as moving the logs across the ocean. Again this is what I've heard, someone please correct me if I've heard wrong.
@@osanieslana960 If we look at Tesla batteries in the real world, we actually see 10 yr old battery packs that don't need to be replaced, and batteries that have gone a million miles and are still going strong. And those are basically old technology at this point. Tesla also has a big battery recycling facility that happily takes lithium based batteries and chews them up and spits out new batteries. That process I'm sure is far from clean though, but still apparently clean enough to be done in the US and Tesla didn't build their recycling plant in Mexico or something where the EPA laws are ineffective (Like many are trying to make happen here in the US. Thanks Scott Pruitt and the man/group that hired your ass.) Prius batteries seem to be another story though.
I read about the benefits of using switchgrass to make ethanol several years ago. It requires far less energy to get ethanol from it. In addition (and maybe more importantly), it is drought friendly and doesn't require draining an aquifer to maintain it.
Or, and this is crazy, we just stop with fuel. Stop burning things to generate energy and just use renewable and nuclear unless something else is found that is better n
@@thisismagacountry1318 What is it about people not understanding that "green" energy has a huge cost in terms of carbon footprint and a bigger impact environmentally when they are no longer serviceable? Owner of an "old" hybrid car which is dying faster than the gasoline truck we have. Maybe Will just figures we should all bicycle, skooter and rollerskate.
@@williamcrowley5506 I got this from your Boy, Jussie Smollett. He screams my name while committing fake hate crimes AND gets CONVICTED for it. Will he drop the soap? The consensus is yes. If it bothers you SOOOO MUCH then ask him why HE said it.
Great job! I had heard others argue that corn ethanol was counterproductive in affecting climate change but never seen such a clear technical presentation as this!
@@barryallen5507 You must have had a terrible childhood filled with nightmares about fictional monsters. Ethanol is a hero, not a monster. It has never destroyed vehicles...not in the 1800s, not in the 1900s, and not now in the 2000s.
@@TheAutoChannel I was actually a victim of child abuse for quite some time, so I'd wager that my monsters were of the not so fictional kind. Interesting choice of words
@@barryallen5507 It's sad to hear that, but it sounds like I was right on the money, and that you transferred to horrors of those days to fictional horrors about ethanol. Brazil has mandated E15 and higher blends since the 1970s. They have all the same vehicles that we have in America, and they don't suffer from ethanol-related problems. I've been using E15 and higher for the past decade and a half, in all types of spark-ignited internal combustion vehicles, with no problems.
Living in the corn belt, the way I remember (take that for what it's worth) it wasn't marketed to us as Green, it was marketed as "open new markets to sell your corn".
it is one of the things they used to destroy americas econimee all you have to do is look at feed and food prices every year since since this disaster was started not to mention all the motorized devices thwere destroyed by this garbage it was just a well planned ateack................
"New markets" = rent$eeker$ being accomodated by the usual suspects
Im so confused by this video in what he doesn't say, partly in line with your comment. We have massive amount of corn syrup and corn sugars in all our food because of governemnt incentives to the corn belt, right? This pre-dates the 2005 date he mentions by like 20 years, ie we were already overproducing corn, and as you sggest, were looking for new markets for it...
correct!! votes.............
"We have too much corn at too low a price" = "How can we scam people into using the excess corn for pointless things"/
I'm glad you are shedding light on this again. Actually, these facts were known decades ago. Lobbies and special interests are a powerful thing.
Yup. It’s unfortunate how much of our society is chained to their paycheck. Makes enacting change incredibly difficult.
Was just going to say - we knew this in the 90s during the height of “reducing our reliance on foreign oil” days. It’s the Iowa place on the presidential nominating calendar… hard to win if you don’t win Iowa
Anything the govt promotes always is wrong and not their true intentions. Example fuel additive mtbe. The list is long.
Yup. Dick Cheney and the energy policy act of 2005 really screwed America.
This could also be big oil lobbying against the corn ethanol
Petrol Heads and College Professors have been talking about this since the early 2000's. What we all agreed on was that the 10% ethanol requirement was pushed through congress by the corn lobby to grow and sell more corn with the help of government subsides. Also, the 1st state to vote in the US primaries is Iowa and that state is a huge corn grower. Politicians promised to vote the 10% requirement into to law to get the Iowa vote and help their chances at the wining the presidential nomination.
You are correct... it's political BS.
Nailed it. It is called Political Money Laundering. Also known as Corruption. Nuff Said
@@terrycannon570 that stunt has snow balled into a nightmare for marinas and other small engine industries,where do you think those industries do with the bad gas? Yes, they dump it on the ground, it also has increased the demand for fuel injection systems and carburetor system cleaning labor, actually economic pluses . Just name a few problems political lobbyists cost us daily
In all probability 'environmentalism' was founded by Vladimir Lenin at the Chelyabinsk Commune in the early Sovient; and, was simply a land grab by the then newly risen and entitled communist elites. Over time 'environmentalism' has most probably been a disinformation entity, continually 're-hatched' by the Kremlin, in order to gain complete world hegemony of fuels, fertilizer; hence, world food production (including bio-fuels).
@@richh1576 lmao care to cite any sources? this sounds like complete rubbish. have you ever even read an actual scientific journal article on these topics?
In Brazil, engines are "flex", meaning that they offer the flexibility to burn 100% gasoline or 100% ethanol, and also any mix in between. Most people drive on 100% ethanol, just because it is cheaper overall. In the early days of the technology, these engines were pretty bad when burning 100% ethanol, in particular when the engine was cold. However, nowadays, with sophisticated electronic injection systems, you don't feel much difference, even when the engine is cold. The technology dates back to 1970's, in response to the oil crisis which put Brazil on its knees. Being a vast country with a lot of sun, Brazil implemented a large scale program of producing ethanol from sugar cane.
Yes. Also, now brazilian gasoline has 30% alcohol in it.
Brazil’s cane ethanol program is based on several lies.
Lie #1: there is an 8:1 EROI for cane ethanol. I did the math and it is no better than 2:1. Petrobras doesn’t want to count the burning of bagasse as an energy input because it is “free”, but it is energy that could be used for other purposes if not for corn ethanol, so it must be counted as an input. When properly computed, the EROI of Brazilian cane ethanol is about the same as USA corn ethanol. And we got the same 2:1 EROI growing cane ethanol in the USA when we have tried it. Only the difference in subsidies between the countries guides why one is a cane agriculture empire, and one is a corn agriculture empire.
Lie #2: Brazilian cane is farmed sustainably. Reality is the land is slashed, burned, overfarmed, and rapidly depleted, requiring new acreage all the time. The new land is forcibly acquired from indigenous people, who are also used as quasi-slave laborers in the fields. The land and water resource and environmental damage footprints of cane ethanol is much higher than those of the onshore or offshore crude oil to gasoline lifecycle.
Lie #3: Cane and corn ethanol reduce polluting and GHG emissions. Ethanol increases emissions of pm2.5 particulates, ozone, and volatile organics compared to straight gasoline. USA and German Academies of Science have also found their lifecycles also have increased GHG emissions.
The whole premise of bioethanol is false. Whatever the feedstock, making fuel-grade ethanol is completely dependent on huge inputs of fossil fuels and the lifecycle produces excessive emissions of GHGs. The finished fossil fuel energy used to plow, plant, fertilize, burn, harvest, transport, de-water, ferment, distill, dehydrate, and transport ethanol and blend it into the petroleum fuel supply would be much better spent and yield a manifold higher EROI adding new petroleum fuel to the fuel supply.
USA been using E10 for long time. Can still find 100% gas at a few gas stations. US has too many gas stations! Lol
@JuanGonzalez-hf6jc Not good for engines. If you can buy Ford Ranger trucks there..they use excellent gen2 - GTDI engine can use any fuel + trucks last 20yrs if cared for.
I learned to drive outside Campinas on dirt roads between sugar cane fields.... I feel like Earnest Hemingway 😂
Switchgrass ethanol has been known for years, the corn standard continues and will likely continue because it is a MASSIVE government hand out to Archer Daniels Midland, the basically sole producer of corn ethanol in the US. Given the current geopolitical situation the RFS should be suspended entirely so the farmland currently devoted to ethanol production can be used to produce food instead as the two largest grain producers in Europe are currently at war with each other.
And don't forget the huge petrochemical industry that benefits as well, through the massive amounts of diesel, fertilizers, pesticides, herbicides, etc needed to grow the monsanto-sourced corn in heavily abused and depleted soils. The vast majority of the corn being raised is #2 field corn, which is not food grade; it's used for cattle feed and ethanol. and most of it is being diverted to ADM, while the preferred cattle food is shifting to soybeans.
What these studies don’t consider is that all of the byproduct of ethanol is distillers grain. All of this is being used as animal feed. If the corn wasn’t used for ethanol it would be grown for feed anyway. Some of these studies say that the ground is being broken up for ethanol. That’s not entirely true. None of the distillers grain is being wasted. So it also is being broke up for just ethanol. It’s needed for food production. By feeding animals. By making ethanol out of it first you get both. With close to the same carbon footprint. Not to mention that the same ground also raises other crops. Corn is just a rotation crop. Soybeans are also used to feed animals. We as farmers would still brake up land for other crops. And there are millions of bushel of corn in grain bins that could be used for food if it was needed. But it’s not. Ethanol is great for farmers and for so many other things. It’s being used as race fuels. Because of its high octane. It’s a 100 octane fuel when using E85. Us gear heads use it for our race cars instead of oil based fuels. Recap. The carbon foot print to make ethanol also makes animal feed. Not one bit of the corn is t used. So ethanol makes very little carbon over what would be made for animal feed anyway. And yes it takes energy to make the fuel. But then it’s animal ready. Without making into fuel the rancher has to run it through a grinder or roller mill. Which takes fuel and creates carbon as well.
@@wademills1616 Ontop of higher octane and higher knock resistance, using Ethanol also runs cooler in the combustion chamber, an cleans it out a lot better than gasoline. An I love how it smells.
With what's going on in the Ukraine and how that affects the supply and price of crude oil, I doubt any big efforts are going to currently be made to lessen the production of any kind of ethanol, corn made or not.
@@wademills1616 Sounds like the graduates of higher class coastal institutions that don't like meat or combustion engines realized a bunch of fly over country is making money off of corn.
1990s that’s right in the 1990s Popular Science wrote a magazine article explaining how Ethanol didn’t make sense because its energy intensive. Crazy that 30 years later we still can’t figure that out.
@ChrisLammTweets, we can/have it's just the politicians and big business who are using it as an excuse for the power/$$$. Talking about "land changing", "elitist" Bill Gates came to mind as he owns the most farm land I believe of anyone in the country nearly a quarter million acres he has bought up in the U.S. Now why would a "computer geek" buy up a couple hundred thousand acres of farm land. Ironically in an article he claimed he hadn't bought it for anything related to "climate/emissions" but said his "investment team bought it" and then he said "We need to grow more robust SEEDS....This will help with biofuels...." which obviously is about "climate/emissions" but then he went on to suggest "Poorer countries are not likely to consume unnatural sources of meet but rich countries like the U.S., we should definitely be eating 100% synthetic beef...." What an absolute nut-job.
funny how the "right thing to do" is dictated by which group is donating the most money to politicians...🤔🤔🤔🤔🤑
@@oldrrocrALWAYS BEEN THAT WAY
First of all, he did point out the advantages of ethanol in increasing the octane rating, reducing engine nocking and providing oxygen (it can be done in other ways) to reduce carbon monoxide. So it's not ethanol that's bad but corn based ethanol produced in the way that most American farms grow corn.
It's been known for a long time that about 2% of the world's carbon footprint is spent on the Haber process needed to make ammonia needed to make fertilizer. And no, the Solvay process to make nitrates was even more energy intensive. But there are renewable ways of powering the Haber process, pretty fancy green ways of making ammonia and frankly it may not be a bad thing if at least a good portion of farmers reverted to growing things more organically and rotated crops.
Ethanol can be made from lots of other plant material. My own grandfather was doing so on an industrial scale, enough to light the homes of a million people, from sugar beginning in 1906. And I know researchers now who are perfecting doing this from algae again on vast scales.
@@oldrrocr Capitalism goes brrrrr
I'm sure there's not a lot of stock footage out there for corn based ethanol, but you did a great job creating your own! 😂
No kidding. It really got me! 😂
if switchgrass is cleaner why ethanol then which is so dirty in comparison?🤣
9:43 Will corncob fit in gastank? 😂
@@raven4k998bc people actually grow corn
@@jmasterc32_f76 and eat it with yummy butter melted on it mmm does your mouth not water just thinking about it?🤣
The funniest part of this whole ethanol affair is that before 1920 a huge portion of internal combustion engines ran on ethanol. Ethanol was cheaper and more ubiquitous than gas which made it the preferred fuel. It was, however, heavily taxed in certain countries, including the US before 1906, which did make it more expensive than gas. Ford's Model T ran on ethanol by default (though it could be adjusted to run on gasoline as well). Especially all performance/race engines ran on various alcohols, due to their huge octane rating. And one of the major reasons for prohibition was lobbying by oil/gasoline companies, Standard Oil in particular. It was very effective indeed.
Ubikuitous
Don't get me started on Standard Oil
Yeah what he said 👏
If any Congress votes to get rid of the ethanol mandate, the majority party in that Congress will get voted out of office in the next election. That’s what you’re up against. Which party wants to impale themselves on that spear? Anytime you introduce a subsidy, you mess up that market forever.
It was taxed so heavily because it fell under the liquor tax. Get real, moonshiners were making “corn liquor”. Right? ? Just like we’re making now. What goes around comes round! Junior Johnson coulda put the moonshine in his liquor-hauler’s tank and more easily outran the “revenues”.
I studied in Energy Engineering, and this was something that I have been explaining to people for years that a lot of this stuff can be greenwashed and isn't necessarily as good as someone might think it is. The corn growers were subsidized which made it profitable to do so, but it increased food prices by reducing food crop space, the greenhouse gas reduction also depends on how detailed the scope is, but it also might not consider pollution due to fertilizers in land, water, and especially land use change effects. I think one of the most efficient ones was sugar at the time, but it also caused some places to have rainforest deforestation due to its profitability. The last I heard someone was developing algae for biofuel as well.
The subsidies also increase CO2 emissions - if CO2 emissions were a Bad Thing, which is arguable - as those subsidies are taken from the wealth created by private business which might well have used that taxed away cash to increase the efficiency of their own production. See Bastiat, what is seen and not seen.
The whole CO2 / Ethanol thing is a racket.
First of all the Co2 hysteria is scam just like the corona hysteria! Methanol and Ethanol in fuel is good not because of Co2 but because it reduces actual harful emmisions other then Co2. On my 1991 2 Liter Mercedes 190E I had to run it on 40% Ethanol fuel to pass the emmission tests here in Norway and when running that the test result was 0 emmision (lower then they could measure?). Without the Ethanol it had no chanse of passing the emmissions tests. . . .
What's more important is usually how energy is produced (or caught) rather than transported. Cultivating is a quite inefficient and pollutive way to get energy.
Co2 is an issue, just a complicated issue. Let’s just say that you could pump an unlimited amount of Co2 into the atmosphere and it would not effect climate in anyway. That completely ignores what it does to acidifying the ocean. More Co2 = more acidic oceans, less co2 = less acidic. It’s a pretty black and white. So why is acid water an issue. Well because it’s destroys habitat that is the base for almost all ocean life.
Fun fact the reef off of the coast of Florida has had 90% die off of the reef build species. Which has let to a collapse of the fishing industry in the area.
Hemp makes biofuel cost almost noting to grow dosnt require water or fertilizers or herbsides pulls co2 out of the air and basically has more then one use, and im not talking about it as a drug.
The plant has many uses.
We should also look at suger crops as a fuel then your motor will really rummmm along. Might even smell sweeter.
I was directly involved in the effort to avoid the EtOH mandates on the oil and gas side. We specifically told all members of Congress we could make cleaner burning fuel without EtOH. We showed them we could do it. We said they could set whatever fuel standard they wanted as for how clean it needed to burn, and we could develop a fuel to meet it. But that is not what they wanted to hear. Most Congressmen refused to even speak to us about it. It was the period of time where I gave up on the US Government as a whole and realized it had nothing to do with actually helping anyone. The only language that spoke was money and whoever was willing to give more of it wins.
Unfortunately, Monsanto has more money than all the rest of us combined.
I was thinking when watching this video all the facts do not matter. The narrative has been set, the politicians have been paid (and are still being paid) and the EtOH will continue. It will take deeper pockets to change the narrative. FACTS and TRUTH DO NOT MATTER.
@@redbarond1 : yes, Monsanto even had a ride in Disneyland!
Yep, that sounds about right for US politicians. It won't be like that forever.
Money buys votes self interest buys votes. Voted into office who wants to loose their job. No use complaining when you need to realize the basic reality of political science.
I work near an auto repair shop and consider this: all the emissions equipment costs mega money to repair and cannot be recycled. No only that, but the damage and unnecessary service, tags, licenses, paperwork, gov employees, the energy from the buildings, electricity, CO2 tied to what the goverment spends enforcing the codes to get to that 20% is more than they could ever hope to offset.
The more CO2 in the air the better plants grow which in turn puts more O2 in the air for people/animals to breathe.
Its called follow the money. Thats all its about.
@@billkeithchannel We are way beyond the sweet spot. And the added heat by the increasing greenhouse effect is a detriment to plant growth.
@@Sturzfaktor2 Are we actually, though? And if we were, couldn't we just put more trees(such in in those fields used for fuel crops), or, better yet, spread out the exhaust instead of concentrating in into megacities?
We do have a year and a half or so of environmental data from people being forced to mostly stay at home to consider as well.
Can you give me a few examples of such emissions equipment? The ones I know of are only costly or unable to be repaired because car manufacturers use them for profit.
We actually started “playing” with ethanol back around the early 70s. Back then it was called “gasohol”. Grain processor ADM was the big instigator.
The corn lobby is insanely powerful. 10 years ago, I wrote a paper for an undergraduate economics class. TL,DR corn subsidies pay companies to jam high fructose corn syrup (HFCS) into our processed food. HFCS causes significantly more obesity than cane sugar. We are using our tax dollars to make people fat. My professor suggested that I should write a different paper, because no politician will ever cancel corn subsidies.
And they have to keep us fat and sick to maintain the big Med and big Pharma machine. Follow the money, it's a deep... Deep rabbit hole.
@@paulsto6516 Part of the problem is our system in the US that gives the ag states way more influence for the size of the population. Think of the Senate where Iowa, Nebraska, ND, SD, Montana, Kansas and Wyoming have 7 times the votes as CA with about 30% of the population of CA. The electoral collage also give these states undue influence. A screwed up system unique to our country!
Well, GMO's are VERY bad. Corn is not alone in causing health issues. Any company changing less than 1% of a Seed then claiming that they own the rights to ALL varieties of the original Seed? 100% EVIL
@@gregkramer5588 that's by design. Different things are important to people in different population densities, but if you didn't have the Senate disproportionately representing low population states you'd have every vote determined by residents of New York and California alone.
@@arcanondrum6543 That is basic capitalism, change a very small percentage of something that already exists and claim it is your invention, has been going on for many hundreds of years.
I work at a ethanol plant in 2014 they use a coal fired boiler to generate steam, the plant also used natural gas and electricity. Plus because of ATF regulations gasoline has to be hauled to the plant and mixed with the ethanol before it can be transported. After seeing it first hand I would guess ethanol does very little to reduce carbon emissions.
It can and does reduce emissions, it's the method we're using to make it at scale which is horribly inefficient. Question is, do we want cheap gas, or do we want cleaner gas? Can't have both, yet.
A solar reflector array and a highrise hydroponics tower... Energy, heat, and a gravity battery, built into one facility. that'd do it. Nobody is going to front the cost of construction though.
OIL refining also burns tons of natural gas and electricity, to distill gasoline. It actually takes more energy to make gasoline than the amount of energy that gasoline will produce.
Also ethanol is only bad in the US, because the US can only grow corn to make ethanol.
In brasil, where they make it out of sugar cane, the amount of ethanol obtained by mass, and by land area, is WAY much higher. Like 6 times more i think.
And corn is actually one of the worst crops for ethanol, but it's the only thing that the US can grow for it. Because of soil and climate.
@@gdxd7956 what about switchgrass?
You mean coal fired?
@@fieldlab4 Really. what are you a fifth grade teacher .talk to text does not always work
I’m just impressed how Jason keeps improving his production value. Using jugs and randomly falling corn to illustrate the effect corn has on our environment. Keep up the great job. 👏
The corn slapping really ties it all together.
Jason slowly become how to basic..
Oh yeah. I totally understood the inward depth of the corn slapping. Top notch.
There was at least one banana in there!
I agree, very corney.
It was always obvious to me corn wasn't green. After husking, it's completely yellow.
There is an unpopular variety "Oaxaca Green Dent" and I am partial to the white "Silver Queen" because I heard corn smut likes it. Smutty (huitlacoche) quesadillas are tasty.
Dont forget the Blue Corn, excellent taste.
"Explaining the science behind slapping two corn cobs against one another."
This is my favorite video of yours that I have seen. Thank you for what appears to have been a lot of hard work.
Not everyone has what it takes to throw corn cobs at the wall, but I’m willing to put in the time to learn.
This. Lol … and SWEET CORN which is not like the field corn that is used for ethanol production
Nooo! I found the corn bit distracting and disrespectful of the white board. Once was ok but was way overdone. I suppose it’s entertaining for some, likely the same crowd that would start a food fight in grade school.
@@EngineeringExplained As an Iowan, them's fightin' woids!
@@EngineeringExplained All (negative emissions, Hydrocarbons & Nox) come directly from the moisture (H2O) that is 'baked into the cake' of all fossil fuels. As the fuel passes through the combustion process, the water turns to steam, and because water is a solvent, it attracts unburned carbons (HCL) and burned carbons (Nox), creating negative emissions. A catalytic converter is 'supposed to' reheat the exhaust enough to 'burn' the water enough to release the carbons (burned and unburned) lowering emissions.
However, not until the engine temp gets hot enough to make the catalytic converter hot enough to do it's job.
Now, just imagine, if there was a way to disassociate the hydrogens from the oxygen molecules in the combustion process. If those hydrogen atoms could be released, they could then be burned with the fuel, raising the BTU of the fuel, making it more powerful (more power= more efficient), as well as adding oxygen to the combustion process (kind of a little shot of nitrous oxide, increasing the oxygen level of the ambient intake air charge). And once the water has now been 'burned' (disassociate H2 from O), there are zero emissions, and no catalytic converter necessary.
Now imagine IF no catalytic converter is necessary, One could lower the engine water temperature, back to say 160-185 for maximum fuel burn efficiency, and oil viscosity life, one could increase efficiency even more.
Ironically, I know how to do the process of burning (disassociating H2 from O), simply by imparting a specific frequency into the fuel, before it reaches combustion chamber. The process of imparting a frequency upon the fuel changes the dynamic structure of the water in the fuel, changing it from H2O to H3O2 (known as Hydronium, Structured Water, or EZ water, depending on what discipline of science you are accustomed to)
The end result is (depending on driver) up to a 20% increase in fuel efficiency, as well as a drastic reduction in both HCL and Nox. In my experiments, the emissions measure in an algorithmic fashion, depending on how humid the intake air is that the engine is running in. That indicates that the moisture that the air is holding, is the factor that changes the emissions. I haven't quite figured out how to 'treat' the intake charge with the frequency I speak of.... Yet....
Now, to go one further, I am experimenting with adding MORE water directly to the gasoline and getting even more positive results. I'm currently adding 16oz. of tap water directly to 5 gallons of 87octane gasoline, and getting another 10-15% increase in fuel efficiency, with negligible effect on exhaust emissions.
I've tried numerous times to demonstrate my discoveries with gas companies, auto manufacturers, and politicians (concerned with environment). NONE of them will communicate with me, once I reveal how I do what I do... I've figured out it's not about the environment, it's about maximizing profit. Follow the $$$.
I'm a chemical engineer. One of the projects we did in my plant design class was a corn based ethanol plant. You could tell who couldn't get their head around it being a net energy loss and losing money. A few groups tried to say their plant was profitable. Since corn has such low sugar concentration, it takes more energy to make the ethanol than you get from it's use as fuel. Need to use something like sugar cane or sugar beets like Brazil does to make it profitable. My professor made it a point that we all knew back when these regulations were rolling out that it was worse just from that aspect. Any savings in emissions at the tailpipe is lost in the production of the ethanol. Not to mention, all the corn being gobbled up for fuel made food manufacturers move to soy which caused food prices to increase. Now, biodiesel plants are moving to soy bean oil, so there are more food price increases as they compete with heavily subsidized biodiesel plants for soy.
Teh increase in food prices are justthe harbinger warning - even at few % of fuel this actually supplies. Did you ever look at it from the wide picture - biochemical/ sun / photosynthesis energy harvest pointt of view. My understanding is that to fuel a billion cars more and more with *any* plant crop it means that more and more of the 7 billion people on earth starve. Ultimately the total area of arable land needed to produce all fuel requirements - even via more efficient sugar beet - exceeds the land we need to feed humans.
If we have a spare Earth to grow these crops on then sure- otherwise this seems the dumbest idea ever.
As a Im a Physical Chemist and Mech. Engr. (thermo). Why would anyone NOT see that 10% EtOH is a net loss ... simply because of lower energy density of EtOH; and which also lowers the energy density of the combined fluids when mixed with 'normal' gasoline.
Why are the so-called environmentalists, politicians, and Lobbyists attempting to change & disinform the (inviolate) laws of thermodynamics ?????
If you really want to have your eyes opened, do a 'back of the envelope' estimate calculation of exactly how much of the 48 contiguous US states' surface area would need to be ***covered with SOLAR PANELS*** in order to equate to the approx. 100 'quadrillion' BTUs/yr. of energy presently consumed in the US.
@@richh1576 Most folks in Maryland hadf small farms or had a relative with one until the early 60's anyhow as gasoline ended up being gasahol we let each other know make sure you run it dry because condensation
Or use Dry Gas once in awhile
I believe. And have suspected for decades.
Been an Engineer in the energy producing business since 1986. Information like this has been around a long time... thank you for bringing it up.
I couldn't stop laughing at the corn cob being thrown around in the video.
I was worried it was a waste of food
I'm a little late, but Brazil (where I'm from) does use ethanol as fuel. And probably we're the only country in the world that does that in large scale. Here, at any gas station you have both options (ethanol or gas) and of course Diesel too. Our gasoline is mandatory 27% ethanol mixed or we use E100 (even BMWs now are flex fuel). We started it back in the 1970's due to oil crisis, but environment and sustentability wasn't a concern. We did it for economic purposes and we have a domestic control of an energy resource.
In Brazil we use sugar cane and it take 17 years to breakeven the carbon release. Many, many studies have been conducted here. One thing, decades of inovations made the whole chain to be 30% more cleaner since early 2,000s when 2nd gen ethanol began. We also have to consider ethanol from sugar cane has a better ratio of gallons per hectare than corn. But any inovation or gain you only can have if any country really adopts ethanol in large scale and then as expected, invest to make it way cheaper, relase less greenhouse gases, etc. That's what happened here.
Let's be real. If you wanna think about environment and sustentability we can only have by reducing private vehicles (ICE or EV) to public transportation. Tesla wont1s save us. What will save is our change in behaviour and consumption. You can't beat physics: 4,000lb car to carry 1 or 2 people is not efficient.
AMEN brother!
Yeah but the lighter the car the less safe it is in a wreck. That's why we can never have flying cars, they would absolutely fail any crash test standards.
@@trey2735 just don't crash the car
@@trey2735 any safety gained by driving a heavier vehicles comes at the cost of people outside of the vehicle which creates an incentive for others to drive heavier vehicles which creates a feedback loop that leads to heavier and heavier vehicles
@@trey2735 Lighter cars made of metal is less safe. Lighter cars made of carbon fibers and such are not suffering from the same problems as they are easier to make crash resistant. They absorb an impact in a much different way. We can take F1 cars as an example. Will it be more efficient in environmental terms, as for construction? I really don't know. But it will reduce fuel consumption.
The biggest reason they went with corn was simply that it was easy and (relatively) cheap. Stuff like switchgrass is unquestionably better, but even today there is no cost effective way to convert it to ethanol at scale.
Yeah and I’m sure Monsanto had something to do with the choice of using a crop that relies heavily on their seeds and pesticides.
@@darylSKYTZOwillis Yes - Monsanto is the ignored elephant in this video.
You can thank the Obama administration for that one.
I know here where I live, the amount of waterways, tree lines, and grass decreased big time when farmers realized they could grow corn if they could address certain limitations of the land here in Nebraska. They put center pivot irrigation systems into use which also operate from largely fossil fuels or electricity generated by fossil fuel. There is a large amount of energy used to produce the anhydrous ammonia used to fertilize that ground every year to get a crop of corn from it. I'm pretty sure that the UWM study could've gone even further in identifying carbon released by some of these other inputs required to grow a decent crop of corn.
Iowa has the worst water ways in the Nation because farmers now plant right to the edge. The govt subsidizing ethanol is woven into many aspects of life there, it won't be easy to take that away. Farmers are never going to return crop land into native grass lands, without, you guessed it, massive subsidies.
@@9023gregb If it became legal to sell non-ethanol fuels again, it might not take that long.
Same where I live in
@@9023gregb you got it! The environmental damage done to the land in the quest for more corn for more ethanol, has caused loss of erosion controls that had been in place since the 1930s. Much of that was habitat for wildlife that has decreased in population. Which is another in planned negative effect driven by the unsuccessful attempt at reducing carbon with corn based ethanol.
In 2005 when my dad became convinced that ethanol was bad for Iowa. His main reasoning is, it has caused the consolidation of the farming industry and has eliminated small family farms because corn easy harvest and this create a Walmart like affect on farming. I don’t think gov is gonna change because farmers will be mad about short term losses even though it’s bad for them in the long run. I am Iowan farmer.
Iowa and even the rest of the corn belt grew more acres of corn in 1980 before ethanol than in 2018, the year of most ethanol production ever.
2018 Iowa 13,200,000 acres of corn
1980 Iowa 14,000,000 acres of corn
Forest use land from Census data:
2012 Iowa 2,968,000 acres
1982 Iowa 1,227,000 acres
Grassland and pastures from Census data
2012 Iowa 2,879,000 acres
1982 Iowa 2,065,000 acres
Rural parks and wildlife areas from Census data:
2012 Iowa 510,000 acres
1982 Iowa 313,000 acres
All the ethanol plants in Iowa must have been a big help for the economies of small towns across Iowa. The trend of consolidation in farms began long before ethanol.
With ethanol, more of your money goes to Iowan workers and Iowan businesses who pay Iowa state taxes and put the rest in Iowan banks to buy goods and services that you and/or your fellow Iowans produce.
With petroleum, more of your money goes to Arab sheiks and transnational companies who put it into Swiss banks and pay little if any in taxes.
This discussion we took in Brazil in the 90's. Here we grow sugarcane (with second generation fermentation) thats waay more productive than corn ethanol.
The results of the discussion here is: no need to increase the crop area. Sugarcane DESTROYS the soil and the iimpact is huge. But where the damage is already done worth continue cropping.
Also, we have flexfuel cars, that run purely in hidrated ethanol, what also increase the impact. Our gas have 27% of ethanol too.
It's not perfect tho, in big cities, like Sao Paulo, the ethanol burn produces aldehydes that worsen the city smog
@Elias Håkansson Yep. Cars in ethanol are the worst in the winter too :)
There is a channel about an Brazilian that bought a Brazilian car and try to use the USA ethanol in his car. Less power, and smells like a very drunk person. Besides, they sacrifice crop fields that could produce FOOD.
E que bom!! Mais um brasileiro que fala as verdades sobre a cana, combustível etanol e os impactos ambientais que o governo INSISTE em falar que não acontece!!!
If sugarcane is destroying the soil in your property you're doing something VERY wrong. We already have the technology and management techniques to avoid that.
Source: am brazilian agronomist.
US restricts sugar cane and sugar cane ethanol imports - again due to lobbying by a strong US sugar cartel. This keeps US prices high and sticks us with worse tasting foods and poorer quality ethanol. Thanks politicians.
@Elias Håkansson we had that problem in Brazil as well, since some regions do get cold here. Initally (1st gen Flex - up to ~2010) cars had a cold start which basically injected a small amount of gasoline (separate tank, with 1-2liters), when the weather outside is below 15ºC. Around 2010, Bosch and Magneti Marelli developed a heating coil (2nd gen flex) that heats the ethanol before injecting it in the engine. Currently, some cars have direct injection (3rd gen flex) so that is no longer needed. I believe there isnt any car being produced today that is still 1st gen flex, that need the extra tank of gasoline for cold start.
@@Kiyoone here in Brazil we may have an advantaged vs. the US since sugar cane ethanol is used as fuel for cars since the 70's. Also, we are the 2nd largest producer of sugar in the world, so there was not the need to convert soil for sugarcane, when it began being used for fuel. All gasoline has ethanol here since the 90's, when we dropped lead and added ethanol in its place. All ethanol/flex cars here produce more power than when used with gasoline, for a few decades, specially those that were E100 only (no longer produced).
I would like to know more about how they calculated the land-use for ethanol. Farmers generally don't react to market changes by simply clearing and planting virgin land. They usually just change what gets planted on the acres they already have, and maybe plant low-yield acres which are unprofitable when prices are low. And in terms of corn markets in general, if corn based ethanol is elevating prices, that means other corn consumption goes down. High feed prices mean reduced meat production, or high HFCS prices mean more substitution of cane sugar. The Ag markets are not in some steady state where increased demand can only be met by clearing virgin land.
It's a really messy economics problem to model how many virgin acres are really being cleared and plowed in an ethanol vs non-ethanol US energy policy. This is true in a lot of CO2 modeling when it comes to setting policy. It's really straight forward to calculate the emissions of a defined industrial process. It's hard to model what happens out in the real world which is governed by market forces.
But perhaps that reinforces your point that it's not a good idea to undergo huge policy programs when the modeled payoff is only marginal. The focus should be on solutions which offer very clear and very large advantages such that it doesn't matter if your calculations or assumptions were off by a few percent here and there.
Remember. All models are wrong. Some models are occasionally useful
I doubt that "family farms" are clearing new land: They do not have it. But the small farmer, the "family farm," seems to be a disappearing entity. They are useful to exploit when justifying legislation, and convincing voters that a program is "for the people." However, increasingly the farming is done by large corporate farms (I liked the term in the book, "Wind Up Girl:" the "Calorie Companies."). Increasingly, the "family farms" produce to contract for the mega-corps. The mega-corps commonly till their own land (as opposed to contracted land) as well. Mega-corp exists to expand. Indeed, stagnation is death. Thus, mega-corp must acquire more contractors (a diminishing resource), acquire smaller/vulnerable/available industrial agriculture firms, or expand their own tilled acreage. Here is where I expect that you will find the land use conversion.
Ethanol is made and there is a byproduct that is fed to cows. Ethanol makes sense. Not to mention the U.S needs 10% less fuel from Arab countries.
@@billharm6006 - "Mega-corp exists to expand. Indeed, stagnation is death" - BUT our planet is finite! So I guess these "superior idiots' ( by which I mean while they may have a "higher" education, they have a poor grasp of reality! ) see planet extinction as just another "externality" they can continue ignoring???
@@deshaunjackson8188 Ethanol makes no sense on any sort of large scale. It is all about energy density. You have to burn more Ethanol to get the same or similar performance among other things.
living where i do and working on the amount of farm equipment that I do I find it insane that the fuel consumed by the equipment maintaining and harvesting this corn is never factored in either in addition to the equipment being reasonably fuel inefficient
AND the soil destruction, AND the increased use of dwindling fertilizers, AND the increased dead zones in coastal waters from excess nutrient runoff, AND the use of marginal land that was previously wildlife habitat-
Agree! And I think the new study referenced in the beginning of this does actually take this into account, along with a whole bunch of other factors that were ignored/never considered in the original equations... in order to give Ethanol a great big push and a shove into profit-land
Not to mention that the transportation cost is usually double.
Oil tanker ships are super efficient. Shipping high volume corn in trucks only to throw most of it away is super inefficient.
Then you refine them and still have to ship both to the pumps.
Also, something really important that nobody mentions is that forests probably absorb more co2 than corn fields.
Then factor in that producing ethanol runs a net energy loss (it takes more energy to produce than you get back from the fuel)
The growing global food demand while we are decreasing corn production for consumption...
And the fact that ethanol is actually MORE EXPENSIVE to produce and only costs less because of tax funded subsidies...
And you'll see the ONLY benefit is the increased price of food (corn) for the corn farmers union.
They poured unbelievable sums into getting the laws changed to require ethanol knowing full well it was worse in just about every way.
Then look at the consumers side. It's less energy dense so you get less mpg. It absorbs water out of the air so it goes bad quickly and can damage your vehicles. It dissolves standard rubber fuel lines. And a lot of older vehicles with carbs really struggle to burn it.
I used to think it was great, but it turns out it's a worse scam than the prius. It doesn't improve anything but tax revenue and profits for Monsanto.
Welcome to the world of politics where nothing makes sense but sure makes cents.
If you're going to argue that ethanol isn't necessarily a poor choice aside from the emissions resulting from land clearing and production, I'd be interested in seeing a similar scrutiny applied to the process of refining oil. Specifically, consider the emissions impact of constructing drilling platforms and transporting oil in container ships across oceans compared to a farmer clearing land just once. It seems you've overlooked the fact that our energy demands are growing, and we must address today's needs. If, as you mention, the lifecycle of ethanol proves to be more favorable than the linear journey of oil from extraction to atmosphere, then the one-off impact of land clearing could potentially be less detrimental than the ongoing processes involved in importing foreign oil or erecting infrastructure for refining oil into gasoline.
Considering a container ship's journey from the Middle East to the United States, spanning roughly 8,000 nautical miles at an average speed of 23 knots with a daily fuel consumption of 150 metric tons, the voyage consumes about 13.78 million gallons of fuel. Intriguingly, this amount of fuel-the same consumed by a cargo ship on such a trip-could be used to clear approximately 1,722,861 acres of land with a bulldozer that uses 8 gallons of diesel per hour and clears an acre an hour.
I'd appreciate your perspective on this.
He was arguing that we should have went with another alterative to corn instead of using corn. He cited the oil would be bad to continue with but switch grass would be better than corn and there are others too. Right now I am thinking we will be going onto EVs and nuclear fission for how the USA will be powered. The fear of a nuclear melt down is founded in a false understanding of how it works. Yes it can happen if all the safe guards fail all at once but the fall out will be less than what was in the example commonly given of Chernobyl. It made it seem bigger than it was and now humans can live there again just not as well as we can live outside of a nuclear fallout zone. The main reason why is the fuel source is different. Then you have how the fission is done is different then how the safety is done is also different. If everything fails the lead inside of the thick cerement blocks that make up the outside of the building will prevent it but even the dead man switch will prevent that from being needed. So even if everyone dies and no one is around to hit the button there is a fail safe to make sure it will be stopped. The reactor will not be useable afterwards but the reaction will be stopped. The people who design them learned over the decades how to do it efficiently and safely. Still the sci-fi tech of fusion power generating power is not here due to what is needed to contain it. Fusion has been here for 1000s of years being controlled by humans just not a power source. Maybe in the future we will have fusion power but right now all the new nuclear power plants are for fission power.
@yumri4 love ur comment n ur view of the nuclear plants and how they have been improved compared to Chernobyl. But he didn't mention nuclear at lol
If corn can be used to make fuel, and the emissions end up being somewhat similar to a gas car, and if you think about the transportation, how oil is gathered, processed, etc., being able to eliminate a lot of that process, and if they are not buying the main raw materials from overseas, the price for E85 should come down in price significantly. Well, you would think so anyway. And if they started making cars come out of the factory as flex fuel compatible and invested in ways to lower ethanol's emission output, I don't see why a renewable fuel like E85 wouldn't be a viable idea since the world will one day run out of oil.
I've been saying this for 15 years. Ethanol is a great fuel, but corn is a poor feed stock. Switchgrass, sugar cane, and wood pulp are all significantly better options. Honestly, they only produce ethanol from corn due to lobbyists pushing it so hard.
Thank you for drawing more attention to this and for sharing this new study!
The ethanol conversion on switchgrass and all other cellulose based system is horribly inefficient.
Finally someone who gets it
@@bowez9 what does Brazil use?
@@Iahusha777Iahuah sugar cane.
But this video isn't about Brazil.
Switchgrass and most other cellulose sources are worse than corn. They are too bulky to transport. Most take more energy to process. Crops like switchgrass are single use. Unlike corn which produces ethanol plus acre for acre as much feed as soybeans.
Corn ethanol has another benefit for human security. We depend on corn not only for food but also many manufacturing processes. If there is a severe drought for example, ethanol production could be reduced. Thus, saving corn for other uses. I'd guess a 20-30% buffer against really dramatic consequences.
Can't do that with your other sources.
There was a large biomass project utilizing switchgrass in southern Iowa several years ago. The switchgrass was ground and burned in a coal fired power plant as a renewable fuel. I spent a lot of time mowing and picking up switchgrass bales. If memory serves, the BTU comparison between coal and switchgrass by the pound was small (coal > switchgrass). The whole project was shut down when "someone" came in and stated they were going to commercialize it. I think it needs a second, very, serious look. Switchgrass provides excellent erosion control (up to 20' deep root systems) and habitat for wildlife. If the push for electric cars is going to continue, the need for better fuels at power plants will become paramount.
Why are we wasting accumulating biomass that builds up along our streets, or after a flood or tornado. All the material that is organic can be processed with a wood still, and generate methanol alcohol.
Now the argument is that you have to use energy to create energy. You can extract the alcohol the from filtering cooking oil and 10-20 %alcohol to the oil for fuel to create the methanol alcohol.
You can process methanol alcohol from many organic sources, down tree limbs, grass clippings, manure from animals, and scraps from building materials ect. In fact we may want to rethink how we process sewage in our country.
It really is all about input vs output when it comes to biomass. Which is really why ethanol isn't as big of a benefit as expected. It's a lot of fuel (and carbon release from soil) to collect and transport organics to a processing facility. New data from a broader analysis, apparently, has shown this.
For any new processes It really comes down to tonnage of material. General cleanup would not provide the amount of material needed to offset the output in my opinion. After a disaster a lot of the arguments against the collection is negated because it needs to be cleaned up anyway. Manure processing is in place and works well in larger feeds lots to my knowledge. I do not have first hand experience with these systems and need to look into them. Processing of sewage is a whole other issue. Lots of chemicals and heavy metals involved from what I've seen and read. The biggest potential net gain is altering an already established process. Disaster cleanup, manure processing, household trash pickup, and possibly sewage all have some of that potential.
That all said - I don't think we should completely ignore carbon but I do agree that methane collection and use would better suit our needs and efforts.
Would cut in to to may profits. The sell them seed ,fertalizer,weed killer,pesticides, and fuel every year. The grass would only take fuel and time so to much money loss to let that happen. Oh and cows don't need corn to survive either.
Hunter and Joe do not make money off Switchgrass.
When we take organic material from the field we must return it in some form. Fertilizer is usually the form chosen, but even then we tend to take more than we return. Eventually, that becomes a problem.
You left out the fact that ethanol doesn't contain the same amount of energy as gasoline thus reducing the efficiency of internal combustion engines resulting in more fuel being consumed in the pursuit of conservation. It's also bad for many engines, especially small engines, causing them to run too lean. Another wonderful known byproduct is that ethanol is hydroscopic which leads to fuel system problems and internal corrosion. Rubber and plastic can swell or lose their structural integrity causing seals to leak or fail. Some manufacturers will void the warranty if E15 is used. Everything about this substitute adds to more energy being consumed to compensate for it. If it worked there would be no need to mandate it.
"As a result, taxpayers have spent billions of dollars over the last 30 years subsidizing the production of corn ethanol, while at the same time creating unintended costs for consumers and the environment."
This was always politics. It's been well known since its inception that the unintended consequences outweighed any theoretical good.
detail question, what makes you say it's bad especially for small engines? don't oxygen sensors and stoichiometric EFI operating/control strategies correct it to lambda=1 which is say 14.7 for 0% Eth gas and 14.3 or whatever respective point (i forget) it might be for E10 gas etc?
Imagine having a carburetted motorcycle and leaving it for some time without starting it. Gunks up jets, clogs the fuel bowl etc
Makes startups after winter a pain in the back
Yes. I did use fuel stabilizer, didnt do jackshit
@@renizer not on lawn mowers/ lawn equipment and carbureted motorcycles. Anything without electronics to compensate. Seems like you’re nit picking and missing the bigger picture…
The best results would be reached if gasoline cars were turned into flex-fuel (or bi-fuel, whatever the name) cars. I installed a small box to my previous car and that basically monitors the data from lambda and increases the time the injectors are open. So it stands between the car's own computer and the injector. Of course it also monitors the alcohol concentration. E85 contains about 85% of ethanol and my 2001 Audi A6 was running like a charm with it and also with any mixture of that and gasoline. Only cold starts in the winter are a problem, below -5 celsius needs some gasoline mixture. Pure E85 consumption was about 30% bigger than 98 octane (Europe standard, don't remember the RON vs whatever differences) that has 5% ethanol in it and can be used without any modifications to your car.
But also, the ethanol should be made out of waste, not turn land and grow food for that. In Finland ST1 produces it's ethanol from wood industry's waste and some common waste too. So they're using the leftovers that wouldn't be used elsewhere. CO2 isn't of course the only emission difference, ethanol burns much cleaner too. And a bit cooler.
@@someguy9520 yes. I spent hours attempting to clean a carburetor on a motorcycle that had sat for an extended time. It never fully regained its original performance. At least not with the time I put into it.
YAY! I've been a ineffectual proponent of switchgrass since the early 2000s. It's awesome to see this topic presented. Please now make a video showing alcohol production from switch grass vs from corn, especially showing the amount of leftover waste produced by both (just make two piles of the leftover biomass).
Just under half of our corn planted is value added into ethanol and distillers grains.
100% of the fertilizer and things in the soil still get fed to livestock in the distillers grains. Ethanol comes from only things of the air: solar energy, CO2, and water with the latter two recycled once burnt.
100% of the protein, minerals, vitamins, fats, etc are in the triple concentrated distillers grains. It is not a waste, indeed corn ethanol would be far too uneconomical to even produce otherwise. But with its feed factor, few other sources (even though they may make more ethanol per acre) can compete with it.
The Federal subsidy on corn ethanol ended back in 2011. There still exists a Federal subsidy for generation 2 ethanol which switchgrass would qualify for, and this subsidy is over twice as much as what corn ethanol's (generation 1) had been. There was a generation 2 ethanol plant almost built that was to use corn stover in Nevada, Iowa but this was never completed and was since repurposed.
It is hard and expensive to make ethanol from cellulose which is why all the drinkable spirits we have been made from sugars and starches.
Switchgrass requires a dedicated acre of land whereas corn ethanol comes from already existing feed production acres but as a source, we can only economically just over double our current production from it.
Corn has no nutritional value,
Its roughage until you turn it into corn fructose a sugar additive they put in soft drinks and use instead of cain sugers open a bottle of karo syrup its corn syrup its thick think what that dose in your blood stream.
Its banned in European country's as a sugar substute because its not healthy.
Your better off plowing it into the soil.
I also know sugar cane is about 12x more efficient. Since there is an already perfected system of production of extremely cheap ethanol in Brazil, why was not that copies into sunny and wet places like Florida or the golf cost states?
@@fmilan1 Bing copilot says we do a little, but the vast majority is (value-added) from corn. I imagine they make more money for sugar production. Hawaii imports expensive diesel to make dirty electricity, they could use their abandoned sugar cane fields to make pollution free cheap fuel and electricity for a fraction of what they spend on other renewables.
Bing states sugarcane make 560 gallons of ethanol per acre on a 35 ton/acre crop. Sounds a little low to me but that is what it said.
Value-adding corn into ethanol produces not only >500 gallons per acre but also 1000 lbs. of protein (& other things) per acre. This feed factor is why it can economically outcompete even sugarcane.
So much so that Brazil put an import tariff on US ethanol in 2017. Went up to 18% this year.
Brazil is also using corn for ethanol. It is a good fit because unlike cane, corn stores well so they are able to more efficiently run their ethanol plants all year-round in-between cane harvests.
@@deltalimaactual Switch grass is fine and there exists a Federal subsidy if anyone wanted to make it of $1.01/gallon. Corn ethanol's subsidy which had been $.45/gal. ended back in 2011.
Switchgrass requires a dedicated acre of farmland and dedicated fertilizer. Cellulose ethanol plants are expensive to build and it is harder to get ethanol from which is why spirits like whiskey, rum, gin, vodka, saki, etc. are made from sugars and starches, not cellulose.
Corn ethanol is value-added from already existing feed production acres which preserves the feed in a healthier and more productive form called distillers grains.
There were no grassland or forestland broken up for corn ethanol. US cropland acres have been declining so it is quite impossible.
Most corn grown is fed to livestock though there is nothing stopping us from eating distillers grains.
100% of the fertilizer and everything from the soil still gets fed to the livestock in the distillers grains. Ethanol is made only of things of the air: solar energy, CO2, and water with the latter two recycled once burnt.
Cattle cannot digest starch well and waste it out their backsides as methane gas and carb rich manure which turns into methane later.
I personally try to eat grass fed beef so if everyone ate like me, corn ethanol would not exist as it would become too uneconomical to produce without its feed factor (distillers grain).
Government subsidized agriculture of corn caused all of this. What a racket! Thanks for the update.
...and it'll never be undone.
Farmers have historically been supported by government in America because food production and the ability to feed ourselves is considered a part of national security.
Not just a farm subsidy but a subsidy for agriscience giants promoting their seed/fertilizer/herbacides and the petroleum companies that get to sell you about 15% more gallons when you look at the 14/9 split in stoichiometry.
@@76horsepower Unfortunately the ethanol subsidies aren't going to the small farmers but rather to the farming giants such as ADM as Jim Urrata pointed out below. These folks spend millions in lobbying to keep ethanol subsidies in place and they won't be interested in moving to switchgrass . And Jim's also right when he points out that ethanol "enhanced" gas is less efficient and causes us to use MORE fuel than would be necessary with alcohol-free fuel. This is the government working for big industry and against its citizens.
@@jimurrata6785 It is mostly for farmers but I think it is over done also. And I come from a farm family that still farms.
It’s funny, when I was 10 years old i did a paper for a literary competition discussing the effects of ethanol in Gasoline, the only difference is mine was based on sugar cane (grew up on an island, that’s where we get our ethanol). i did the argument against ethanol in gas and surprisingly won. That paper listed all the negatives which far outweighed the positives. Im 24 soon. This information has been out for a long time but the government doesn’t care
You're absolutely right. Keep fighting. This stuff was obvious to me when I was a kid too. Now I'm 50 and too old and tired to do anything about it.
Nobody does anything today unless it will net a profit, and that needs to change if we want to remain a viable species.
It’s the same with 90% of pharmaceutical drugs. The side affects far outweigh the intended benefit but yet the FDA approves this crap
Oh the government does care. About the corn lobby.
The government dosen't care...in more ways than one.
@@stickyfox
Existentially speaking, what is our ‘purpose’ in the universe anyway? The viability of the human race is irrelevant. In the big picture, it makes NO difference if we make it or not as a race.
They knew the corn based ethanol math was horseshit. The politicians cooked the numbers to make it fit what they wanted, which was a way to require more dollars to be funneled to their corporate corn-growing friends. He says "farmers" but in the US almost all the corn is grown by corporations and the farmers are little more than employees.
They're cookin' the books again to make EV's look wonderful.
@@ichoppabroccoli3670 The lifetime carbon cost of EVs is lower than ICE and more to the point can be reduced with decrabonisation of electricity production.
Yes, I know renewables can't come close to fill the hole that removing "burning stuff" creates in energy utilisation - but they're a stepping stone in reducing carbon emissions until nuclear power gets better
Hint: ORNL MSRE, SINAP TMSR-LF1 - if the Chinese rebuild of Oak Ridge's 1960s work validates the results of 55 years ago, then nuclear power just got 80% cheaper to build/operate and waste output was reduced by 99%, whilst the reactor temperature got high enough to efficiently generate power and substantially reduce maintenance costs in the non-nuclear side (superrcritical steam production, instead of wet steam as is currently produced in nuke plants - which causes massive levels of blade erosion in steam turbines)
If nuclear energy is cheap enough, then hydrogen for Haber-bosch processes is carbon-neutral (current carbon emissions from fertilizer production are higher than the world's transport fleet) and you have enough energy available to tack on atmospheric carbon and make portable synthetic hydrocarbons - which gets around the massive costs and dangers of trying to use raw hydrogen as a transport fuel.
Yes, it means fuels will be more expensive than electricity (joule for joule), but in cases such as longhaul aviation, it's a cost that will be eaten (air transport will return to being something for the rich and public transportation _will_ rise again as fuel costs pass $10/gallon)
Worse than employees they are indoctrinated into a broken farming system and forced into debt
Just another Jimmy Carter failure. Remember when he was going to force the US to go to the metric system ?
@@ichoppabroccoli3670 at least with EV, the thermodynamics checks out, unlike ethanol. A properly supported EV network will produce double the distance a car can produce using the same amount of gasoline as fuel for their generators. Cars simply suck at converting fuel to motion and cogeneration makes fuel stretch significantly
Amory Lovins of the 'Land Institute' was onto this way back in the 1970's. The whole corn ethanol thing was just a back door means of supporting the corn price in a way that would clear the new WTO trade rules during the 80's. and 90's.
Here is how the 2007 Energy Independence and Security Act affected food/feed prices(if at all):
2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE
2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE
2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE
2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT
2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT
2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + MOST ETHANOL EVER PRODUCED
Wheat
2007...............$6.48/bu
2008...............$6.78/bu
2009...………$4.87/bu
2016...………$3.89/bu
2017...............$4.72/bu
2018...............$5.15/bu
Soybeans
2007..............$10.10/bu
2008..............$ 9.97/bu
2009...……...$9.59/bu
2016..............$9.47/bu
2017..............$9.33/bu
2018..............$8.48/bu
Good vid.
I'm not sure of the ethanol source but here in the UK, we have recently moved to 10% and many people are reporting higher fuel consumption, therefore further reducing the environmental savings.
Yea true, I recall reading (somewhere, multiple places) that E10 UL will reduce economy by about 3-4% vs E5 UL
@@Assimilator1 Spot on, recent MCN dyno tests of motorcycles
Ethanol fuel is a scam.
That IS correct. Ethanol has about 70% the energy density of pure Gasoline. So with 10% added you will see around 3% worse MPG. Ethanol does allow higher compression ratios and If an engine is designed to take advantage of that you can reduce this defict.
@@rgrigio Even turn it into a benefit. It's not fair to judge an engine that has had 100 years of fine tuning to one type of fuel to the same engine running a different fuel and then blame the fuel for a lack of efficiency. There's sort of a conflation of two issues though, one being the energy density of the fuel and the other being the efficient extraction of that energy. They aren't related.
Ethanol is less energy dense, but what matters is the net energy put into useful work. In a gasoline engine less energy is converted into useful work even at best design efficiency as a ration of gross to net. Ethanol is able to extract more effective work meaning the ration of net to gross is HIGHER in an engine DESINGED FOR ETHANOL. The question is how those factors fit into the larger puzzle of tradeoffs.
For a gasoline engine 10% ethanol is about as high as one can go before you increase fuel consumption for the same amount of work. Unless you go to 95% Ethanol in an engine designed for it, in which case you are getting a lot of benefits and MORE efficient extraction of energy. The main reason they put ethanol in fuel though is not for environmental reason, but to help keep it dry, blended, and at the appropriate octane.
It has been known for many years that corn based ethanol is an absolutely idiotic idea. In the end, the reason for choosing it was to prop up corn prices and make corn production more viable, it was not to reduce CO2.
It was also a political move to buy off the ag lobby.
@@SimuLord
You can keep the corn.
I’ll take the single malt thank you.🤣👍🥃
isn't corn genetically modified, therefore the big guy who owns the patent is collecting his greedy share
@@johndrew6730 Buy off the ag lobby? You mean they get favors from Congress and we pay them ? Both? Pretty sure the lobby does the buying in exchange for beneficial legislation.
@@BillMcGirr Malt is a flavoring method, not a source of alcohol. Still need a grain source.
Very interesting, thanks! In Switzerland, land cannot be used for the production of ethanol. therefore, it is produced from wood scraps only. Likewise, biomethane is produced from food scraps, agriculture waste etc. and it's proportion in the natural gaz mix is on average 25%.
Anyway, this is a discussion with the CO2 religion that is false from the ground up.
Is that not methane?
Methane is 38 times as "warming" as CO2.
@@fredschnerbert1238 which is why they put it into the natural gas to burn it into CO2 instead of having it leach into the atmosphere from rotting in a landfill. Pretty smart if you ask me!
Wood produces methanol.. (MeoH) not ethanol..
One more thing. The feed value of the corn in animal rations, which remains after fermentation, was ignored and is a vital component of the ethanol equation. Suggesting agricultural lands could be returned to non agricultural uses would lead to a sharp increase in food prices and have a ripple effect on global hunger. Converting agricultural lands to subdivisions, parking lots and malls represents a far greater threat to life and quality of life and is a permanent loss of land that could be used for food production.
I’m a little late to the comments, but my comment is that not all of the negative things were mentioned. 1 very big negative is the amount of water needed to grow Corn. The irrigation needed lowered the water table greatly, that water took many years to be deposited in the underground. It’s gone. Kansas has started limiting the amount of water that can be pumped, it’s a little late but it will take many years to rebuild the water table. I’m old so I’ll never live to see any difference.
Thank you for your video. Thank you Sir
Most corn(>85%) is not irrigated and of the top thirteen states who do irrigate only Nebraska is known for corn. The US and even dry Nebraska used MORE irrigation water before the RFS existed than after it was law:
National Totals Irrigation, in Bgal/d
1950 89
1955 110
1960 110
1965 120
1970 130
1975 140
1980 150
1985 135
1990 134
1995 130
2000 139
2005 127
2010 116
2015 118
Irrigation, Total self-supplied withdrawals, fresh, in Mgal/d
Nebraska 1985 7265.09
Nebraska 1990 6097.64
Nebraska 1995 7549.78
Nebraska 2000 8793.76
Nebraska 2005 8460.43
Nebraska 2010 5660.12
Nebraska 2015 6090.6
In other words, ending ethanol would not change irrigation use even one iota.
It is impossible for ethanol to have caused land to be broken up since US cropland acres have declined since ethanol. The corn belt actually grew more corn acres in 1980 before ethanol than in 2018, the year of most ethanol production ever.
One reason water tables are going down is that the land is not infiltrating the rainwater so it is running off to the rivers creating more flooding along the way. Years of acid rain made the calcium in the soil go down faster than normal so the magnesium tightened and compacted the soils without the calcium there to keep it flocculated. It also damaged our forests losing the calcium. We need to increase soil health and infiltration rates to rebuild the water tables and reduce flooding.
Without the subsidy for ethanol, KS would probably be a wheat or alfalfa state. Corn does best in tallgrass prairie rainfall further east. (Though I wish we still had some prairie left, tallgrass and shortgrass.)
Many decades at best if not a lot longer to replace the water maybe never
Iowa is the number one corn producer. They rely on rainfall
87% of corn is rain fed. Of the top states who do irrigate only dry Nebraska is known for corn.
There were no grasslands or forests broken up for ethanol. Quite impossible since US cropland acres have been declining.
Census data shows corn producing states (including Kansas) increased grassland/range, forest, and wildlife areas since ethanol came.
The corn belt actually grew more acres of corn in 1980 before ethanol than in 2018, the year of most ethanol production ever.
Erik Johnson, the corn ethanol subsidy ended back in 2011.
Having previously worked in biofuel research in the early 2000s, the conclusions reached in this study have always been my takeaway regarding ethanol.
Cutting down Borneo's rainforest was a big mistake.
This isn't regarding ethanol, it is regarding corn based ethanol. Like he mentioned, other sources of ethanol production result in far better numbers.
@@rdizzy1 Sorry, I guess I should have been clearer - I was referring to corn-based ethanol, as it was the subject of this video.
Did you factor distillers grains into your conclusions? Every study that I've looked at that results in a negative for corn ethanol fails to get even the most simple facts straight. The one in this video is no different.
@@rdizzy1 They only result in better numbers because they are flawed. Switchgrass and most other cellulose sources are worse than corn. They are too bulky to transport. Most take more energy to process. Crops like switchgrass are single use. Unlike corn which produces ethanol while at the same time acre for acre as much feed as soybeans. The protein and fiber in corn is not converted to ethanol.
Corn ethanol has another benefit for human security. We depend on corn for many things. If there is a severe drought for example, ethanol production could be reduced. Thus, helping ensure enough corn for other uses. I'd guess it provides a 20-30% buffer against really dramatic consequences.
Ethanol was always a taxpayer subsidy to big ag, it worked as intended
@@benchoflemons398 incorrect, it was in fact due to lobbying by big ag. There were increasingly more countries producing their own corn and relying less on imported American corn, thus dropping prices. It was intended to create a new, domestic market for corn that would increase prices and be less susceptible to increased production globally.
No one gives enough shits about voters of any demographic to make a policy like this purely to placate them.
@@benchoflemons398 No it has nothing to do with farmer votes. They are literally the smallest voting block in America, that would be political suicide. The reason for it has to do with American food policy. Farming is heavily meddled with by our federal government.
@@benchoflemons398 That only proves my point. It has nothing to do with placating farmers OR placating people who marry young. It’s about overall energy policy / cultures where dating/marriage isn’t just a means for using someone for sex.
@@benchoflemons398 A quick Google search shows me that the ethanol requirement was passed by Congress in 05, which wasn't even a voting year so them doing it for the Iowa caucus damn near 3 years in the future just doesn't hold up.
It sure wasn't farmers who read the study referenced in this video and started a lobbying campaign to get this passed, and Congress sure wasn't thinking of a caucus 3 years in the future.
A lobbyist or an employee of big ag read the study and saw an opportunity. A quick Google search confirms this.
My god man, the information is out there at the tip of your fingers. Look it up before so boldly stating such opinions based clearly on nothing more than gut feelings.
Farmers have been supported historically by the government in America because the ability to grow our own food and feed our population is considered a part of national security.
I know this is an older video but iv'e got to say as a UK citizen I really like the style of this video, quick start, straight into the subject matter no heavy guitar riffs at the beginning no 'in video' ads for PCB manufacturers or VPN suppliers etc...love it, and i'll subscribe just for that, and of course for the very well presented subject...
The only problem with it is that there were no grasslands or forests broken up for corn. Quite impossible since US cropland acres have been declining since ethanol.
US Census data even shows corn producing states increased grassland, forest, and wildlife areas since ethanol as well.
Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than they did in 2018, the year of most ethanol production ever and ethanol plants everywhere.
2018 Iowa 13,200,000 acres of corn with record ethanol production
1980 Iowa 14,000,000 acres of corn before ethanol
2018 Illinois 11,000,000 acres of corn with record ethanol production
1980 Illinois 11,600,000 acres of corn before ethanol
2018 Indiana 5,350,000 acres of corn with record ethanol production
1980 Indiana 6,450,000 acres of corn before ethanol
I don't think it ever was a secret that ethanol had less energy density and more costly to produce per BTU. I always took it as a way to subsidize the farmers' surplus and replace foreign oil supplies. What really wasn't apparent to the user was since State and Federal gas taxes are based on a fixed cost per gallon, the lower mpg results in paying a higher tax per mile.
also, it's making it harder for manufacturer's to hit their mpg standard, which makes the buyer pay more at purchase of the vehicle.
It costs less to make ethanol than gasoline when you end up buying the gasoline from people who hate you and spend YOUR MONEY on weapons to attack you with. The geopolitical situation changes the economics.
You are right. It is not a secret. What people forget is that we have MORE corn than we need. It would get wasted. We 100% want to grow more food than we need, to account for problematic years. So we ALREADY have the corn. Ethanol is a way to use up that buffer when we don't need it.
Now, certainly, the ethanol and corn industry lobby to get every advantage they can. Every industry is guilty of that though. Still, having a food buffer and finding ways to use the excess is a good thing. As noted in the video, causing an even greater corn growth increase. Which should not happen.
With electricity becoming renewable, obviously that is now the better choice. We still are going to want excess food; converting it to ethanol is likely a solid use.
I normally agree with Engineering Explained, but I'm pretty sure they wouldn't want us to live on the brink of starvation, and also wouldn't want us to let that already grown corn go to waste.
@@legonut78 it's not corn that humans can eat. They wouldn't be wasting a crop they would plant something else. You can't plant corn year after year in the same field.
@@RJL612 I’m not following you. Are you saying that the corn used for ethanol is inedible? I assure you, it’s the same corn humans eat. Field corn (dent corn) is what we eat and it is used for ethanol. It is also our animal feed. So yes, corn is where our food comes from including most of the interior supermarket isles and all of our meat and dairy. Without corn, we die.
Also. You certainly can grow corn in the same field year after year. It’s cheaper to rotate it with legumes however, to reduce nitrogen costs. That problem is being solved however and someday soon corn will fix its own nitrogen. Several folks are working on it, which would be a huge win for Mother Earth.
Studied and did research on this in college 15 years ago and the conclusion was it was way more inefficient and countries should think long and hard about using food stocks for energy ambitions. Yet auto makers signed on to it
I hope you got an F in whatever class you did that study for. Because ethanol is not using feedstock. Ethanol allows us to get both food and fuel from every kernel of corn.
@@jeffp6786 ethanol fuel divert corn from food production. Making food more expensive. ethanol is a crime against poor people.
@@jeffp6786 still need to produce increasingly more corn as more cars started using higher ethanol contents
not to mention how variable seasons can be with droughts
@@Brandon_letsgo That is not true in the slightest. Corn is not diverted from food to fuel. Once the ethanol is extracted, DDG (dry distillers grain) remains. That DDG is then fed to livestock thereby creating food.
@@austinh1028 No. The vast majority of corn used for ethanol would be grown regardless for animal feed. With ethanol, we extract the fuel from the corn leaving protein dense distillers grain to feed to livestock.
The reason this study is bogus is because it assumes the land growing corn would go back to idle if not for ethanol. That's simply not true and skews the study results.
This is a very good presentation with good supporting documentation. In the 1975 my engineer/farmer father along with a friend that was a plumber built the largest ethanol still in our county. It was a highly efficient packed column and could distill ethanol to a fraction of a degree. It could produce near 95% ethanol. It was powered by a boiler that burned firewood from dead trees on the farm so the fuel cost to distill was nearly zero except gas for the chainsaws and a little fuel for the farm truck to haul it to the still. He even raised the corn which was used to make the ethanol which was quite cheap at the time. The left over mash was donated to a neighbor to feed his hogs. After two years of experimenting with different ethanol mixtures from 10 to 95% including a trial run of 50% ethanol and 50% water he found that he could not break even with just using straight gasoline. The fuel consumption was greater with any mixture of ethanol in his gas tractors and didn't even come close to the efficiency of his diesels. Even though his only real cost was the corn he used instead of taking it to market, It was a money losing proposition. He did not even count the cost of the large still which was built from surplus materials nor the expensive government permit to distill ethanol nor his hours of labor building and running his project. Running ethanol was a waste of resources and it was rusting his metal storage tanks including the metal tractor fuel tanks. When they started building ethanol plants in our area a couple years later, we knew they were a money losing business as the cost of corn doubled and their fuel and labor costs to distill were much higher than ours. It was a feel good government scam that made a lot of people money but did nothing to actually help the environment or reduce our dependence on foreign oil. It required more fertilizer and chemicals to raise more corn which is harmful to our well being. While we made more money on our corn, we could no longer drink the water from our well which is now contaminated with nitrates. My father's early experimenting was fairly scientific at the time. None of the tractors back then were fuel injected and all the engine tuning had to be done by trial and error but the results compare closely to the literature of work done more recently. Just a side note to consider. I don't know of any farmer that raises corn using ethanol powered equipment.
Nice to hear perspective from those with experience on the field!
I suspect this has a lot more to do with corn than ethanol itself from what I gather though :/
If ethanol producers gave away their distillers grains, they all would lose money as well. The feed component is what makes corn outcompete most any other source even though they make more ethanol per acre.
John Deere and Cummins just dropped a chunk of money into a company named ClearFlame who converts diesel engines into pure ethanol burners. So clean it eliminates the need for the costly and unreliable exhaust particulate filters and DEF. Henry Ford's dream of ethanol tractors may come true.
The US actually used more fertilizer and chemical in 1980 before ethanol than after.
Everything from fertilizer and from the soil is still goes to the feed, the only thing that goes to the ethanol is solar energy, CO2, and water with the latter two needed for the new gallon of ethanol.
Here is how the 2007 Energy Independence and Security Act affected food/feed prices (not counting inflation):
2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE
2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE
2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE
2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT
2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT
2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + RECORD PRODUCTION OF ETHANOL
Wheat
2007...............$6.48/bu
2008...............$6.78/bu
2009...………$4.87/bu
2016...………$3.89/bu
2017...............$4.72/bu
2018...............$5.15/bu
Soybeans
2007..............$10.10/bu
2008..............$ 9.97/bu
2009...……...$9.59/bu
2016..............$9.47/bu
2017..............$9.33/bu
2018..............$8.48/bu
Govern = CONTROL
Ment = MENTAL
The WORD GOVERNMENT IS
MIND CONTROL !
We can't vote our way out of it !
Any where in the world !
If you have any doubt in 20 22
Look up the word politics !
Parasites always kill their host !
@@crazydragy4233 NO IT'S ABOUT THE PARASITES ! That controls our MINDS ! Check out the Arab spring ! And how ethanol base fuel caused it ! Then ask Al Gore why did he lie ?
Solution is simple, let petrol carry the full cost of the pollution it causes.
That said, making ethanol out of corn might not be optimal...
Agricultural land use in the U.S. has decreased from 1949 to 2012 by 11%. The new breaking of land for corn production did not happen, which is a fundamental error in the calculation used to calculate the net benefit of ethanol. It's also important to note that the new emphasis of long term storage of carbon in the soil, by climate change alarmists, is also debunked by the Harvard study. Bottom line, agricultural food production is essential to living and quality of life. Agricultural economics is an important part of the equation.
Not only that, in the corn producing states, Census data shows that grassland, forest use, and wildlife areas increased after ethanol.
Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than they did in 2018, the year of most ethanol production ever and ethanol plants everywhere.
2018 Iowa 13,200,000 acres of corn with record ethanol production
1980 Iowa 14,000,000 acres of corn before ethanol
2018 Illinois 11,000,000 acres of corn with record ethanol production
1980 Illinois 11,600,000 acres of corn before ethanol
2018 Indiana 5,350,000 acres of corn with record ethanol production
1980 Indiana 6,450,000 acres of corn before ethanol
The US used 11,160,933 tons total fertilizer on corn in 1980, before ethanol.
In 2018, the year of most ethanol production ever, the US used 10,521,850 tons total fertilizer on corn.
We’ve known for years that switchgrass-based ethanol is a better solution than corn-based ethanol. But, our government doesn’t subsidize the growing of natural prairie grasses like it does corn.
Cane ethanol would be even better than that. Much higher energy potential.
But corn has very little energy in it, even for the biological machines it's been tailored to power (our stomachs) being more of a filler than a nutrient, so there's no surprise there.
@@1SqueakyWheel Again, this decision had nothing to do with the environment and everything to do with political grift to an important primary state.
@@1SqueakyWheel That's why Brazil uses for their ethanol which yield more higher output while short growth cycle to produce sugar canes
@@Astroinmotion Exactly. I remember my Dad and I discussing the use of sugar ethanol in South American countries for all these reasons, when he was still healthy. (he's been gone almost a decade now).
Seems like the government gets in its own way a lot of times. They always talk about looking for a better solution and lowering emissions and hear a solution is staring them right in the face (switchgrass) but they won't do anything with it. The politics get in the way of doing what's actually better.
When I first visited an ethanol production facility and saw the amount natural gas they had to use to boil the mash and other heating operations didn’t seem to make sense. Using fossil fuel to save fossil fuel I knew at least cut down on the benefit. It didn’t make sense to the owner of the oil company that was operating the big still, but he said they government was paying him to offer it so it only makes sense for the oil company.
Poet, the largest ethanol producer now has half their plants using waste steam from natural gas electric plants to make ethanol.
Waste steam = free energy.
Thus, the already low price of ethanol has room to remain low for soon all plants will be like that for who can compete with free energy.
You do realize the crude oil and tar sands require huge amounts of fossil fuels to distill into gasoline? Tar sands require the pipeline and rail cars to be heated from Canada to even move it.
@@danafletcher2341 what's wrong with letting the rail car get cold during the trip and melting it at load/unload time?
Oil refining takes energy too
@@TheRealPlato They would have to or probably mix in natural gas distillates in the cars to prevent it from setting up like a rock and then redistill them out.
@@danafletcher2341 thank you for answering that question
There is another factor that I didn't hear you address. When comparing reduction of emissions between E10 and E0 gas, you also need to factor in reduced fuel mileage due to the ethanol. So while I'm polluting 2% less on E10, I'm burning 5% or more E10 fuel overall to travel the same number of miles I would on E0. I'm curious if that was something Tyler's study factored in. Because if you factor in burning MORE fuel per mile, then it's apparent that ethanol doesn't do what they claim it will. And never did.
Even with just 10% ethanol added to E0, the Swiss Federal Laboratory for Materials Science and Technology found that the especially health devastating ultra fine or nano particulate emissions were lowered by 97%, carbon monoxide lowered by 81%, carbon dioxide lowered by 13%, aromatic hydrocarbon emissions lowered by 67-96%, and genotoxic emissions lowered by 72%.
@@danafletcher2341 I looked up that study and found it referenced from 2016. It's interesting that it specifically only applied to direct injection engines, which are engineered for better efficiency/lower emissions to begin with. Those engines come with their own problems, but regardless, suffer from the same reduced fuel mileage using ethanol products compared to pure gasoline, thus still burning more fuel per mile driven. Fuel that's still 90% gasoline. I'm not remotely sold that a 10% change in fuel type reduces emissions by 13%, much less 72-97% of anything. If it's true, the study can be replicated by others. And should have been. But if that's the only study showing reduced emissions since 2016, and others that show a net increase, I'm not buying it.
Clay you're spot on and it should have been touched on in this presentation. 5-8% increase in consumption with E10 vs non-ethanol gasoline in my personal vehicle. Nascar switched over to 15% ethanol and saw a 10% increase in consumption or reduction in efficiency. However you want to look at it. How is that "green"? I'm just a simple man with some common sense.
But then again I don't have a vested interest in corn, ethanol production or its subsides..........
except the efficiency of a otto cycle is dependent on the compression ratio. Without the octane enhancer your engine would be forced to run at a compression ratio of 7.4/1 vs running an engine at 11/1 . And that is what happened in the early 70%, Ethanol was forced in as a oxygenating agent to reduce hydrocarbon emissions. It was never there to reduce greenhouse gas emissions. MBTE was its competitor but was taken out (cancer causing) And a engine with E10 at 11/1 will far outdo an engine at 7.4/1 running on E0. This is the octane effect of adding ethanol.
There's not only that consideration, but the issue with so much land being turned to corn production for ethanol. This has caused a decrease in other food crops, particularly rice, as farmers around the globe are not in farming for their health but to at least break even financially. This has had devastating effects upon world food supplies. I know that the green crowd thinks that it's a win to kill off large swathes of the Earth's population because it will be "good for the planet", but it's a bit less of a positive if you are one of those who starves.
All the clips of raw corn being thrown around at gallon bottles of ethanol were a nice funny touch 🤓
Very interesting video, shedding light on this issue. U had no idea that just tilling the land releases the C.
The fermentation and burning of ethanol releases no new CO2 so they needed to find a release of CO2 somehow, so they fictitiously claim virgin soils and forests were broken up for ethanol.
This is simply impossible since US cropland acres have been falling since ethanol came to be. Believe it or not, the corn belt grew more corn acres in 1980 before ethanol than in 2018, the year of most ethanol production ever.
100% of the fertilizer applied to corn still goes to livestock in the distillers grains. Ethanol is only made of things from the air: solar energy, CO2, and water.
What logic is it to assign all the CO2 from fertilizer to ethanol and none to the distillers grains?
I live on the border of NE/IA in the heart of corn country. What is noticeable (but rarely discussed) is the loss of habitat from the increase of corn production. There has been an extreme drop in the pheasant (and grouse/quail) population in the last 30 years that coincides with the growth of corn. The boundaries of cornfields have been pushed out to the limits, and land that may have sat idle is now plowed and planted. Shrubs, tall grasses and growth around fence lines used to surround cornfields and provide cover for pheasants. But that’s gone, and corn cover only lasts until harvest. When modern ag equipment harvests, the resulting field is barren until the following spring.
Hasn't helped the monarch butterfly either.
The only thing they brood on is milkweed and that has all but disappeared with the use of glyphosates.
Thanks for sharing your perspective!
Because that is the primary purpose of the corn ethanol program. It's welfare/gov cheese for big agro.
EVERYTHING in America is a RACKET. It is now not that unusual to hear about police robbing people on the side of the road and now, they are even robbing armored cars (YES, this happened).
EVERYTHING is a RACKET in the United States. Even our wars are RACKETS. There is NOTHING we do that is not a racket.
That is sadly the problem with almost all human land-use. I belive we need to adress this very soon if we want to stop the biodiversity losses.
@@EngineeringExplained It gets a little more interesting. This is a larger problem across the entire corn-growing region of the US, which is far larger than just Iowa. The loss of habitat for species in the Phasianidae family (pheasants, etc.) and the Odontophoridae family (quails) has so reduced bird populations that more and more Americans of all political affiliations are starting and joining conservation groups, if for no other reason than to hopefully be able to hunt them again at some point in the future. For example, the bobwhite quail has been all but extirpated from several US states. They're just canaries in the coal mine, though. There are even bigger underlying problems...
Remember reading this on the auto forums 30 years ago. Turns out those saying this was bad were right. However, replacing mbte I think it was with 5-10% ethanol is a plus. Mbte was very bad for the environment
Absolutely. We don't want to go back to MBTE. But at the same time, there are better things we could have replaced it with.
Same here! This was all over the forums 20+ years ago! The same thing is going to happen with all of the "green" energy policies. They are all nothing more than opportunity for corporations to steal tax payer money.
@@ajm5007 That's MTBE. But your right we could adjust the engines to run on vaporized fuel instead of atomized fuel. They'd run cooler, cleaner, and way more efficiently.
E10 is a ploy to get old cars scrapped.
@@fivish I have a problem with old cars honestly, most people I see driving old cars here in beautiful airy SC pump out an absolutely disgraceful amount of pollution from their dirty mufflers. I hate it and I wish there was a way to make them disappear. Disgusting
I remember reading how switchgrass was so much better 30 years ago in Successful Farming. Not only does it have a good conversion, it also is very low maintenance so not much fuel is used to produce the switchgrass, you just cut it every year or 2x a year. Successful Farming talked about how it would be so much cheaper to grow switchgrass because you don't need the till, cultivation, reseed and so on. They actually had a chart of a lot of many different ethanol fuel sources and seed corn was the worst of them all.
Yeh but the genetically modified corn's patent owner needs his cut, and he has more political clout
@@natchan5076 Monsanto and Cargil will be sending out their hit squads.
The switchgrass lobby isn't as powerful as the corn lobby.
You guys are on crack if you think they will be piles of switchgrass 100s of feet high in bales at the local processers. 95% of the land was already in production, so that great carbon kill is taken out of the equation. No word on cheap feed for livestock was talked about. Sure, go to 60% switchgrass across millions of acres, whats the corn price going to do? where's that put the livestock industry. All in the tank where these egg heads want it.
@@tjfarmer9380 Any way you slice it, using land for biofuel means less land for food production, whether it's corn or grass.
My bigger beef with ethanol based gasoline was back in 2001 that my car consumed about 10% more gas on it than on normal gasoline.
That would be close to correct. 10% is possible.
This "quantifies" what many have been arguing for years- the costs to till, plant, fertilize, harvest, transport and refine ethanol must be considered. The resultant emissions from farming, the emissions from refining, plus the reduction in fuel economy know to exist with ethanol-based fuels (you burn more of it than gasoline) further calls into question ethanol's economic as well as environmental viability. And, I'd question the viability of switchgrass (etc) as the "flower" of the plant (i.e., the corn "cob" vs. the flowering head of other vegetation) would seem to require more real estate to produce. So why corn? I maintain that, when in doubt, follow the money as there's huge federal dollars going to subsidize the farmers to produce the required volume of corn!!!
I concur: Follow the money.
Using ethanol to bring down the price of gas is like buying a new refrigerator, then selling it used on ebay to pay your mortgage payment. Ethanol is government subsidized because it takes more energy to make than it produces (thanks ADM)- and it will drive up the cost of corn- which we need for our food supply! More democrat dumbfuckery. FJB LGB 🤡🤡
Yep...gov't funneling money to farmers is the problem. So corrupt.
I followed it! Archer Daniels Midland.
There is no subsidy anywhere for ethanol look it up
Excellent video.
-
As an engineer, I know that there are many more reasons why adding ethanol to gasoline is a bad idea.
For one thing, ethanol makes gasoline MUCH more difficult to store over several months.
Once the ethanol separates from the gasoline, it can’t be forced to mix properly again. That gas becomes virtually useless.
-
It will be almost impossible to stop the use of corn-based ethanol in the USA. Huge companies are making many billions of dollars each year from this business. These companies have hundreds of big lobbyists with huge budgets.
This will be VERY hard to change.
If there is going tl be a switch it has to be economicaly fesable ofcourse, a lot of the fermenting equipment can be reused for switchgrass but the farming equipment is not.
Bro we need the ethanol for our tuned cars. How about you tell the government to race octane limits to beyond 91, 93
Exactly- I live in a corn-ag state (Illinois) and the amount of profit that is generated by this ill-advised boondoggle means we will never escape this. Politicians love the rewards of bribery as much as the big ag companies.
Wow dont you know corn ethanol is essentially free? Its a free byproduct that would be otherwise unused and wasted anyways.
Give the public solid reasons why it benefits them to switch and even the most powerful lobbies lose. Lobbyists can only vote once - constituents outnumber them.
But the decades of overregulation have created a lot of problems that flow into this policy - ignoring those is why big lobbying efforts succeed more than the money. Without a comprehensive solution the people hurt indirectly start fighting the changes. Lobbyists capitalize on this.
Now might be a good time for this fight - American farmers are likely to benefit from Russia's stupidity shortterm. If those market gains can be stabilized agribusiness will be less dependent on ethanol.
After experiencing lawn mower issues last year, I started using Ethanol-free gas in all of my small engine equipment. So far, it seems to store much better than gas with Ethanol.
I hope more people look at this. You should NOT run gasoline with ethanol in your small engines (look for premium without ethanol). In the long run, its not good for the engine.
This is key.
Ethanol is higroscopic, it attracts water. E10 gas can be stored for 2-4 months before it hoes bad. E0 gas lasts for 4-6 months.
the smell of VP small engine fuel
Nothing wrong with using ethanol gas in small engines, just finely store it in them.
For something that a gallon of gas lasts a year then premium ethanol free gasoline is the only way to go. For something like a generator the cost of that would be less then desirable. My solution is I run both, I’ll run regular gasoline for the week and bring a can of premium as well. The premium is the last tank that gets ran before putting it away. Of course this only works for something that goes through a sufficient amount to make it worth the effort.
It wasn't a mistake, it was a con. They were shouting from the rooftops, but people like my mom didn't listen. She bought a flex fuel car and there was only one place in town that had ethanol. She usually just put regular fuel instead.
I’m waiting for the study on diesel emissions and what impact it’s had in the industry. From decreased reliability, increase in demand for large parts like engines and rare earth minerals in catalyst, it should be quite the study. We can burn diesel clean and efficiently without the particulate filters and catalyst. But then we would have reliable engines that get 25 mpg and don’t burn down houses. Instead, many new engines struggle to reliably get more than 5000 hours on them before failure and an increasing amount failing near the 1000 hour mark due to increased exhaust temperatures.
Keep asking the right questions, Mike. Tier 5 for offroad.... folks be crazy.
Yeah, why do so many people forget that the majority of European Cars and Trucks used to be DIESEL until oil companies imposed "green" laws through governments in order to drive up profits. :/
@@mouseblackcat5263 It wasn't oil companies. It was the populace of Europe.
@@christianlibertarian5488 Not any that I ever spoke to. They hated going to Petrol from Diesel. Diesel is Safer, Cheaper, and more Useful for as more than just Fuel.
@@christianlibertarian5488 lol what? If they start banning euro 5 diesel and let go euro 3 gasoline emissions it’s by law that they want to kill diesel.
I remember almost 20 years ago my wife's uncle was a petroleum engineer for ExxonMobil and was laughing at what a crock ethanol was and that everyone knew it, but it was being forced onto them.
The fact they grow corn for the express purpose of turning it into ethanol when there is so much food waste that could be used instead tells you all you need to know about the corruption involved in this
Yeah cause Exxon has been soooo honest right?
@@michaeld4861 And this has to do with what? The OP is talking about their wife's uncle - I THINK they might be credible as a family member. Exxon, sure think what you want, youre probably not wrong.
@@michaeld4861 Honesty has nothing to do with chemistry.
@@highestqualitypigiron Ethanol plant near me had little to no waste. All of the corn is used to its full potential
Agreed. This was a gift to the corn farmers. It is never a good idea to burn food for whatever reason.
Corn is barely food 😂
Except on a BBQ
Corn syrup is the worst. Cane sugar is so much healthier. But the “flyover states” in the Midwest “lobbied” aka bought our senators to hand the corn industry billions every year.
@@rowanparmiter7622 Yeah, I like to burn a steak pretty good on both sides while it's still bleeding in the middle.
@@rowanparmiter7622 you beat me to it by 1hour! 😆
Fun fact: corn fuel produce food like meat and milk... When using grain, corn, rapeseed oil and sugar canes and sugar beets for fuel the wastes from this production is used as feed to cows, pigs and animals like that. Then we have here in Sweden a thing with green fuels: some of this fuel comes from slaughtered animals. I can talk very much about how good Sweden are in green energy. I work in farming here and if all farmers in the world would change to how we do things here the global emissions would go down with 30%!
I grew up in Iowa. Entire state's economies are built on corn production. Prices are always very low per bushel, so farmers need to create many bushels to turn any kind of profit. The problem is, we don't need nearly as much corn as is produced. So we are stuck trying to find ways to use it. Problem is, most of these usages just aren't very good or healthy: corn-fed beef, high fructose corn syrup, ethanol, etc. Since the 80s, the government has actually paid farmers money NOT to produce more crop. The alternative is to drive entire economies into bankruptcy.
I think what really needs to happen is that alternative crops be found for these farmers. But that would be heresy if I went back to Iowa and said that.
My understanding is that corn based plastics are practical.
@@steven4315 No, they aren't. It's another desperate solution to sell all this corn. It's a big plant and we only use its ear to produce those plastics. Any other solution that uses the whole plant is better.
I live in Michigan, I feel the same way when I talk about how car culture is killing us.
Organic produce
My grandfather was paid not to grow corn in the 1950s, in Indiana.
Then he planted clover, got a bee guy, made money on that, then, when it went to seed, he had me combine it up and made money on that too! Lol Long b4 Ethenol!
I remember them pushing e85 really heavily in the mid to late 00's. Started seeing gas stations put in new e85 pumps and car makers pushing new flex fuel vehicles. The price for e85 was much lower than regular gas ( especially in 08) but you needed to either have a flex fuel vehicle to use it or have your car outfitted for it. It died out pretty quickly once people noticed that it gave worse mph and waa not great for the environment (this has been known for a while). It was nothing more than to giving money to agro and government while riding the massive green movement in the late 00's.
I remember earlier when they were all over M85 in California in the 90's. Pumps were popping up in Ventura and L.A.. Price per gallon was good, about 75¢, but my goal was HP. I was looking into modding my car back then. It's pretty corrosive and hard to select materials that are resistance to both gasoline and methanol. Needed bigger injectors to keep up with the flow and higher compression to take advantage of the octane. Ideally, a bigger fuel tank to maintain the range. One thing that was nice was the vapor pressure was high enough that the tank didn't need to be foam-filled like with neat methanol. Still too much effort.
Even the muscle car magazines got on the bandwagon - it was like someone flipped a switch and it was being promoted everywhere overnight. Vanished about as quickly!
e85 is going strong where I live in the west. Almost $1 less per gallon than unleaded. Without modifications to increase compression ratio, it doesn't give much of an advantage to run ( e85). Late model vehicles now include turbocharging, which allows a big boost to performance. With e85s high octane rating, this is the perfect setup. My 2016 Ford Focus gets nearly identical mileage (36 mpg) whether e85 or unleaded fuel. It runs a 12 to 1 compression ratio. A big Thank You to Ford for finally seeing the light. Check gasbuddy for e85 locations around the country . They are in the thousands.
E85 was pretty close to payola - the government deciding to give money away and creating a phony premise for doing it. E85 was never possible without subsidies, and wasted billions of your tax dollars, did not hing to help the environment, and made a lot of freinds of politicians wealthy. It was shameful.
You think its about money for the government? Its because you are big oils plaything just like all the governments on earth.
This doesn’t take into account the increase in fuel consumption when ethanol is added. Volume for volume, ethanol generates about 30% less energy than hydrocarbons fuels, so you have to use more fuel to travel the same distance. The difference may only be a couple of percent, but as you have shown, small percentages matter.
I do believe this has been taken into consideration.
This wouldn't be the case if we designed cars to run on the E85 ethanol and it's 105 octane...you could bump the compression ratio up and pick up big efficiencies there. Basically we are using the wrong car engines for it.
@@robertelmo7736 I agree with you the current daily driven cars are not set up to be efficient on biofuels. As a gearhead, I modify my car to increase its performance and in this process, I have learned some of the naturally aspirated cars have increased compression to 13:1 on pump E85. Granted, the pump has to test for 80% ethanol or more for these cars to safely run but I would be curious to see an optimized engine for high ethanol content such as E85 and how its increased efficiency compared to traditional gas engines.
A while back I was driving across the country. One of the states I passed through had a higher ethanol percentage in the fuels. I spent less money per gallon crossing that state, but spent more money per mile doing so because my MPG dropped so much running that fuel.
yep you are right. I run E10 (94RON) in a 6 cylinder Australian ford falcon which also runs on LPG. I get about 8% less kilometers less than I get running our standard unleaded (91RON). The car runs a little better on E10 though. What i do is i start the car from cold on petrol and when the motor warms up I switch to LPG. which gives about 20% worse economy but costs 55% of the cost of E10. nothing is easy these days but with what is going on in the Ukraine I am glad I have dual fuel. E10 cost me $1.61/litre 91 cost me 1.90/litre and LPG cost me 0.869/litre. I just looked online and already most outlets are selling E10 at $1.95/litre
Our oil supply is not unlimited. This will help stretch that out, and figure out an alternative fuel.
If most farmers were to use a no-till system for growing corn like they do in North Dakota, not only would they accumulate carbon in the soil at a much higher rate than ever thought possible but they would also save an enormous amount of fuel necessary for the farm equipment. Gabe Brown is an excellent example for this kind of farming practice.
I thought it was interesting how he conveniently left out the fact that a high percentage of farmers use no-till AND cover crops. That fact doesn't fit his narrative.
@@paulschmidt3624 Ok so 20% of farms are no-till. Does that affect the numbers that much? No. But that doesn't fit your narrative.
@@joecoolioness6399 The USDA Farm Census data disagrees with that. The 2017 census puts no-till at 37%, conservation (partial) till at 35%, and 28% of land in conventional tillage. This is from the 282 million acres covered by the census, however, this covers all field crops(not tree crops) which can be drastically different in soil prep. Cereals and cover crops are much easier to go no till, whereas vegetables require more soil preparation. This can be seen in the census data, states with high percentage of cereals/cover (IA,Il,KS) have more no till versus states with more percentage of vegetables (CA, MN).
There are a couple things here I would like to point out:
The land transition study said that the increase in land use was 26% more than the EXPECTED INCREASE in land use, NOT 26% more TOTAL land use. In other words, if the otherwise expected land use increase was 10,000 acres/ year, the actual increase was 12,600 acres/year.
Acres planted to corn fluctuates by as much as 10 million acres/year depending on weather, input costs and the price of corn, and this generally happens in a several-years-long cycle. During this study, corn acreage went from 86M acres in 2008 to 94M in 2016. However, the peak was 2012 with 97.25M acres, where it began to fall off until hitting a low of 89M in 2018. (Source: USDA Crop Acreage Reports)
Also, the vast majority of the "new" acres of corn are from farmers choosing to plant more corn and less soybeans or wheat in fields based on prices for that year, from converting unused grass pasture to row crop fields, or from planting fringe ground that had been idled during years where the price of grain was not high enough to justify planting that land. There is very, very little truly new land being converted into farmland. In fact, farmland acreage has been slowly and steadily declining for decades, as urban and suburban areas continue to grow and take up land that was previously farmed. In fact, there were 48 MILLION fewer acres of farmland in 2018 than in 2000 (USDA).
Thank you for stating this. As a Kansan who's closest neighbor is 600ac of corn, I am really confused by the land use change figures. Added corn acres =/= tilling virgin soil. It may be anecdotal, but I can't remember the last time I saw grasslands taken down and turned over into row crops.
Thank you! It is very hard to explain agricultural statistics to a bunch of lab rats,
but you did a great job.
@@WildcatWarrior15 WE are not in Kansas any more.
I know huge amounts of CRP land was converted back to farmland.
@@danielgerhardson7017 But CRP or (conservation reserve program) land had been in production prior to being put into reserve. Those acres also fluctuate annually.
One thing that is often forgotten about in the ethanol debate is the byproduct of ethanol production. When corn is converted into ethanol the carbohydrates in the corn are turned into ethanol leaving behind the protein, fats, and micronutrients creating a product called DDG's or dried distillers grains. DDG's are a very valuable feed for cattle and other livestock as it is rich in protein which is typically the most in demand, and expensive macronutrient. The beneficial by products created during the distillation of grains is often completely disregarded in the cost/benefit analysis of ethanol.
Thanks, didnt no about it.
This is never forgotten about, and is taken into account in all studies of ethanol, including the one Jason mentioned. Without taking that into account (and it is usually overestimated), ethanol is _severely_ carbon positive.
Cows should be eating grass anyway, not corn nor waste from it.
@Kswa S Are willing to pay the outrageous prices for beef to have grass-fed cattle? A rough estimate would be around $40.00 a pound for the cheapest cuts of beef.
There isn't enough pasture space for the cattle. 3 head of cattle per acre.
Now if we captured all the methane emissions from those cows and converted that to fuel also.
Ethanol is economical in Brazil. Sugar cane grows so fast they have to cut it out of the median on the highways an throw it out for safety reasons so drivers can see over it.
"Many scientists...." Is a statement that makes me think the study is faulty. An unsubstantiated comment like that should never be included in a study without being substantiated.
so true
The way you always integrate the mathematics into the science of your videos makes you one of the few credible sources on the internet.
'Science' has been a term thrown around excessively over the past couple of years and it often gets intermingled with political and emotional ideas. You don't do that and we all appreciate the facts you provide. Thank you.
The left has a big problem with Science!
They are of the mind, that Math is Racist and misogynistic....problem is, Science is defined by Math..
@@fredschnerbert1238 No Fred, the right is anti science in the USA. Not sure what country you're talking about.
@@heathwirt8919 Neither one of you give a rats ass about science you disagree with. Stop wearing it like fashion.
@@heathwirt8919 Talking about the country where a certain vaccine has been mandated in many places, while the manufacturer of said vaccine has legal immunity from the side effects of it.
Indeed. Engineering Explained is one of the single best fact-based channels on RUclips.
Great Video. Could you do one using the Brazil's case? Here we use a mixture of 27,5% Ethanol / 82,5 pure gasoline, but the catch is in Brazil the Ethanol comes from sugar cane, something Brazil's has been farming since 1700s and sugar cane is far more richer to create ethanol (or sugar), also the by-product is burned to run the Ethanol/Sugar mills and to produce electricity in thermoplants.
The USA should be buying ethanol from Brazil instead of growing corn.
Very interesting! but the corn lobby here is SO strong - it was a huge cash-grab for wannabe farmers and investors, so they just ran with it. As others have stated, all the evidence pointed to corn-based ethanol being a joke from the start.
82.5+27.5 greater than 100 percent
@@ajl9491 you are right, wrote on a hurry and made the most basic math error. The ethanol rate is 27.5% so the gasoline must be 72.5%. Thanks for your observation.
@@hotcoffee5542 🤣America is already buying ethanol from Brazil. I'm a little fuzzy on the numbers, but I think that we're buying 20% of our ethanol from Brazil due to the requirements set forth in the Clean Air Act, where we can't get all of our ethanol from one source (corn).
There's a small problem, however: While American is theoretically getting ethanol from Brazil, it's not that we're buying it outright...we're simply trading our corn-based ethanol for the sugar-based variety: The ships that haul this similar product back and forth pass each other in the night.
There are some errors in the UW-Madison study, based on a few smaller Ethanol plants which do use the same processes as the larger ethanol plants. Corn has a higher starch content than other grains. Second in the US cornbelt where most of the corn is grown, they have converted land to agricultural use in about 100 years, the actual number of acres has been reducing because of urban growth. The difference is made up by increasing yields on the land used, Tillage is not quite the carbon sin you make it out to be (and don't listen to lawyers talking about farming in the 1st place). Grasslands are not as effective at collecting atmo. CO2 as corn fields. Corn plants grow a lot faster and the corn kernels make up a small portion of the corn plants weight. All that corn plant is made from CO2 taken from the air and water. Tillage of the corn ground after harvesting the grain sequesters a significant amount of CO2 in the form of Soil Organic matter which further increases soil productivity.
THANK YOU!
You're about the 100th person commenting on this video about how wrong this study was (it was clearly agenda driven IMO), and yet our esteemed presenter ran and hid when people began calling him out for presenting this nonsense as fact. I'm no fan of subsidies (nor of high fructose corn syrup), but fuel ethanol is pretty damn useful, even when it's made from corn.
I can drive you around in a 50mi radius and show you lots of new fields were there were once fencerows, county roads, mature woods, homes, barns, pig-sheep-cattle-goat-horse farms, pastures, prairie grasses, etc. It is COMMON to see a 50a woods one day, and piles of trees burning for a week. I watched a 10a woods completely returned to farmground in 3 days...with a smoldering dirt covered hole for a week. They rarely log before dozing & burning. It is common to see very recently occupied houses & barns bulldozed for 2a of farm ground. I cannot tell you of a single fence row that I know of in a one hour radius of me...unless it is actively holding beef cattle or horses. Wildlife of any kind has no way to dodge predators or habitat to flourish/survive. There is no urban sprawl because landowners will not give up an acre....unless it is to lease a windmill....and I will get off the soapbox before I get going on that.
@@bradleywatt9769 That's an anecdote. Meaning it happened, but it isn't representative of the whole. The amount of land in the US being used for agriculture has dropped precipitously since the ethanol mandates. That's total amount of land.
@@bradleywatt9769 BS your a zrussian.
As a farmer and conservationist in Nebraska, I can tell you there's a glaring piece missing from these calculations. Prior to ethanol, corn was previously being raised to feed livestock. The largest volume by-product of ethanol production is animal feed via corn mash, so corn that was destined to be fed now has the sugars extracted, and is still used to feed animals. In my area, no new land was converted to corn production, and we have no-tillagel farming practices with crop rotation and cover crops, to keep plants growing and consuming CO2 and enriching the soil year round. No-tillage farming practices turn the Wisconsin study on it's head. Also, in this part of the country, the idea of virgin forest or grasslands being tilled or burned to produce ethanol is some kind of myth. There's no such thing in Nebraska and Iowa. If ground COULD be farmed it already was. There's some CRP fields that may have come out of contract and were put into production, but, usually an equal number of marginal production fields are put back in CRP. If you want to talk about environmental impact, it's meat production, not ethanol. But, bacon tastes good... pork chops taste good!
So there you are. Eat less meat. It tastes great, but you do not have to have it every day. Further, if you do eat meat, it is better for your health as well as general land use practices to insist on meat from animals that grazed or foraged. (Cows should eat grass, pigs, whatever they find. Goat and sheep can eat almost anything. Chickens eat well, chicken scratch... bugs, seeds, what they find.)
Of course that's not practical in the high population factory farms, so support small livestock farmers to make the giant operations obsolete. And support the no till /low till growers.
*Although switchgrass development still seems worthwhile. Fuel from weeds. Would kudzu work?*
That is some great input! Glad I came down to the comments
This is the classic example of how studies are so narrow in scope that they simply can't take into account human innovation and adaptation.
Over processed food has been proven to be bad for human health ,and so with other animals.The cattle might not live long enough to have issues and obesity could be a plus for some farmers. Steak house buyers and their suppliers are smart so it would be good to get there take on the best feed for the best meat . Corn mash , corn, sileage , grass feed will work itself out in the market place if gov mandates are abolished Grass fed beef was once sneered at, but now comands a premium
MY first thought when seeing the Wisconsin study was "where is this mythical 26% of land that is untilled". The reason we use corn and not other plants is because every farmer already owns a corn planter and combine.
One of the top ethanol fuel-using nations is Brazil, which derives their supply primarily from sugar cane. Based on studies I read years ago the environment footprint of sugar cane is much smaller than corn.
That’s what America is best at, though, telling farmers to grow a certain crop in massive volumes then rushing to figure out what to do with it. (See also: corn syrup.)
My uncle moved to Brazil and tell me he loves the cheap price of ethanol after a life time buying expensive petrol in London all his life
yeah I smell the corn syrup screw up at pay here to...don't want to sound conspiratorial, but it smells like something was rotten in the decision making process. Vested interests....lobbying....
@@tommydowning4463 At this point "conspiracy theory " is just another way to say spoiler alert. I mean havent we seen the conspiracy theorists right about most, if not all, they have predicted?
You can thank the Corn Lobbyist for that. It was found that sugar beat will produce about 4 or 5 times the amount of ethanol per acre than corn. But the Corn Farmer Lobbyist fought hard to keep sugar beets out of that program even though Brazil proved that back in the late 1970's. From what I remember from a report, Brazil owed the USA a large amount of money they got in loans. They were having problems keeping up with the interest at that time. But they had a huge bumper crop of sugar beets one year that they were depending on to get caught up. Problem was, there was a bumper crop of sugar beets and cane world wide that year and the bottom fell out of the sugar market. Brazil was in trouble and couldn't sell it's crop and was not going to be able to buy fuel for the country. So they sought help from some scientists and they decided they could produce fuel from that crop. They came to the US petroleum industry and they help them with a product that would up the octane to about 100 octane that was not petroleum based. So Brazil turned that bumper crop of beets into fuel. Within a year, Brazil not only paid off their back interest but paid off the entire lone. Brazil became the first mass producer of ethanol and is still the second largest producer of ethanol fuel in the world second only to the US.
@@EIBBOR2654 thank you I learnt something new from you I never knew the history behind it👍
I worked for a company that capitalized on the corn ethanol boom by developing a process that made paint thinner out of it 👍
It was created to help boost the price of corn and reduce the cost of subsidies to the farmers going broke right and left. They were paying farmers to not grow, and they were paid to idle acres. Farmers did not clear land back then. Places like Brazil were clearing forest, maybe based on what effect the raising corn prices caused globally
Here is how the 2007 Energy Independence and Security Act affected food/feed prices(if at all):
2007 WEIGHTED CORN PRICE =$4.20 WITH 4 .7B GAL MANDATE
2008 WEIGHTED CORN PRICE =$4.06 WITH 9B GAL MANDATE
2009 WEIGHTED CORN PRICE=$3.55 WITH 10.5B GAL MANDATE
2016 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MADATE MAXED OUT
2017 WEIGHTED CORN PRICE =$3.36 WITH 15B GAL MANDATE MAXED OUT
2018 WEIGHTED CORN PRICE =$3.61 WITH SAME 15B GAL MANDATE MAXED OUT + MOST ETHANOL EVER PRODUCED
Wheat
2007...............$6.48/bu
2008...............$6.78/bu
2009...………$4.87/bu
2016...………$3.89/bu
2017...............$4.72/bu
2018...............$5.15/bu
Soybeans
2007..............$10.10/bu
2008..............$ 9.97/bu
2009...……...$9.59/bu
2016..............$9.47/bu
2017..............$9.33/bu
2018..............$8.48/bu
Something us Brits have just learned about ethanol in gas is that E10 over E5 reduces MPG by about 5%.... More and more comes up against adding Ethanol to gasoline.
And while a 5% reduction in fuel economy doesn't sound that bad on an individual level, try multiplying it by tens of millions of vehicles having their fuel economy reduced every day.
British Thermal Units in the combustion process of making energy is the factor. Hard to believe that the same factor happens our side of the pond and with the same name! 😎
Yup. Basically ethanol provides zero net energy to gas ..
Ethanol absorbs h2o, and there is enough in any gas station tank to make every drop of ethanol worthless...
Methanol, although nasty, actually produces usable energy in an ICE
that is only because the engines are made for gas, engines made for ethanol are more efficient the Indianapolis 500 is now ethanol,,
Well done. One factor that I'd like to hear more about is the fact that in order to grow corn, we need massive amounts of nitrogen based fertilizers. Corn naturally takes an enormous amount of nitrogen out of the soil. Without ammonia fertilizers we may get one or two seasons of economically viable crops and then the soil is depleted for quite a long time.
So where does ammonia fertilizer come from?
Ammonia is NH3. The nitrogen comes from the air. It has to be separated from the air with massive amounts of cryogenic cooling. That takes electricity. Wich in the U.S. means most likely from coal.
Next, the hydrogen comes from natural gas, i.e. methane.
The byproduct of turning methane into hydrogen is..CO2.
So long before the corn is planted with diesel burning farm equipment, we have already dumped thousands of tons of CO2 into the atmosphere just to make the fertilizer.
I'd be curious to find out if that CO2 was taken into account when calculating the carbon emissions of ethanol.
Corn is a substandard producer of biomass in many regards. For some reason we have a hard on for corn, the government subsidizes the hell out of it, and it doesn't make much sense to me. Commenting on your analysis instead of using corn if we used hemp I don't think you need fertilizer for hemp. And it produces more biomass than corn does by magnitudes.
Ethanol fuel was never about carbon emissions. It persists because for some reason in America, the Iowa Caucuses largely determine who gets to run for President, and Iowa has a lot of corn farmers that would be upset if demand for their crop drops off.
You're on the right path, but that's an oversimplification. Yes it's because of politics, but not due to anyone caring about voters.
Agricultural lobbying is why it exists in the first place, because the corn subsidy from the Dept of Agriculture paid farmers to grow it before it was ever even sold. So they lobbied the EPA to require it in fuel to ensure corn prices stayed high.
That’s not actually what happens with ethanol distillation. Engineering Explained failed to mention the fact that corn ethanol has a useful byproduct that these other alternatives do not, namely distiller grains. These are used as highly nutritious feed additives for livestock.
They use E10 in Europe too. I live in Ireland and we use E10. (E10 is RON 95 with 10% ethenol) we have no way of growing corn on a large scale in Ireland as we do not get the weather for it and yet we are still using E10. So I doubt it is because of the corn farmers.
Get away from lead. Ethanol is a octane booster allowing lower quality of gasoline to be used.
Your "Iowa caucuses" comment is silly. Obama? Biden?
Except a 2021 study said that Ethanol has a lower carbon emissions net
Welcome to the club dear millennial engineer. The inefficiency of corn ethanol was widely discussed around the time of the bill. The problem is that corn farmers are a strong lobby and have made a lot of money from this. Let it serve as a warning for looking for government regulation to solve our problems.
yes, I remember going over this a long long time ago..
Like all the other alternative energy schemes, there is big profit to be made for a few with little benefit to the rest, and usually the profit is in the form of public subsidy, without which they might break even or lose.
@@AnonyMous-jf4lc There is a big ethanol operation that sprang up near my home in the mid aughts, no doubt due to public policy suddenly making it profitable.
Iowa Caucuses.
Not to mention companies like John Deere. There's HUGE money in all those combines.
Brazil has an Ethanol program since the early 80's. It got to a point where most cars were running with cheap 100% Ethanol from sugarcane. I remember being in Sao Paulo and traffic smelled like a Rum factory... The initial program ran into problems with injectors, carburetors and other gaskets going bad. With time all these were substituted with ethanol proof materials and the cars started to run fine. The only gas they use is a small, like a windshield wiper container, with regular gasoline that is used to start the car in cold weather. Brazil was basically independent of Petroleum gasoline for a few years - until politics screwed things up...(I dont believe the Petroleum companies like that idea). At a point there were Tri-fuel cars running all over: gasoline, pure ethanol and natural gas...you picked any of these and the car would run fine by changing the ECU specs at a press of a button. These were Ford and GM cars. Why here is the US nobody ever heard or done anything similar??
I'm brazilian. Today, cars made in Brazil can run on either ethanol or gasoline, in any proportion. Our gasoline contains 27% ethanol in its formula. It is no longer necessary the tank with gasoline for cold start. The injectors heat the ethanol when needed. This technology is employed by GM, Ford, Honda, Hyundai, etc. The idea of a vehicle being able to use any type of fuel is not to be dependent on prices. This technology we call "flex fuel" has been in use since 2004. Before, you could opt for gasoline or ethanol vehicles. Ethanol manufactured in Brazil comes from sugarcane. Depending on fluctuation and market demand, mills can manufacture sugar and/or ethanol. The mills use their own sugarcane bagasse to generate thermal and electrical energy, and they even sell part of this excess energy to electricity concessionaires.
Money and politics
An acquaintance of mine from Europe was here in Brazil for the first time and asked about this smell we could feel the street. It took me a while to figure out she was talking about the cars exhaust, because it was so common for me that it was just a background nois... huh, I mean, background odor.
The problem is that Congress has enacted laws preventing the use of anything but corn for ethanol production, and also preventing any increase in actual sugar crops like sugar beets, by limiting the total U.S. crop to 3x the sugar cane crop, which is limited in the U.S. by climate limitations. They aren't looking for a solution. The solutions already exist. There is still money and power to be milked from the current system, so there are laws to keep that system in place.
Brazil was using sugarcane derived ethanol. The amount of energy gained is higher than from corn because the energy investment is far lower for the conversion. The most interesting ideas in the US that I have seen relate to bioengineering algae as a source. Pluses - better potential yield, less land use. Negative - water requirements. Of course with the Great Lakes, the Midwest does have a vast supply of fresh water.
Switchback grass is an amaizing option. It can be used for ethanol production, pelletized for animal feed and as a fuel source in pellet stoves. It has more BTU per cord than oak.
and it probably doesn't need anything but a mow and watering to maintain and harvest it.
In order to use switchgrass as an ethanol source you would need a ton of land to store bales on. (South Dakota state) has been researching it, we have been doing the baling on it. You would need 160 acres at least in order to store the bales for “slow” times- snow storm and no inventory coming in and so on. Than the other part is ethanol plants are profitable from the byproducts.
Burning the pellets adds carbon 😂😂😂😂😂 that's efficient.
In reality look at the mass of grain vs bio forges the added trucking vs land to store it is hugely diff plus to get the grass to market you will mow, rake, ted, bale, collect and haul bales 3+ times a year. Apposed to planting harvesting and hauling grain one time. Look at the entire system of things
Burning the pellets adds carbon 😂😂😂😂😂 that's efficient.
In reality look at the mass of grain vs bio forges the added trucking vs land to store it is hugely diff plus to get the grass to market you will mow, rake, ted, bale, collect and haul bales 3+ times a year. Apposed to planting harvesting and hauling grain one time. Look at the entire system of things
Impressive to see a "suggested video" that is actually intelligent and well thought out. Not done watching yet, but a side note this, it does keep farms active to function as reserve food production if there is a food crisis, but you probably cover that
Actually he doesnt and the sad commenters on here vilify farmers. Its like they dont eat or anything...oh wait there AI bots!
The complexity of using biofuels has been in study for a while, and the indirect impact really seem to be deal killers in some instances (or
some are way better). Land use as such a big impact. in all agriculture, land use is the biggest impact of it. that is why agricultural Sciences want to increase yield. Producing more on less land has big positive impact on emission reduction.
In any case, this is a excellent video, and I have to say, I like how, at the end, you went for a testing in the negative of that study ( what if they are wrong). which is the proper way of analysing Science. Real good scientific skepticism here.
This is not a just car channel, but a proper science channel :-) great work, again.
Also, I had a friend being impressed with your lighting setup skills. it seem that having a white board with no reflection seem to impressed him haha :-)
With corn based Ethanol; they've always known it was a giant ripoff. It was pushed due the USA's addiction to large scale corruption/bribery. Sorry 'Lobbying'
Like the rest of the Feds; anything out of the EPA's mouth is stuffed pockets lying trash. Cane sugar based Ethanol makes a lot more sense as the production per acre is far higher. But even then it's arguable unless you have billions of hectares of rainforest to mow down to grow it.
lets not ignore the harm of mono-cropping, leaving land dead and barren as we see in the mid-west/rust belt states. These agricultural Scientists want to increase yield production with the use of oil based fertilisers, its one big giant farce.
Perhaps the biofuel sector ends up with some modified photosynthetic prokaryotes or so, in any case the more advanced and environmentally demanding the energetic politics is, the less it should be stuck and committed to one particular direction which may soon render not that great, better fail fast and progress.
Bruh why did you have to blow my mind like that, never even realised no hard shadows just soft shade if that and no glare. How tf 😂😂😂
@@Savantjazzcollective nobody mono-crops in the USA, if only you knew something about farming other than what you see on youtube 😂😂 All you city folk would be starving to death without oil based fertilizers.
Very much appreciate the breakdown. Seems to me this whole "corn ethanol" thing began with the idea that we'd take surplus corn and break it down for fuel. Of course the natural human reaction to this was to make it into a huge separate industry to make a truckload of money. I think that's the part we keep missing when speculating the results of stuff like this.
The original-original intent was to reduce our reliance on Middle East oil. We were barely coming off the OPEC oil embargo when ethanol began to get pushed as the self-sustaining fuel solution.
No, it was designed to precisely do exactly what it is doing. This is the intended outcome.
Regulation is a system. Those who write regulations do not make mistakes like this. They make choices.
I’m not talking about what it’s become today, I’m talking about how it was pitched over forty years ago, back when Carter was in office.
This is the “cobra effect” at work. All new rules WILL be exploited. But with corn ethanol the effect was known in advance.
@@LJ-wo1wf We have more oil than OPEC but OPEC controls it.
The lobbying power of big corn is insane
Navíc v Americe máte genově upravenou kukuřici. Kapitalisté už nevědí, kde nahrabat stále více. (Plus you have genetically engineered corn in America. Capitalists no longer know where to dig more and more)
The point of using corn was to give farmers a subsidy.
Two or three decades ago I read a National Geographic article asserting that ethanol from corn had negative benefits in terms of oil usage reduction, that is, it produced less energy in the form of ethanol than the oil energy used to produce it. Brazil’s ethanol from sugar cane produced 8 times the oil input energy due to a better suited crop and better integration of the biofuel into the production process.
Ethanol from corn is largely a political bonus for farmers.
Look out the plane window when you're flying over the "flyover" states and this becomes self-evident. It's all fecking corn, mostly planted on corporate farms. It isn't "small farmers." It also explains how entrenched interests will lobby (buy off) "representatives" from these same states to simply continue the process.
Iowa should change their license plates to include the motto: "What's our grift?: CORN."
The Indians made a beer out of the corn stalks buy squeezing the sugary liquid out of them and fermenting it! We should investigate how well using that would be, use the corn for food!
I thoghtWilliw gates the n wo pawn bought all the farms in us. So he can mess w our food. Control.our population.
i understand the lobby of the agriculture industry, it is very powerful in Brazil as well, but i am curious as to why sugarcane was not used in the US alongside with corn. Maybe the climate or soil are not a good fit for sugarcane?
@@generalfail7301 Yes, Brazil lies right on The Equator. Only a small portion of Florida and Hawaii can economically grow sugar cane, and in fact they already ARE, but it's only enough for the sweetener market, not bio-fuels.
If I watched a similar video from someone else I would probably still have questions at the end. Not so with you, you go into great detail, you don't gloss over areas that need to be discussed. Your videos are the best! Thank you for your hard work! Take care!!
You gotta love how the pitch for ethanol fuel is “corn grows, we ferment it, a miracle occurs to make white lightning, and then we stick it in a car.” Anyone who’s ever even looked at home brewing has had that brief moment of consideration of going one step further and making moonshine. And it quickly becomes apparent that you have to dump a metric ton of thermal energy into the mash to boils off the alcohol and distill it. Which should prompt the question, “what is behind that heat source and is that being included in the carbon figures?” It obviously wasn’t, there’s no way in hell they could have pitched ethanol as a less carbon intensive fuel source than 87 octane when you consider how much natural gas or coal is needed to generate enough electricity to distill that fuel.
When I worked in an ethanol plant, they used coal to fire the boilers that steeped the corn.
If that was the only problem, that could probably be solved using solar thermal energy - The roof mounted kind. That would definitely be cheaper but Limit productivity proportional to the amount of solar thermal collectors. After all, that is the most efficient way to use solar energy for heat because you skip the detour of electricity.
Great addition, thanks for sharing!
As far as I know it takes a lot of heat to distill petroleum too.
@@onemoremisfit yep, and then you burn that to produce ethanol..
It makes sense, and I’ve never had it marketed replacement for gas. It was a substitute in order for America to not be so dependent on OPEC. Saving the environment was secondary to running out of crude oil. The true goal is the replacement, like hydrogen. If we use electric cars we need to charge the cars with hydrogen or nuclear power. Not coal, or fossil fuel. Either way you slice it, cutting off energy in less than 50 years is not truly achievable as the USA is so massive and infrastructures need replacement as well.
I'd like to see you cover the ocean shipping industry's pollution footprint. Did you know 1 container ship emits more sulfur oxides than 50 million vehicles each year?!? There's around 1.4 billion vehicles in use around the world today that means 28 container ships emit the same amount of pollution as every single vehicle around the world! What's even worse is there's currently 5461 container ships in active service globally!
Seems like if global leaders actually cared about global emissions the shipping industry would be the place to start. Even if we switched every single vehicle in the world to an EV that would only offset what just 28 container ships emit out of 5461.
In the US they cut down trees, ship the tree trunks to China, and China ships back plywood to the US.
Yup and the battery in the EVs only lasts 8 to 12 years, is toxic, unrecyclable, and made of rare earth elements. Of which there is not nearly enough to replace every vehicle on the road today in America let alone the world.
@@snoolee7950 If you drive through Oregon, you'll actually see ships docked semi-permanently. From what I understand, is those are ships registered in China and docked in OR. This somehow skirts EPA and US regulations in some beneficial way for the logging industry and consumers. These ships are why plywood processing actually takes place. So, trees are cut down (sustainably because US/OR logging industry plants new trees in swaths) driven and/or floated to these ships, go in as logs and come out as plywood that is then shipped around the US. So, still bad obv otherwise they would just have a factory do it instead of having it on a boat and skirting some regulations, but not as bad as moving the logs across the ocean.
Again this is what I've heard, someone please correct me if I've heard wrong.
@@osanieslana960 If we look at Tesla batteries in the real world, we actually see 10 yr old battery packs that don't need to be replaced, and batteries that have gone a million miles and are still going strong. And those are basically old technology at this point. Tesla also has a big battery recycling facility that happily takes lithium based batteries and chews them up and spits out new batteries. That process I'm sure is far from clean though, but still apparently clean enough to be done in the US and Tesla didn't build their recycling plant in Mexico or something where the EPA laws are ineffective (Like many are trying to make happen here in the US. Thanks Scott Pruitt and the man/group that hired your ass.)
Prius batteries seem to be another story though.
Buying cheap crap from China and importing oil from Russia and Venezuela....while bankrupting the USA
I read about the benefits of using switchgrass to make ethanol several years ago. It requires far less energy to get ethanol from it. In addition (and maybe more importantly), it is drought friendly and doesn't require draining an aquifer to maintain it.
Or, and this is crazy, we just stop with fuel. Stop burning things to generate energy and just use renewable and nuclear unless something else is found that is better n
@@williamcrowley5506 No
@@thisismagacountry1318 your name tells me all I need to know about your ability to think. Run along traitor.
@@thisismagacountry1318 What is it about people not understanding that "green" energy has a huge cost in terms of carbon footprint and a bigger impact environmentally when they are no longer serviceable? Owner of an "old" hybrid car which is dying faster than the gasoline truck we have. Maybe Will just figures we should all bicycle, skooter and rollerskate.
@@williamcrowley5506 I got this from your Boy, Jussie Smollett.
He screams my name while committing fake hate crimes AND gets CONVICTED for it.
Will he drop the soap?
The consensus is yes.
If it bothers you SOOOO MUCH then ask him why HE said it.
Great job! I had heard others argue that corn ethanol was counterproductive in affecting climate change but never seen such a clear technical presentation as this!
I figured this out when I was a kid. US went from e10 to e15 nationally in the last couple years, gonna destroy so many vehicles over time
You heard wrong information. The Tyler Lark study is bogus.
@@barryallen5507 You must have had a terrible childhood filled with nightmares about fictional monsters. Ethanol is a hero, not a monster. It has never destroyed vehicles...not in the 1800s, not in the 1900s, and not now in the 2000s.
@@TheAutoChannel I was actually a victim of child abuse for quite some time, so I'd wager that my monsters were of the not so fictional kind. Interesting choice of words
@@barryallen5507 It's sad to hear that, but it sounds like I was right on the money, and that you transferred to horrors of those days to fictional horrors about ethanol. Brazil has mandated E15 and higher blends since the 1970s. They have all the same vehicles that we have in America, and they don't suffer from ethanol-related problems. I've been using E15 and higher for the past decade and a half, in all types of spark-ignited internal combustion vehicles, with no problems.
It is a greener fuel, but it won't do any good of you're only using it to mix with gas. In Brazil most cars can run on 100% ethanol.