Does Toyota Know Something That We Don’t?

As the kids are wont to say, "That's just burning fossil fuels with extra steps."

It's all about the claim of non-carbon tail pipe emissions. It's a yarn hippy scientist like to spin to get government grant dollars. @@rockets4kids

The properties of ammonia, eg, vaporizes at an extremely low temperature and it's toxicity at relatively low concentrations effectively makes in to the "poor Man's" poison gas terrorist weapon. This is an inherently profoundly bad idea.

1. Too much pointless gesticulation
2. What is the purpose of background music? It only irritates and significantly complicates the perception of your story. Did you do it just because it was possible?
3. You microphone seems to be broken - the volume varies from low to high. Or maybe it's because of background music?
Bottom line: impossible to watch for more than 3 minutes. Voting down.

You're not a real chemist, are you?

funny i keep hearing joke about people dropping out due to ammonia leak but haven't come across real news about ammonia killing people

Yea, tell me about it. I first learned about ammonia as a refrigerant when there was an industrial accident (ammonia leak) at a turkey processing plant where a relative worked.

@@larrybav No joke, no fun, not friendly to life, and not suitable for any kind of fuel either, but the climate kooks are proposing electric military vehicles now. If depopulation is the goal then I suppose they are brilliant..

@@larrybav
The irony is that you can suppress ammonia vapours by turning on the fire sprinklers and letting water absorb it.

@@cezarcatalin1406 is this ironic?

Do you believe that your chances of survival would have been higher had the same amount of gasoline (which could potentially erupt into an explosive fireball) had been the refrigerant?
Now imagine 10-15 gallons of your refrigerant dissipating - vs the same going up in a fireball - again, you're more likely to survive a well-publicized ammonia leak out of your car's fuel tank, than an sudden explosive fireball.

Car fires in a twin-garage could be interesting, with two full tanks of ammonia in their fuel tanks

Perhaps we shouldn't worry about the negatives until we know if the idea even works. The first place Toyota and GAC have put an Ammonia Engine into is a Container Ship. Batteries are never going to work for shipping, maybe this works? Here's a fun fact - Cruise Ships in Europe put more sulphur into the air than all the passenger cars on the Continent combined do. And that's just Cruise Ships, not Goods Transporters.

My fridge never leaked; but an apartment building was nearly evacuated due to Air/Conditioning leak(good times).

Gasoline kills via fireball. Ammonia can cause instant death in relatively low concentrations, think a single burst tank in a shared garage, by acting as a rapid CNS depressant. Also, it will burn your nasal cavities, make a strong caustic hydroxide on your wet skin and smells horrendeus.
As much as I love it as a fuel (there's already a guy running a car with it), it's not viable for mass production.

Hypergolic propellants always have such a nice warm glow! 😂

no you are more comfortable with lithium fire

That's along the lines of "I love the smell of Napalm in the morning". lol (from the 1979 movie "Apocalypse Now")

@@BillAnt It smells like Victory!

But, if you smell that faintly fishy ammonia smell of hydrazine you better run upwind fast.

That's what I was thinking !
Ammonia smells like ammonia. Once you smell it, you know it forever !

ammonia as in hot springs on some mountainous places? cause i do know when i was a child my mom has amonia rocks from a hot spring, i heard it has its own health properties

"I was told to expect a ...rotten egg smell..."
By WHOM? Your videographer who flunked HS chemistry because he dozed off and woke up when the teacher said,
".. and as you can all smell, this reaction has the distinct odor of rotten eggs..."
He then turned to the wastoid next to him and asked, "What the hell was that effing smell?"
And the wastoid replied, "I think he said something about being stronger than ammonia or something like that or something..."

Remember he was probably told this by the programme producers, who took english and other language or art subjects. Possibly biology by not Chemistry and Physics.
This us one of the reasons the country is in a mess.

Decomposing egg whites *will actually* create ammonia. Don't just dismiss what he said as false because it can make something else.

Yeah, this was the most surprising thing to me in the whole video. I get that ammonia isn't as common an item as something like bleach, but it's still a household item available at most grocery and hardware stores.

@@lonestranger Not to mention a not-so-clean cat litterbox.

Worked on a horse farm. Smelled like ammonia

I agree. He's a fake chemist, clearly. How do you become a chemist without knowing _anything_ about the chemistry of ammonia?

@@undercoveragent9889 Pretty sure he was aware of the smell of ammonia, most people are. He was doing it for demonstration purposes. To teach youtubers not to play with the stuff. You know how they like to eat tide pods.

Or don't thoughts of Timmy McVeigh and Terry Nichols echo a bit- something about an Oklahoma tale... and AMMONIUM NITRATE?? The largest homegrown T-attack in US history. Given this fact, pushback against such a fuel would likely be so-so, only because it happened a while back and 911 is much more impactful both literally and figuratively

Same for natural gas, which is even more volatile.

@@Al-Storm No, natural gas is not able to react with itself while releasing energy. Ammonia can. 2 NH3 + energy N2 + 3 H2 + more energy
Ammonia is a high explosive. It is not that sensitive if there is nothing sensitizing it, but the smoke from a burning ship nearby might sensitize it.

Farmer cousin was filling a tank with anhydrous ammonia and a hose burst. I guess he was lucky enough to be upwind and turn and ran, trying not to breath. He didn't get much of a dose but, it didn't help him much either.
He did have to spend a day in the hospital under OX.

Worked in industrial refrigeration long enough to tell you its more of a complexity issue than anything else as to why we don't use it domestically.
Also can confirm, that shit HURTS when you get a lung full but after a while you hardly notice it.

Yep. NToyota are unremittinngly silly - now to the point of stupidity - chasing hydrogen and now ammonia. Apart from the toxicity to make the stuff carbon free (from renewables) requires huge quantities of electrical power and you are literally throwing half of the power away from the start. Then you have add massively costly ammonia (or H2) distribution + handling infrastructure to construct - all likely to put it in the end back into a fuel cell in your car (itself of limited life and high expense) to turn back into electricity and power a motor. Why not cut out all the multi middle-man chain and concentrate on batteries Toyota?

I agree.
Further, has anyone calculated the cost of producing NH3?

@@RUHappyATM in bulk, you can buy it for ~$0.75/gal. At 1/3 the energy density of gasoline, that comes to about $2.25 for the same energy as 1gal of gasoline. Not that bad a deal apart from needing a 3X as large fuel tank and all-new infrastructure to handle this highly caustic stuff.
Cellulosic (plant waste) ethanol is about 50% more expensive but doesn’t require much if any new distribution infrastructure, should work with most semi-modern cars with little more than an injection table tune-up and would be safe to drink were it not for gasoline contamination and additives, some specifically selected to make it unpalatable so people don’t start using E100 as a vodka substitute.

@@RUHappyATM Ammonia is already produced in vast quantities by Bosch-Haber process for agriculture (on level of gasoline) and cost is very well known.It's similar to gasoline in terms per Tonne - less in terms of energy liberated. The problem is all ammonia is currently produced using carbon fuels . If you don't chnage that and are not concerned about planet Earth you may as well carry on producing and burning gasoline. If you want to produce ammonia in green way (using renewable or nuclear electricity) that will likely cost significantly more. But it will be known.
Batetry electric is best bet by far.

There is a RUclips video of a guy working on cleaning a DEF Diesel exaust system that uses Ammonia as a burn agent to process NOX in the exaust. He got violently ill while doing the shoot. He ended up in the hospital for quite some time, as they ran detox agents through his blood. It alomst killed him. He may have permanent damage.

@@barrettabney DEF is urea or AdBlue as a marketing name. It's not ammonia but will probably release ammonia when heated to glowing hot temps.

NH3 tank pressure is high, and accidental venting is dangerous, so all systems would be designed to make the kind of thing you're imagining nearly impossible.
Kind of like the way we don't have gasoline fires or poisonings at every gas station.

@@barrettabney GUESS WHAT'S IN DEF ALREADY

Like "gray" hydrogen

yea, but this is an stationary source, and for a Nation-State lead project so it can be contained or otherwise used in a way that keeps it out of the carbon cycle.

Yes and it's a problem, but gasoline ALWAYS emits carbon when burned. The emissions for ammonia is in the synthesis, so discovering an emissions free method decarbonizes ammonia and you can never decarbonize a hydrocarbon.

The method we currently employ does create CO2 but that is not a requirement of the process. At it's base, Haber-Bosch takes nitrogen, N2, from the atmosphere, split it catalytically and combine it with hydrogen, H2.
The basis of the (very) high CO2 emission from the Haber-Bosch process is a) how we get our hydrogen today and b) the high energy needed to run the process -rapid heating, high pressures, rapid cooling and back.
Today we make almost all the hydrogen from methane in natural gas and the energy for heating and pressurization is also provided by the natural gas. Change the source for the hydrogen and use renewable energy and you could have a carbon neutral production of ammonia.

Didnt you see last video about Bosch Prozess. In the future it can be that we dont need to use fuels to produce ammonia ;D

Actually the first place Toyota and GAC have put an Ammonia Engine into is a Container Ship. Batteries are never going to work for shipping, maybe Ammonia works? Here's a fun fact - Cruise Ships in Europe put more sulphur into the air than all the passenger cars on the Continent do. And that's just Cruise Ships, not Goods Transporters.

Actually the first place Toyota and GAC have put an Ammonia Engine into is a Container Ship. Batteries are never going to work for shipping, maybe this works? Here's a fun fact - Cruise Ships in Europe put more sulphur into the air than all the passenger cars on the Continent do. And that's just Cruise Ships, not Goods Transporters.

NO ! Diesel is NOT being abandoned, bur supplemented with DEF to reduce exhaust emissions . What would the OIL Companies do with all that Diesel fuel if they cany sell it ???

Diesels are pretty much worse in every type of emissions compared to gasoline engine, other than thermal efficiency (i.e. CO2), which still has only a marginal lead.

uh. we are not replacing diesel. and we are not going BACK to liquid fuels because ev's have not replaced a single internal combustion engine. the number of conventionally powered vehicles has increased every year since the useless ev first hit the market.

thats 95% of 35%. Do you even know the logic if this lol? you are still using a combustion engine to make the electricity.

@@System0Error0Message You missed the bit where it was fuel cell not a combustion engine. Hydrogen fuel cells are ~65% efficient, so ~61% overall.

@@pigsnoutman i did not. You still need to power the process and that comes from the 35% engine allowance. What makes a hybrid efficient is being able to use the engine efficiently at low speeds

That the best way to go: To make a fuel cell and use electricity to power an electric motor. There are also Direct alcohol fuel cells. Consider that 1 liter of ethanol has around 8 kWh of energy. That outclasss any battery available today in terms of wh/kg !

The electricity is generated from catalytic conversion of NH4 into H2 and N2, then fuel cell conversion of H2 into H2O. Where's the combustion engine? The problem lies with the CO2 emitted when the NH4 is synthesised (not in a combustion engine - lol)@@System0Error0Message

Great point !!

And never going to leave!

It's not about footprint. It's about round trip efficiency.
For example, 'green' hydrogen (made from electrolysis) has a round trip efficiency of ~25%, meaning of all the energy you start with, only about 1/4 of it can is actually useable to you in the end application (like driving your car). Batteries, OTOH, are over 90% efficient. That means we'd have to build ~4x as many solar panels, wind turbines, etc., to make hydrogen as opposed to just using a BEV. And all that extra production isn't cheap. Hence, running a car on hydrogen will always cost 6x-8x more than a BEV regardless of infrastructure or scale.
It seems the round trip of efficiency of ammonia (energy needed to make it v. energy that can be extracted from it to do work) is around 20%. If that's correct, then we can rule out making ammonia as being affordable. So unless there are sources of natural ammonia that don't have to be manufactured, it isn't happening. And even if there are, then it's not renewable.

Since it takes 3 liters of ammonia to move a car the same distance as 1 liter of gasoline, we need to triple the ammonia footprint. Carbon produced per km traveled is a nice metric that detaches it from what happens at the car and considers it AS A PLANET. Also, what's the "footprint" when there's an ammonia leak? (hint: It's a lot like Godzilla's foot stomped on your community.)

This is a great point, and I think if you researched, you would find that Ammonia's carbon footprint is very kind compared to all other options.

Hydrazine is horribly toxic. Now drag racers use nitromethane which can blow engines as well

Comparing NH3 to gasoline, it seems silly.
But compare NH3 to pure hydrogen. It's far safer, has exponentially better energy density, etc. etc. etc.

Hydrazine is literally rocket fuel.

@@EHoser1 Little fun fact, there are mushroom species that, when metabolized, literally pump your liver full of mono-methyl-hydrazine!

eh, I have a bunch of liquid ammonia kit from my days working industrial refridge, its not like its magic..

Exactly. extracting a fuel takes 0% or more of the energy contained in it, but manufacturing a fuel takes 100% or more of the energy contained in it.

this isnt explicitly true, modern gasoline, specifically the kind burned in cars has a LOT of refining steps in front of it.
Realistically the correct way to say that statement would be "extracted fuels can be

you should realistically be including all the refining done to oil, as well as the additives, and further refining done before it gets put into a car.

I am confussed ,, so .. what is the answer to no MORE CO2 ??? How are Northern Nations supposed to survive 6 to 8 months of Winter????
Natural gas can broken down into it's base elements,, Propane, Methane,, Amonia
,, In Canada,,, Quebec was runnig out of propane to heat and run the ruaul areas in 2020.. due to Indigenous Blockades of the railraods,
The federal Goverment went out and , negotiated an agreement with the Indigenois Peoples,, (which they """"have """" NOT houred ) to keep the propane running to Quebec....
seems to be,,,, that some policies work for the benifit, of the, 'few',, and not the many

Interesting timing seeing this video. I saw an ad yesterday, they mentioned using the idea to transport hydrogen as ammonia, and turning it back into hydrogen. that's probably the only reason I clicked this video.

you cant really process fuels to burn cleaner, with petro products i suppose thats true. But certainly not with coal. It's easier to extract contaminants after having burnt it, than it is to process it, and then remove the contaminants, and then reprocess into a burnable fuel.
It's easier to do that with petro but even then we still have catalytic converters on cars for a reason. Realistically the only universal trick here is having as complete combustion as possible.

all the products need energy to extract and process. You ever seen a petroleum stream design/plan? The idea here is that since we produce ammonia industrially anyway the system is already in place, and replacing carbon means less emissions compared to the energy needed to make a hydrocarbon fuel. Hydrogen is a fuel as well and anything combustible is a fuel. check out what rockets have been using as fuel and im sure you cant dig petroleum out of the ground. same for rocket fuel.

@@System0Error0Message Umm ammonia would emit nitrogen and nitric oxide right? What effect they have on the environment?

@@WhiteGeared my point was mainly that it doesnt need to be carbon to be a fuel, as it is the hydrogen in petrol/diesel that is the main combustion with the carbon acting as a carrier. The more hydrogen a molecule has the denser it is in energy (basically 1L producing more, why diesel has better range than petrol). Hydrazine has nitrogen and hydrogen. In all cases think as carbon or nitrogen as the hydrogen carrier. In nitros for cars, the nitrous oxide is an oxygen carrier. What matters is the purity of the fuel and what comes out. A bad combustion would produce incomplete combustions but our hydrocarbon based fuels have Sulphur in them as well. So the 2 main factors are, how much carbon, and how much pollutants and how much energy it takes to make the energy. And sure ammonia might not combust perfectly but testing needs to be done.

@@killingtimeitself Have you heard of cocke ovens? They remove contaminants you don't want in your steel from *coal.*
In a blast furnace the fuel is burned directly within the iron oxide feedstock, so there wouldn't be the possibility for removing contaminants from the products of the burning.

100%, unless he's lying.

Mechanics wash parts with hydrocarbons all the time. Painters wash their brushes with it. Woodworkers clean surfaces with it (naphtha.) There's really no comparison to a gas that's toxic and corrosive at even low concentrations.

Yeah, he mentions the innumerable tons produced every year, but not that 99% of it is tilled into the ground.
"Brawndo! It's the electrolytes that plants crave..". 🤣

@@jimurrata6785 Lol, nice reference.

Ammonia is very versatile and can be produced from wind, solar, nuclear, etc.

Congrats to you and your dad on the conversion ! Propane is a cleaner burning fuel than gasoline though a slightly lower energy level,... Propane loves compression so the power can be made up there. HOWEVER, Propane is very dry, runs HOTTER than gasoline and can cause exhaust valves to burn ! Propane engines are setup with sodium filled valves and Stellite valve seats to take the higher heat along with larger cooling passages in the heads . it is generally lower in fuel costs too. The difference in the 1-2 MPG loss is more than made up for by the lower cost,... sometimes there's no milage loss with the newer F.I. engines . My Dad converted his 1968 F-250 to Propane in 1970 ,... had a 390 C.I. engine and ran great till it burned a valve 2 years later. His major complaint was the lack of gas stations carrying Propane and was afraid of running out somewhere on a long trip . PETROLANE,... the propane company that did the conversion supplied him with a booklet of dealers and stations that had propane, so that helped some. In 1970 when Gasoline sold for 32 -34 cents a gallon, he bought Propane for list,... 17 cents with a 4 cents Federal supplement discount ,... so 13 cents a gallon ! He loved it ! Propane and Natural Gas are both good fuels and cleaner burning ! The Propane infrastructure isn't as large as gasoline and would have to be vastly expanded to handle the millions of cars today !

AND THAT'S STILL NOT PURE AMMONIA, JUST HIGHLY CONCENTRATED AMMONIA SOLUTION! (If you stood in the cloud produced while pouring liquid ammonia into a swimming pool it would DISSOLVE YOUR EYES AND SKIN.) BTW, mixing ammonia solution with water containing pool chlorine is a bad idea as it generates of chloramine gas. I have to assume you are treating (near) unchlorinated pools.

I personally don't think we need to be promoting something as dangerous as liquefied ammonia for powering cars. On that note, a Chinese researcher published a paper on the feasability of a HYDRAZINE-air fuel cell powered vehicle- now that sounds scary.

In real-life applications, only diesel engines reach 25-30% efficiency. Gasoline is even worse - at around 15%-20%.

If they took the $billions wasted on H2 and every other hair brained car tech Japan has conjoured and used it to build out strategic materials capacity, they wouldn't be driving off a technological cliff like they are today. Lithium has Many sources now and Tesla is building their own refinery for less than $1billion. They also came up with a clean/cheap way to extract it from common clays. There are also Massive reserves at the bottom of the Salton Sea (California) or other briney lakes (the Great Salt Lake/Dead Sea).
They Have Panasonic and can work with Samsung and LG in Korea to help build out their local battery capacity.
Tesla has built a new type of motor that uses no rare earths but is nearly as efficient.
Toyota is cutting off its nose to protect its face.

It's more than that. The Japanese can't deal with losing face. Toyota have made some terrible decisions about Solid State Batteries, Hydrogen and now Ammonia. They simply can't admit that they're wrong, it's culturally impossible, especially when it's the family business and you've made the wrong call. Even his successor can't escape this because shaming the President is not acceptable.

Where is the methane coming from? Couldn't they more economically make electricity with a fuel cell?

Pee Powered Car

Gas hydrates in the ocean?

Yes correct.

Or they could just use Nat Gas. We already have ships powered by Nat Gas and it burns Much cleaner than bunker oil or Deisel.

Octane has nothing to do with combustion rate.

@@methylene5 While you're not incorrect, it also doesn't negate the point of the original comment. What's the point other than being pedantic?

@@scottleggejr Octane has nothing to do with combustion rate, I wasn't labelling anyone or throwing insults. That appears to be more your style. Besides, if you knew anything about engine tuning and how octane rating is applied, you'd understand that what I said is very relevant. We have many fools who add diesel (often cheap agricultural diesel) to their gas tank because they think slow burning diesel has a high octane. Actually, it has a catastrophically low octane despite its slow combustion, and many have ruined their engines. So other than ad hominem attack(s), do you have anything constructive to add or was that it?

@@methylene5 nothing about what I said was any kind of "attack" at you. It would be like if my only reply was "diesel has cetane"
He's not wrong though. You can add boost, design quench on the piston/head, change bore/stroke, and cam profile to adapt to slower burning flame walls and higher octane. Look at 2000+ hp methanol engines as an example of "not typical yet highly performing"

@@scottleggejr So you guys think Toyota doesn't know that increasing the compression ratio increases the combustion rate. Wow, such expertise. Perhaps you should get in touch and pass on your wisdom to them. The moon isn't made of cheese, whoops that's just me being pedantic again.

how is this relevant? Gasoline spills aren't better and neither is diesel

@@THESLlCK or oil spills that happens in accidents when you drill up oil

@@exeexecutor those don’t really happen that much anymore. Train derailments are the worst we deal with now.

hey s-s, your entry cot my eye. and clarifies a misunderstanding i had.
thanks for making your contribution to this ammonia / fuel topic.
now i need do some homework. and re-learn those factors that let
one determine the amount of dissolving. Ksp or something similar ...
also want to clear up if
a solution made alkaline w/ NH4OH can be heated to drive off
the ammonia and thus have its pH lowered.
this appeals if it works for not needing some pH-down chemical
like H2SO4
where would you send a person to learn more about the chemistry
of NaOH and Na2CO3 and NH4OH solutions ? and how / not
interchangable they are ...

Chemically pure ammonia is vastly worse. The fumes are like tear gas. We were warned in chemistry lab to Never sniff it. One guy did (of course) and we pulled him out of the lab (in fetal position) and gave him eyewash. He was incapacitated for some time.

​@@avgjoe5969imagine he he got knocked out and someone tried to revive him with smelling salts.

wdym

@@aeriumsoft if the title ends with a question mark - answer is NO, and the video proves just that.

@@VEC7ORlt My take-away from the video is a Yes, Ammonia engines are much more plausible than it would seem at first. The next big question is if it could be produced affordably at scale in a way that doesn't generate CO2.

@@mrmaple 'much more plausible' tells us F all - there is no engine, nor there is fueling infrastructure, no manufacturing, just a lot of ifs and buts, in other words not a good place to start.
Frankly it's the same with hydrogen...

is delay the inevitable , combustion engines got is day counted

And some French produced gas from wood that they stored in enormous bags on the roof of the car, or actual gassifiers mounted to the car. The gas fed into the engine and allowed the car to move. But just because something is possible in the most dire of situations doesn't mean it something we should be looking to adopt when situations aren't dire and where better alternatives exist.

@@drxym , you're getting off subject, Toyota is working on ammonia power, it has been used before, with modern high tech methods it could be as advanced as the first electric cars in 1900 to current electric cars.

just another toyoda smoke and mirror bs cover up of their bad decision of leaving tesla partnership@@rickfarwell4110

yes, but,, oil,,will never run out.. this is why other alternatives, are suppressed.. like sodium reactors,, free energy, clean..

When you oxidize hydrocarbons you get carbon dioxide and dihydrogen oxide. Everybody running around and talking about "carbon emissions" has really dumbed down the populous. Now half of people think carbon is bad. We're made of carbon. Are we bad?

@@andyharman3022 I feel like the "zero carbon emissions" logo will lead to the end of us. It is so short sighted to only look at the very end product and not the entire process to get there.

Toyota always had good representation at the Ammonia Fuel Network conferences! For many years, it seemed Toyota was going to make a move in this direction, and they never pulled the trigger. Now it seems they decided to go with Hydrogen, which was a strange decision I thought, since Ammonia is just an easier way to bring Hydrogen to mass scale.

Given nuclear power to produce the ammonia, energy intensity is not an issue.

@@factnotfiction5915 *True but Nuclear Power will not reach maturity for another 60 years long after gen "Z" has been hit HARD in their pocket-books and "GREEN-LIGHTS Nuclear like France has. It takes a long time to build a Nuke Plant these days.*

How would you go about synthesising it onsite in a smaller scale? Wouldn't Haber-Bosch be too dangerous and bulky to use?

No that's completly idiotic, what ever university you went too you should ask for a refund. If you want to store electricity you dont turn it into a chemical which then needs to be burned, you would be loosing 90% on the round trip. Electricity at grid level is best stored in pumped hydro, flywheels or batteries. And if you just want to just make any industrial process, particularly chemical synthesis powered with renewables then you MUST convert that green energy into a steady source first because constant stop-start is going to ruin nearly every chemical synthesis as well as ruin the utilization time of the equipment and capitol investment.

quiet you @@kennethferland5579

Yes ammonia has poor specific-volume energy density compared to conventional hydrocarbon fuels, but do the same maths for hydrogen and you'll be astonished. Then when you pick yourself off the floor, do the same for whatever flavour of battery chemistry you care to select, typically used in an EV. Energy density is not the chief problem here; toxicity, ignition, flame speed and the need for a pilot fuel or an on-board cracking plant are. Most of these issues have resource being thrown at them to fix them. Storage of ammonia is not a problem as it has very similar requirements to propane (a 10bar pressure vessel is enough). In fact, the ease of carrying around liquid ammonia makes it a strong candidate for a hydrogen storage medium (avoiding the need for a 700bar pressure vessel).

Most of the world's electricity isn't green or pink. And EV/battery mfg isn't even close to green.

It is already used on many container ships.

@@NH3EnergyPlus I've heard of new ship engines which support multiple fuels including Ammonia, but I was unaware that ships were already using Ammonia for fuel. Maersk is looking into it for new container ships and ammonia carriers. For now, I thought LNG ships usually use natural gas as it boils off and most other ships use bunker fuel. It would be great to hear about a ship where ammonia is already used for propulsion.

"Contains more oxygen" is the wrong analogy. The fuel just requires much less oxygen to combust, so much more fuel can be burned relative to air in a fixed displacement motor. The much greater amount of fuel exceeds the lower calorific value of the fuel, so more power.

@andreasdinkelacker6729 I didn't say "carries more" i said "contains its own" if you're going to quote me, get it right. but, if thats all you have to "nitpick" i'll take that as a win.

The simple answer is because that's what the oil companies have to sell ! The results of oil refining yield huge amounts of gasoline and diesel, so that what we get ! Brazil changed it's Fuel Based economy from gasoline to methanol years ago and is doing quite well for it ! But the USA where Standard Oil Company, aka Rockefeller , took control over the oil industry in the late 1800's then with gasoline in 1900's , they aren't about to give up what they have controlled for over 100 years without a major fight !

What's the benefit over liquid hydrogen?
Easier storage?

@@Yora21Yes

Just another way Robocop has predicted the future....

I work with ammonia as part of my job. The thought of cars driving round with ammonia tanks makes me want to work from home. Ammonia works but it’s for professionals and controlled processes only.

This! X100

@@javelinXH992 And yet we drive about with 15 gallons of a _much_ more energy dense liquid in the tanks.

@@UncleKennysPlace Sure but I’d stand next to an open 10 litre bucket of petrol or diesel. You wouldn’t get me anywhere near a 10 litre bucket of ammonia without my respiratory on and sealed eye protection.

interesting! any chance for this to work? would be much smarter way to do it.

SOFCs should catch on soon

Liquid fuels are a vector. If ammonia filling stations exist then hydrogen fuel cells can run off an ammonia reformer. A hydrogen fuel cell car with an ammonia reformer is useless to any customer if there is no filling station.

1_ How is Toyota way past 40% on combustion engines?
2_ Fuel cells may be 80% efficient, but ammonia brings the need to extract the hydrogen from it, further diminishing efficiency.

You have a car crash. You might be injured. You're unable to get out and away from your wrecked car.
While sitting on a growing puddle of ammonia.
Not a pleasant way to go.

Look up heat of formation for ammonia.

It is very handy as a hole digger or a fertilizer.

Explosiveness and energy density have almot nothing to do with each other, most explosives have lower energy density then wood.

There are ways of producing ammonia that don't require going through the standard haber-bosch process and are co2-neutral, they just haven't gone mainstream yet for various reasons.

It is a project developed for a state actor, so expense is taken into account but the international reconition is the goal not profit.
And industrial fumes of any kind can be trapped and packaged reacted whatevers needed at a cost.
See where I am going with this?

@@rfldss89Would you mind listing some of those methods? I’m trying to find alternative ways to produce ammonia on my own and the only other way I know is the boiling pee method.

@@AnonymousAnarchist2 Uh, no, could you elaborate and be much more specific? And make sense?

@@jamesvandamme7786 He's saying it's not about profit/viability, it's about virtues. Just like BEV are a massive compromise compared.

There was also a lot of inconsistency in the voice quality. Perhaps a good wireless mic would solve that problem.

You bring a nice point: industry experience with ammonia in refrigerations systems. I wonder how much the smell has been fixed since last time I saw an ammonia one 30years ago.

Except when it leaks, and everyone on board dies...

the monseigneur claude principle somewhere in haiti surface water warmer than cold water from below power station around 1900 check it einst

Thank you, it appears you didn't finish the last word, but look like you were typing Einstein. No, I'm certainly no Einstein. As I said in my comment, I didn't remember the details and since I no longer have the magazine I can't say exactly what it said. All I know the Navy did it and it seemed to work if I recall. You're right about surface water being warmer than below. I believe that's what I said but I have been known to get things backward. Not often but sometimes. @@user-vo2xb9de2k

I reread my statement and it appears I wasn't clear about pumping the liquid ammonia up. I said to the ship, but didn't say anything about the water at the surface being warmer, which I suppose was why the liquid became a vapor. From what I understand about it, liquid ammonia becomes a vapor at a fairly low temperature. I'm sure there were detail I forgot. After nearly 50 years I'll forgive myself for forgetting a few details. lol. @@user-vo2xb9de2k

More like 30 minutes now.

Crazy, must just be for clicks.

You heard the part about it having a fraction of the energy density of Gasoline?
That means you would need alot more to go the same distance.
The Cost would also be much higher than Gasoline or Nat gas.
Building a huge infrastructure around this would be a colossal waste of money and time, especially given the rapidly improving battery tech.

@jimmytiddlytoo8160 Sadly it would make no sense at all.

A little better than hydrazine?