Will be interesting to see how Tesla adapt to different markets. In some EU markets like Finland and Sweden some highways allows 34.5 m and 74 metric tons. While other use and in many cities, they have to be able to drive in narrow streets. Also, there are regulations how long a driver is allowed to drive, and charging can be done during resting period.
That depends if you can get the charging time to coincide with the rest period.. it's something that happens for real world truckers of course; the regs say you must rest NOW but you just put fuel in the truck and stopped for coffee.
5 месяцев назад+1
The range is not something people discuss in Europe. What is important is to adapt to regulations for different markets and needs. Probably that is why Volvo corp has close to half the market of heavy electric trucks. And electric buses all around in cities as well.
Having half the battery capacity of the Tesla means that the Freightliner and Volvo can take higher payload since the battery is lighter. So they are moving more freight using the same amount of energy.
The Tesla Semi is already able to reach 44,000 to 48,000 lbs net weight, so it's able to cover the majority freight loads at it's battery capacity and is within a few thousand pounds of diesel trucks legal limits. The Volvo and Freightliner don't have a payload advantage
Interesting data. It's too bad that the companies are not giving real world data. I am retired but worked for Pepsi (Tulsa) Several trucks (OTR) did daily runs to the Dallas warehouse (250 miles). Their return trip were never empty. Deadheading is loss of revenue. Anyway, good reporting. Cost analysis would be nice info too. EV cost per mile vs ICE.
Seems like they are better than I thought they would be. I thought they would be fine especially for local deliveries. Once they get the megachargers in place it will be easy for them to go across the country. Not sure what the charge times are.
With the current 750 kW Megachargers, 80% SOC in 1 hour, the remaining 20% in another hour. Most operators will probably only charge to 80%, unless they have a really long leg, fully loaded, after they charge; both to minimize charging time, and to maintain battery health. Reducing the load somewhat from 43,000 lbs. will permit the rated 500 miles on 80% charge, or they can carry a full load but only go 400 miles. Statistics show that 83.6% of trips are under 400 miles, so this will usually not be an issue.
@@davidsoom1551 The truck is no more then 4000 punds havier then a diesel. EV trucks have 2000 extra payload by law. Tesla semi also have the hardware capability to drive themselves and will in the not too distant future. Also consider that this is the worst the technology will be from now (as in, it will only get better). It s not a fail, it s the litteral future! Do your research, invest in Tesla.
@@davidsoom1551 Imagine two things: world would as well realized that global warming is a problem. And second is that america is the only worldwide producer of oil who‘s politically not problematic / not autocracy. Every gallon of oil used strenghtens iran, uae, russia. So it might be a good idea reducing usage of fossiels as possible from both perspectives. This does not mean that every car, truck and so on needs 100% to be replaced. E.g. a company producing heavy iron parts won‘t change to electric within next years probably. But for many many loads an electric truck matches good. And it helps. Additionally it is possible that the costs per mile are lower than ICE trucks (this needs to be provef by time but it looks like the concept of ev is pretty strong in low repair costs). So it is a win-win for everyone if there are companies who are capable of habdling their loads electric. I will never understand why people hate „cost reduction“, „weaken autocrats“ and „enviromental care“ with the point of „but you cant go 1000 miles with 5 tons of metal parts with the toy trucks“. Thats just silly…
@@terrygirgich643 No he didn't. He said they hauled different loads but not a single digit telling what the loads were. Why did you say that he said what he didn't say?
@@skunkjobbhe said you don't know what their hauling so you can't make a direct comparison. He literally said that multiple times. The whole apples and avocados thing remember.
Being "maxed out" at 82K lbs still doesn't tell us how heavy the payload is. Without this, we're not learning anything. And a company that wont provide this most important of information in specking out a truck, they're hiding vital information. Go spec a transport truck. I don't think you're going to find a transport company that will purchase a truck that doesn't provide all the specs. No jumping to conclusions necessary if they aren't giving you all the specs. They're hiding something vital.
I stumbled across some data in the video I did for WattEV. At the 5:55 mark I summarize the info. ruclips.net/video/6Okmg6PpmAA/видео.htmlsi=JEowzdcH0-JOJ25V …basically, yes I am still looking for hard data on how much more a BEV Tractor (or Hydrogen Fuel Cell) weighs more than a Diesel. I’ll be sure to make a video if (when) I get better data.
@@RichardRoy2 The range is with a full load (82,000lbs GVW), no total elevation change, at an average of 55mph, with a temp around 70°C/20°C (though low temperatures don't matter nearly as much with the huge battery pack). This is what they're experiencing real-world with third-party testing, not just Tesla's/Elon's claims.
Charging to 100% is not that big a deal provided you don't leave them at 100% - I'd say they've sorted out their charging so it finishes charging just before it begins the next route.
I don’t know their plan, but 100% is probably not 100%. Tesla did that with their cars, the software limits how much you can charge to and discharge to.
_I only see a brief moment of regen braking, right after summiting Donner Pass on the way up_ Actually, there's *more* on the way back. There's some significant regen braking just after topping Donner Summit on the return leg, including picking up almost 2% SOC starting at 9:55.
Which is fine. Charging to 100% isnt bad for the battery as long as you dont store it like that for days. If you drive shortly after its fine. Its way worse for the battery to discharge it into the single digits.
@@TheDude50447 But it does increase dendritic formation which does reduce the life of the battery. Of course the chemistry matters and for lfp you are right- but tesla insists on nca and it really does reduce the life of those.
Lithium ION batteries are limited to 80% as Lithium metal precipitates on the electrodes at high charge levels. Lithium Iron Phosphate batteries are recommended to be charged to 100% at least weekly on the other hand. (Tesla manual data).
The SoC data being published is almost certainly the "useable" SoC after the BMS calibration limits have been applied ie when the data says the truck is charged to 100% the battery cells are NOT actually at their peak voltage, merely that the battery has been charged to the level which the manufacturer has selected. Typically for an HGV application there will be something between 10 and 15% buffer capacity that is not "useable" at least not when the battery has a 100% SoH.
The charging limits have nuances. It's not charging above 80% and depleting below 20% that is the problem. It's leaving the battery outside of that over time. So for regular driving you can use the whole range, just charge all the way and go and then charge above 20 when finished.
I believe this is wrong. The phisical access and expulsion of electrons is what damages the battery. The dynamic nature is responsable for the degradation.
@@lucadellasciucca967 No, drawing current from a cell does not by itself damage a lithium cell. Torgrim is accurate in what he says about the dwell time at high and low SOC if you look at SEI and CEI degredation. If you looking up the webinar with Dr Jeff Dahn Dalhousie for EV battery health or the Engineering Explained video on how to ruin your electric car's battery, you'll hear the same suggestions. However, they go a step further and argue that charging and discharging above or below nominal causes the cells to expand and contract, which causes stresses in the crystal structure, contributing to fractures that opens up more surface area to consume lithium ions and other material and turn it into a CEI layer that degrades capacity. Your right that high discharge rates CAN cause damage due to the internal heat buildup, but not on the mark that its because of the electrons. Yes the discharge is evolved by drawing electrons, but the dynamics you speak of are all related to the structure and chemistry inside of the cell dominated by ion flows.
And “recharge” in about 10 minutes. All while carrying a bigger load. Oh and they are cheaper to buy and to maintain. So where is the economic incentive for companies to switch to electric?
I .? the maintenance part of diesel truck and you have to add up the time to maintain the diesel truck? I could be wrong. Could you tell me what maintenance the electric truck need I know braces may last 4 to 5 x longer no oil change,oil filter and a of other item
@@prof.crastinator It s called money savings. It happens in maintainance and fueling. Writing words on a youtube comment doesn t make them true xD Do your research, invest in Tesla
@@lucadellasciucca967 Where is this money savings, exactly? Guy who literally just wrote something in a you tube comment and expected people to believe it? 1. Tesla semi costs more initially. (More than double) 2. The infrastructure needed to charge quickly (still not very quickly) costs millions, negating any fuel savings. 3. The packs tesla uses (nca chemistry) cannot last the lifetime of rapid charges that these semis will require. A diesel truck lasts from 500k to 1million miles- a tesla semi will need multiple pack rebuilds or more likely replacements to last the same- these will far outpace normal maintenance on a diesel semi. 4. Then there is the 1/4 the range, 3/4 the load and much much more downtime while charging… Where is the benefit!?
@@prof.crastinator Can t wait to see your face when semis are all over! xD Good luck mate. Oh and i didn t ask anybody to believe anything. I don t care! The lower the stock price the bettere for me! Don t buy people! For the love of god, don t do your research!
Imagine if we had a technology that could be electric without needing batteries. You could also hook a ton of things together to decrease the number of drivers and reduce other inefficiencies. You could even use steel wheels and put it on some kind of steel guiderail to really increase efficiency. Electric long haul freight is a solved problem and electric long haul trucks are not it
The Internet says a trucker can average 605-650 miles a day over 11 hours. Throw in a team of drivers and it's limited to the range of the truck, maybe 1200 miles+ with the right setup. Granted this isn't what a beer or soda guy would do. The Tesla semi weighs, 20-27k pounds while a common Kenworth t680 weighs 14,2000. That's a lot of lost freight and miles. Marketing stunt it would seem.
I keep saying the Edison hybrid semi can do everything the Tesla can without even being built for highway use. How a 27,000 lbs offroad logging semi outclasses a purpose built highway truck is embarrassing.
At less than $1/gal equivalent fuel costs, the time spent charging and miles lost will be far less than the money saved. Charging time will be the best money truckers make in a day.
None of the routes are straight OTR hauling, so the comparison is irrelevant. They said they do typically 8-12 destinations in a day. You can't do 600+ miles when you have to stop and unload multiple times.
That 27,000 pound weight for the tesla semi is the lowest best guesstimate but not unreasonable guess. The Nikola EV is 29,000 lbs with a significantly smaller battery. The people that are knowledgeable about trucks that have seen the tesla, report that they are built very “lightly” which goes against the trucking industry’s standards for reliability. Proterra went that path on their EV buses and had a lot of cracking (& lawsuits), but they went bankrupt. So maybe why tesla is taking so long is that they are relearning the lessons that traditional OEMs learned along time ago.
I would like to see the calculations if these trucks are charged on standard 480v and 240v. Keep in mind it can charge from four circuits at once. There are large number of trucking routes, not highway per say, that can be done without the special chargers. Also they can charge from four superchargers at once, although this is probably only practical for overnight charging as cars leaving 4 superchargers all together and available for use during the day is unlikely
The cost of the changing facilities should also be included with length of use (Solor panel length of seri e and ...). Seems trucks running on liquid fuel is the way to haul. Impressive how far electric trucks have come.
At 12:19, the first two legs were from Sacramento to Reno and back. Sacramento is near sea level; Reno is at around 5,000 ft.; and they're topping Donner Summit at around 7,000 feet at about the halfway point. You can actually see where the trace turns from steeply down to not-so-steeply down in the first run, around 4:00 AM; and somewhat down to a little less down on the return, at around 9:30 AM; that's the point where they end the climb to Donner pass at around 7,000 feet and start back down, in both directions. On the return, as you assumed, they're getting the benefit of both (presumably) being lightly loaded, and the energy from the 5,000 net climb returned through reduced energy demand; although I only see a brief moment of regen braking, right after summiting Donner Pass on the way up.
That is one steep climb to include in an efficiency test. Even though you do regain some energy on the decline you will always spend more. An additional factor on that route would be how much time the Tesla Semi would save as it is capable of running at max highway speed up and down that incline, no fossil fuel vehicle can maintain and accelerate up those slopes after holdups like the Tesla Semi.
@@jjamespacbell Well, I *think* I know what you're saying. And to support your position, here's a Tesla Semi loaded to 82,000 lbs. GCVW with 44,000 lbs. of concrete highway barriers, accelerating rapidly (watch the speedometer) up a 6% grade on the same pass (Donner Summit), passing a diesel semi creeping up the hill in low gear as if it were standing still: ruclips.net/video/LtOqU2o81iI/видео.htmlfeature=share&t=985.
Not by far. Driving more than 900 km per day is very easy, and driving over 1100 km is possible in some routes WHILE respecting speed limits and DoT rules. Last week, I did 920 km in 1 day on Texas roads (with less than 200 km of interstate this day and a mix between 2-lanes and 4-lanes highways) with a 61 tonnes oversize combinaison. So, nothing that an electric truck can remotely do with current technology.
@@martinpenwald9475 in Europe, a driver can cover an absolute legal maximum of 506 miles (810 km) in a day, but more like 420-450 (ca 680 km) miles in practice! We obviously care more about operating safety here in Europe! Your examples belong to the upper 1% of US truck operations! Tesla and the other e-truck manufacturers have 90+% of the market open to them!
Toronto to Montreal , Canada is about 500 miles, and the speed limit on the 401 highway is 100kph(62mph)Walmart and Loblaws and Pride group logistics have ordered the Tesla Semi.
In the winter the average speed is probably half that because you spend 2-3 hours inching forward gridlocked in traffic. How is the Tesla semi going to keep the cab warm sitting in traffic for hours not even moving when it's -20C ?
@@ansmerek Electric trucks tend to have somewhat better insulation and heatpumps, no? Driving slower might actually offset the difference for a truck.
@@ansmerek Talk about a non issue. They could sit in traffic pretty much forever. Diesel trucks... Not so much. Not to mention you need to keep the engine running for heat.
@@themonsterunderyourbed9408 so how does the driver of an electric car stay warm for 2-3hrs not moving in traffic when it's -25C ? Running batteries for heat ?
I'm curious with these claims. Is that fully loaded both directions or 1 direction like many trucks? Are they loosing load or not, that would reflect in loss of earnings or more vehicles on the road. I don't think we have the whole truth here yet, and still doesn't have the advantages of diesel power. We really need more information.
Agree it would be interesting but not much point. All the electric trucks are going to be significantly cheaper to run and maintain. The days of doubting that electric trucks can work are over. Yes still need the trucks and chargers.
@@danharold3087how long will the batteries last and how much do they cost to replace? Transport trucks go over a million miles before an engine rebuild. Do you believe an electric truck battery is going to last this long ?
@@donhappel9566 I was reffering to diesel... And of course i m talking about potential. Electric is a better technology the ICE of any kind once maxed out.
Very interesting stuff. Lots of nay-sayers, but this is the future. It won’t come out of the box at 100%. The world will look very different in 20 years.
Diesel trucks are built with over 1000 miles of range in order to deal with the aggressive biome and weather condition changes while crossing the US. A long haul has to be overbuilt for these exact reasons. A vehicle like these might work for Europe but they are still a long way from being long haul in North America.
I’ll be interested to see what the range and efficiency numbers look like after a year of being run like that. I think that will give a good indication of how well these trucks can compete with their diesel counterparts
Interesting info. I think EVs will take over easy routes in the future. But there will still be market for diesels in Alaska and northern regions where lithium meets its physics reality.
EVs work great in cold climates, better than IC engines. Li-ion powered cars are working well in northern Canada cities like Edmonton, and the most northern parts of Norway.
Imagine this: You buy a diesel or gas powered truck, but before you drive it away from the dealer, he tells you that you shouldn't ever fill the tank more than 80%, and you can't run it down below 10%, or the gas tank will permanently (and irreversibly) become smaller. And each time you break the 80/10 rule, your total gas tank volume will reduce by a random amount. Would you drive away in the truck? Or would you demand a truck with a gas tank volume that will never change?
Running a tank dry will fry many fuel pumps (perhaps other components as well). It’s not “never above 80%”. Maybe without exaggeration you don’t have a point?
Mike, your analysis of the first five days was extremely useful; is there any chance that you're planning to extend this to then entire run? Having done some of the calculation, this would obviously be a monumental effort; but would likely drive the last nail into the coffins of the haters. And if not, is there anyway to get a copy of your spreadsheet, so I might take a run at extending it myself? Perhaps on Google Sheets, such that I could make a copy for my use? Thanks for at least considering this!
@@sladewilson8241 electricity prices will come down drastically as countries adopt renewables and then pay off the construction/upgrade costs to the grids. Won't happen overnight, but in about 10 - 15 years everyone's electricity will be way cheaper. The first to see the benefits will be the countries that adopted renewables the earliest, though the cost of solar, wind, and batteries are continuing to fall, so anyone who's slow to adopt will get things cheaper, but they will still have to pay off the upgrade costs before electricity prices fall. The absolute best is becoming self-sufficient and putting up your own solar and getting your own batteries if you can. Then you don't have to worry about what the grid is charging.
@@sladewilson8241 that is totally not true - you are way out - ROI is 3 years, 5 years max depending on usage and km clocked up etc - but in Europe, Trucks tend to get renewed out at 300,000km (1st owner sells), 600,000km (2nd owner sells then normally exported to outside Europe/Africa) and 900,000km (The truck is normally export to Africa at this point)
@@QALibrary i live in poland and tell me how is ROI possible when we pay over 1 euro for kwh? We pay more for electricity more than cost of desiel per km not to mention that Ev are so much more expensive to buy. And also you earn less because ev trucks have terrible range(volvo ev 300km) compare to desiel where easly you do 800 km daily. Yes cargo company pay you for km so longer trip better ,staying and waiting to charge is loosing money
I would take Pepsi at their word about energy consumption. They have the exact numbers for the energy used. You were estimating based on an assumption about usable battery capacity. Your quess might be correct on the day the truck left the factory but you didn't take into account the initial battery degradation. I have a five year old Model 3. It was supposed to have 310 miles of range, today it has 288. Almost all of that degradation happened the first year, the degradation since then had been very small. Pepsi drives their trucks much harder than i drive my car. The initial degradation probably happen in the first month vs the first year for a car so the usable capacity for their packs will be at least 10% less then when new. Given that they might be putting 100-200K miles per year on the tricks the degradation is likely more than 10%. But using the 10% number that would account for the entirety of the difference between Pepsi's 1.7KWh per mile and your 1.9KWh.
Interesting things that are becoming very clear with EV transit buses is that the battery degradation rate is significant (and very important) and the lower utilization rate of a large EV vehicle requires “MORE VEHICLES IN THE FLEET” to fulfill the same requirements. This is why some applications are better met by other technologies. Already some companies that serve California “shipping ports” who tried EV semis are moving to other technologies.
The latest batteries are showing minimal degradation after 1.5 million km. They're also way cheaper now, have almost double the capacity, charge in almost half the time, and barely lose any power down to - 20°C. And the improvements are actually accelerating, not slowing down. So we're nowhere near the pinnacle of how good battery tech can get.
@@truhartwood3170 IfUSāSō, problem is that nobody told the real life batteries that. This is what the local transit district is actually seeing in real life.
This does not seem to be a fair comparison. Tesla Semi is obviously using 2 drivers per day and charging 3 times per day. With 1 driver and charging twice, a realistic range could be 500 to 600 miles in fast traffic.
But where's the unfair comparison? 1 driver in a diesel semi can still only drive 605 miles a day, because of the California 55 MPH speed limit, and the HOS limitation of 11 hours on duty.
@@BigBen621. No, not unfair to the diesel. Unfair to the other electric trucks in this comparison. The others are not doing the 2 driver per day things as Pepsi Tesla Semi does. Tesla obviously has more range but the comparison would be confusing for normal people who do not read the details.
This is a totally fair comparison. Pepsi obviously runs a 24 hour operation, whereas, the other companies are only operating a single shift. Each company purchased their respective trucks based on their operating requirements. I doubt that the other trucks could have filled PepsiCo's operational requirements. PepsiCo spent years planning for the arrival of their Tesla Semis and installed the charging infrastructure necessary to support their 24 hour operation. If PepsiCo only ran a single shift each day, they could have saved a ton of money by installing 50 to 75 percent less charging capacity (which is what the other companies did).
I believe that PepsiCo is achieving their 1.7 kw per mile range on their entire fleet. The trucks that are being tested in the Run on Less event are Pepsi trucks which, as you mentioned, are probably hauling heavy beverage loads, while the Frito Lay devision is hauling lighter weight, high cube, loads. Still, the numbers you are looking at, are within Tesla's announced specifications for the Semi and better than the other trucks in the competition which are presumably hauling lighter loads.
The absolute solution for Class 7 and 8 EV Trucks is construction and LTL. LTL city driving and a short highway runs 250 miles and under. Construction - dump trucks, end dumps, and garbage trucks. It's hard to imagine how FedEx and UPS have not contracted to get an EV something like Wal-Mart and Amazon.
The freightliner is more "popular" because it has been made available to other companies. Tesla is working with one company not because others do not want it, but because they do not want to make it available. The freightliner is like an early Chevy volt with 120 km range. It is what they can make.
I think including ReGen is kind of irrelevant. Going up a hill consumes far more energy than is regained on the way back down and it’s not different than an ice vehicle coasting, basically getting free mpg. The big difference is that an ice vehicle consumes its fuel and becomes lighter over time making it more efficient the closer to empty.
@@prof.crastinator You can keep looking for every way to hate this truck. The Tesla Semi doesn't really care. Want to see some fantastic numbers from it? Look at the Run On Less 2023 numbers, pay particular attention to Tesla Semi #3.
@@MidlifeTrucker-ThomBell It seems like if it was really that great- then Tesla would release the data in whole to the public- you’d think they’d want to brag. The semi is not going to revolutionize transport- and Doesn’t live up to the hype Elon banked on of it- that it would not only beat diesel (it doesn’t economically) but it would beat RAIL. That is a lot of over-hype, bordering on fraud itself. But saying it would have a “convoy” function was just a lie. I don’t need a reason to think the semi is a failure, the necessary charging infrastructure makes it a niche product already- but when you throw in the reliability issues, range limitations and reduced max weight load compared to ice- it becomes a gimmick for companies to greenwash via pr. The economics make no sense. The fact no price, cargo carrying and real-world range data is available except from a single source that is filtered via nda’s through Tesla, is not very promising. Couple that with only a few deliveries and it seems like Tesla knows it… But we’ll see. I mean the hyperloop proved me wrong. And full self driving robo taxis are now ubiquitous. And then there is that colony on mars that will be established next year….
The mass of the battery pack in a semi makes them pretty impervious to weather vs a car. Also, the newest batteries still retain 90% of their power down to - 20°C. So a non-issue basically.
Tesla has the best battery termomanagement system on earth. The cold has major effects on the efficiency of ICE vehicles. Also don t think too much about the
@@lucadellasciucca967 Even with "the best thermal management" Tesla cars/SUVs are still effected by the cold quite a bit, so that's not a great argument. The better argument for semis, specifically, is that because the pack is the size of 11 car battery packs, and they're all in a big brick, the volume to surface ratio is drastically larger, so heat isn't stripped away as fast. Combine that with the amount of power they're using and the pack can heat up quite nicely even when the weather is extremely cold. On top of that, electric cars use most of their power to get warmed up, but then need very little power to stay warm. So if you're get into a cold car, driving 5 min, then stop and let the car get cold, then get back in a driving for 5 min, eover and over, you're range is going to be way way shorter than if you got it, heated up once, and then kept driving. This is also why it's good to get your EV reheating while it's still plugged in, as the you're range will be practically the same as if it was 20°C. Anyway, since the semi is operating for much longer periods, it doesn't have to use energy to constantly heat up over and over. For all these reasons, the semi is almost impervious to weather vs an EV. Combine that with the fact that, as I said in my last post, newer batteries are showing 90% power at - 20°C/-4°F, and it's pretty much a non-issue.
It is a non-issue now due to better design and battery management and also battery chemistry - in Norway, they do not have an issue with -20C to -40C temptures
@@cashmoneypwns Simple steel cylinders are trivial to mine and manufacture. In terms of the scalability, You can get a 20 gallon for a pickup for about $200 that holds 805 kWh before losses, and a 120 gallon for a longhaul semi for $800 that holds 4,831 kWh before losses. Compared to the cost of a diesel fuel cell, the strain on metals resources that a MWh BEV makes is enormous and unsustainable to replace our transportation. The reason is because of the poor energy density of batteries compared to diesel fuel that it dedicates so much material to one vehicle. So nah I don't think the scalability is comparable. There needs to be completely different mining techniques, and until then, we need plug-in hybrids if we want to move towards energy independence from hydrocarbons.
@@Infinion Once you include the losess it isnt that nice, idk why would you leave that out but at least you know there are losses. Electric truck doesnt make sense but thats the problem with trucks in the end, moving things to rails is the only efficient option (too expensive to enter I guess)
@@cyjanek7818Because it depends on too many factors, and nobody would read it. I'm just demonstrating the incredible energy density of fuel. BEV describes battery energy capacity before losses as well, so it's a fair comparison. I think many will be surprised what's in store for fuel vehicles as they move away from reciprocating combustion engines. The energy density of fuels is really going to allow much more for transportation in the next decade with advancements.
re: "It's really just a tech demo...." exactly, it's nothing more than a "technology demonstrator", nothing more than a "PR Stunt", and it's sole reason for being is to ADVERTISE and (hopefully) sell ever more Tesla automobiles, and to ADVERTISE and sell ever more 2-Liter bottles of Pepsi-Cola, and that's fine as i have no problem with that. yeah, we forget how 99% of all companies on the Fortune 500 have an account on the books labeled "Advertising Expense"... and they've never really said that they WEREN'T treating the Semi this way...? no, therein they are simply letting everyone's psychology of "Confirmation Bias" mis-read and mis-interpret what they are doing because what they recognize is, whenever you "mis-read" and "mis-interpret" things, you are naturally going to do it in a way that WORKS TO THEIR BENEFIT (and that's exactly what's happening) so be damned if they are going come out and correct you on this matter, like correct you for what...? also ref: Elon fired the PR department years ago just like he recently fired the Supercharger 500.
Long term the game in this is going to be to get power behind the meter (self-owned solar/wind etc.) charging something like a megapack, add whatever line power at low draw $ rates to max the megapack and then dump charge at fast rates. Anything they can do to generate some of that megapack charge level , will be money in the bank.
Looking at third-party data about these trucks' real-world numbers gathered from actual, working delivery routes blew your BS meter? I think you are confusing a "BS" meter with your "personal bias" meter.
@@GraveUypo Key word "invest" my guy! I ve bought 65 times in the last 365 days xD More than once a week! Have been able to bring my average share price below 200 dollars :) Dollar cost averaging. Over 10 years investment orizon 😘
Does this comparison is not a real comparison as we don’t know the load and speed that it was used, the only comparison should be equal route equal load, and than the result should be obviously better than advertised for Tesla
The Only electric Truck that I can see as Useful is the Volvo FL. Used in Local or Short Regional Routes, in Stop and Go Deliveries/Multiple Points such as Door to Door. Then Electric Commercial Vehicles make Sense Money Wise.
A fully loaded diesel truck uses about 30 L/100km, so about 4.5 times as much as a car. At 1.7 kWh/mile these trucks use about 7 times as much as a car. Am I missing something here or why is he calling that extremely efficient? And keep in mind that a diesel truck has more loading capacity than an electric truck.
Diesel contains about 10 kwh of chemical energy per liter. A Diesel engine is about 40 percent efficiet. And 30 liters of diesel is equal to 120 kwh energy. This means 1.2kwh/km energy consumption. So where is the 7 times more consumption?
@@Bruh-pp5yz An efficient electric car uses about 15 kWh/100km or 0,25 kWh/mile. So this truck uses 7 times as much energy as an electric car, compared to a diesel truck using only 4,5 times as much as a diesel car. I am just wondering what is the reason for this.
We own a Kia EV & love it, but know very little about EV semi’s. I’d love to see the fleet move to electric for the quiet engine & pollution free. Eventually, I’d love to see diesel use severely restricted. It’s always made me mad whenever I see the smoke belching from a semi & doubly mad a big diesel pickups that are obnoxiously loud & pouring out fumes & smoke!🤢
14:50 With the Telsa and OTR, you do not need mega-watt chargers everywhere - you just need a slow charger at truck stops that would run the truck's electrics/climate control/battery cooling/heating and charge the truck in 8 to 10 hours as the driver takes the overnight sleep
@@maxhugen Not really. Didi my research for the past 5 years. I bought 116 times in the last 2 and a half years. Dollar cost averaging. When i have money i buy. Got to under 200 per share average last month and i won t stop buying untill the market cap is above 1.5 trillions or so! :) Do your research, invest in Tesla.
I noticed that the EV trucks are given an extra legal allowable 2,000# grace max GVW poundage over the diesel powered max of 80,000# GVW due to the EV semi-tractor being so heavy with it's batteries to maintain trailer payload capacity. Also the energy density in any of the EV propulsion batteries, per pound will never approach the energy density of a gallon of Diesel fuel. Also consider colder weather in Northern US states will drain more power from the batteries to maintain cabin temperature and external lighting in bad weather. Also long haul drivers are paid by the mile and need 500-600 miles daily to make a decent living. Consider the relatively long recharging times to get the batteries charged again compared to refueling a Diesel rig that will contribute to down time that the driver is not paid for. And where does all of this propulsion electricity come from in the USA? The EVs suck off of the teat of an already taxed and ageing American electrical grid with major prime movers like natural gas, nuclear, coal, oil, and some hydro.
The 2000lb increase is also for natural gas and hydrogen trucks, hydrogen trucks weigh more than battery trucks. The battery doesn't have to approach the energy density of diesel, just having 1/4 of its energy density will render it obsolete due to the batteries much higher efficiency at sending that energy to the wheels. Keeping the cabin warm and running lights won't be a problem for the tesla semi truck. It's battery can run the Average home in the US for a entire month with its energy capacity, a diesel semi truck can't even idle that long lol. The tesla semi can put 350 miles in its batterynin 30 minutes so it will fit 90% of truck routes in the US for a single driver. Coal has ben surpassed by renewable in the US in 2022, natural gas is next, fracking and drilling in the US is heavily dependent on subsidies from the government, far more tax dollars goes into making gas cheap than going in making renewable power cheaper.
@@miguellopez3392 Right now the electrical prime mover fuel in America is 39.8 % natural Gas, 19.5 % Coal, 18.2 % nuclear, 21.5% renewables, and .9 % petroleum (.1% error). Right now natural gas is king in that it burns cleaner, it is relatively cheap, and is plentiful. www.eia.gov/energyexplained/electricity/electricity-in-the-us.php I agree that there will be a place for the Tesla semi. But it only seems practical for local and short dedicated routes. An OTR driver needs miles to earn a decent wage. A 350-500 mile range is not going to do that.
Long range truckers can drive 11 hours a day so stopping to charge the truck for 2 to 3 hours during the day would be a problem for them. This assumes there is charging during the night while the trucker's sleep.
Exactly. Long haul as it is done presently by trucks in North America does not allow electric trucks to do the job, even if the range could be extended to 1200 km per charge. Sometimes, drivers don’t have too much choice to park and if they can’t find a charging station for the night, they would be screwed.
@@martinpenwald9475 you stated that it takes 2 to 3 hrs to charge, which not the case for Semi. Yes I agree that presently long haul truckers can't realy charge along the way, but it's coming. I'm à retirer truck driver for 30 years so I know all about Trucking, because I'm off to the rodeo with a heater in my truck!!!
None of these numbers matter at all if we don’t know the weight of the trucks and how much weight they haul. Yet for some reason it’s the biggest kept secret with these truck. And there’s a reason. Trucks get paid by weight hauled per mile. There’s a few cases where big light stuff needs to be hauled and that’s all these will be good for until we have better battery’s.
No one seems to include the driver's experience in their assessment of Tesla's semis. How does a driver hand paperwork over to and speak with someone at a booth? How does a driver look out the window when backing or wipe clean the mirrors? How easy is it to manage a touch screen when bouncing along America's ultra smooth roads? There's very very little upside to any sort of touchscreen in a moving vehicle. It does not have any sleeping arrangements for the driver. It's strictly a day cab configuration, meaning it's not suited for trips that take multiple days. Tesla's Semi is impressive in many different ways but being practical isn't one of them. And while in Tesla's cars they move units because features over functionality is acceptable, trucks aren't status symbols first. They do, at the end of the day, have to do the job they're designed for efficiently, and things like this are clearly just "trendy" not practical. It seems Tesla's designers do not adhere to the principle "Form follows function".
The entire design was based on what's best for the driver and daily operations with tons of feedback from the drivers, using the semi for Tesla's own operations, etc. Do you really think Tesla doesn't know and take into account everything you just said?
@@truhartwood3170 From your reply, I can tell that you've never driven a semi and performed multiple pick ups and deliveries or driven one from coast to coast. I can understand someones appreciation for futuristic designs and the latest technological innovations but a little critical thinking will show they are impractical for everyday use. Form should follow function.The design of the Tesla semi is definitely not driver friendly.
@@niemi5858 There is no remotely possibly conceivable reason Tesla would design the semi around anything other than practicality. Their customers will judge it based 100% on pure practicality, nothing else. Tesla knows this. Drivers have been key consultants on every phase of development to make sure it's going to work for them. But with every design there are tradeoffs. If there's something you see that doesn't make sense for one reason, there could be five other reasons it makes way more sense to do it the way they did. I'm not sure why you think their cars have sacrificed functionality either. You do know there's a difference between "not familiar" and "not functional", right? I also find it to be the pinnacle of hubris to say "I don't get it, therefore it sucks." In any case, they'll be driverless in 5-10 years or so so being practical for the driver is only a short-term consideration.
@@truhartwood3170 Have you ever driven a semi? Have you made pick ups and deliveries in one? Have you driven a semi for an over the road operation? If you answer, I will provide a rational explanation for my outlook, otherwise there would be no point in continuing. Thank you.
I noticed that you’re using a BMW I3 in your picture at two minutes. But as it turns out BMW has its own built-in battery management system that will allow you to charge it to 100% without battery damage. I always charge my car to 100% My car has over 100,000 miles on it and I have yet to see any battery degradation.
Hiding %10 SOC behind software isn’t very interesting to me. Ofc bigger battery lasts longer. Phone companies also do this & it is controversial at best
FWIW, Daimler was talking about buying a Tesla Semi to test in Germany, and said "The laws of Physics are the same in California and in Germany," not that Tesla's semi "defies the laws of Physics." I think Bill Gates did say something to that effect though, but he knows very little about trucking or EV powertrains, so not worth paying attention to. Daimler, on the other hand, is the world's largest truck manufacturer.
@@truhartwood3170 problem is the maths do not workout. 1/6 of the carry/load capacity. Reduced range in cold or hot extremes. Cost to buy horrific. Than down time when charging as charging points for those lorries are low in number. Thank you, but no thank you.
@@truhartwood3170 - That's good then. Can I suggest you go out and buy 10 of them, you will be making money hand over foot? It's all a vapour product. You can't even order one now. Total prototype fakery. BUT luckily I am wrong and you can make lots of money, as Elon said you would be mad not to buy it as it is sooooooo much better than dinosaur juice.
How much load was Tesla with it 10000 pounds? 40000 pounds that's a question I don't know. Did you answer that. You also stayed 50 miles or plus on the highway. What trucks go 55 on the highway? Everyone's doing 75 to 80 on the highway. If not, you're gonna get run over. Why is tesla only produced about fifty trucks when they said they'd have about fifty thousand by now
Tesla trucks are over 32000 pounds and have very low cargo limit... They only haul frito lays chips around. Light loads only.. Does not work to good on regular trucking operations... Only limited use successfully..
Thanks for showing us the data, this shows how stupid EV trucks are. 1) Drivers don't care about the batteries because its the company paying for the degradation not the company. Hence not capping the charge and driving it down to single digital state of charge 2) Range doesn't seems to be sufficient because drivers are fully charging it and driving it down to single digital meaning that they are not willing to wait at a charger to charge midway or they don't care about the really really expensive battery packs because their company is paying for it. I would really hate to see it in a few years where these battery packs are old and could no longer cover that distance. 3) they are charging whenever is convenient meaning they are charging during the day which means electricity rates are sky high. 4) Pepsi have an on site battery storage where they could charge the truck with during high demand charging. This just just adds a bigger battery pack that you're cycling and degrading. 5) Also, most of these things seem light. If you really want a new fuel hydrogen would have been way better or syntenic fuel
The Freightliner will have slightly better efficiency largely because it has a much smaller (lighter) battery. Considering this the Freightliner should have even better efficiency than what was demonstrated.
With less than half the range of a Tesla Semi, the Freightliner should have *much better* efficiency for the reason you state; but actual efficiency is 2.2 kWh/mile, substantially worse than the 1.7 to 1.9 kWh the Tesla Semi is demonstrating-and with much slower charging, to boot. The Tesla Semi charges at about 400 miles per hour, while the eCascadia charges at
I always wondered why the battery packs aren't mounted on the trailers themselves. Running out of battery? Leave it charging and pick up another trailer. Who cares about supercharging them?
traction! The drive axles are currently on the Tractor unit, so this unit needs enough mass to be able to generate enough tractive effort to accelerate (and deccelerate) the entire rig. The batteries are heavy, so putting them on the tractor unit is a no-brainer. It also allows the existing std trailer fleet to be used without any mods etc
For every semi tractor in the US there are about 10 trailers. Typical usage is to haul a trailer to a destination, park it there, and pick up another trailer for the next leg.
I find the place where they’re testing these a little suspect. California is one of the best places to run the diesel truck. As far as fuel economy goes low speed limits great weather. If they really wanted to test the range of these things, send them out to Wyoming in the dead of winter Northern BC or Alaska. I’ve always said there’s a place for electric trucks in this world, but not the BL and end all for everything. The way they’re testing them is proof that they don’t want to take them out in the real world.
It's been mentioned, but... CARGO! The only thing that's important here is how much it can get from A to B, and at what fuel cost. Range is a factor for personal vehicles because we hate to refuel... I guess... But for a trucking company the range is only important for how long it will take to refuel and that may not even be a thing if the truck has to wait for the trailer to be unloaded and re-loaded at the destination. So basically, this video is not just apples and mango's, it's just you saying numbers out of context.
The vast majority of trucks should go plug-in hybrid while battery tech matures, it will be easy to rebuild those into full BEVs later once there are even cheaper / safer and better batteries… they can even use cleaner burning fuels immediately; generators aren’t as picky about the type of fuel, usually being operated at a constant ideal RPM and don’t need to have things like low RPM torque and many other requirements typical of transmission driven truck engines, nor do they suffer from the same emissions problems since they are inherently burning clean at ideal efficiency which normally only happens once up to constant speeds.
Battery tech has already improved and is continuing to improve rapidly. We're already looking at mass-produced batteries with 500Wh/kg, about double that of EVs on the roads right now.
Another person keeps Nikola out of the video. Nikola has been on the road and hauling longer than Tesla. They have put more miles on their trucks with very little trouble. Do some more research.
@@mcsike7264 They introduced it 7 years ago and said deliveries would start in 2020. There is no excuse for them to not yet have a facility to manufacture them.
@@mcsike7264 Other car makers managed to get through Covid with only minor delays. But keep believing that a company whose sales are still dropping, despite drastic price cuts, will be dominating anything. Cybertruck is late, and vastly under the originally promised specs. Semi is late, and also not living up to promises. They are desperately slashing workforce due to a money losing quarter. They haven't introduced a new mass market model in 4 years. And to top things off, Elon is demanding a compensation package greater than the company's total revenues over its entire history. But feel free to think Tesla is on the way to the top. I won't get in the way of your delusions.
Will be interesting to see how Tesla adapt to different markets. In some EU markets like Finland and Sweden some highways allows 34.5 m and 74 metric tons. While other use and in many cities, they have to be able to drive in narrow streets. Also, there are regulations how long a driver is allowed to drive, and charging can be done during resting period.
That depends if you can get the charging time to coincide with the rest period.. it's something that happens for real world truckers of course; the regs say you must rest NOW but you just put fuel in the truck and stopped for coffee.
The range is not something people discuss in Europe. What is important is to adapt to regulations for different markets and needs. Probably that is why Volvo corp has close to half the market of heavy electric trucks. And electric buses all around in cities as well.
@@colinmacdonald5732 This makes no sense. You can adapt one to the other! xD
Having half the battery capacity of the Tesla means that the Freightliner and Volvo can take higher payload since the battery is lighter. So they are moving more freight using the same amount of energy.
Good point
Oversimplification. Terrain plays a huge part. Tesla motors, etc. are second to none.
When you are hauling chips you never max out at 82k
Half the battery means half the range.
The reality of trucking is that most loads are VOLUME limited, not weight-limited.
The Tesla Semi is already able to reach 44,000 to 48,000 lbs net weight, so it's able to cover the majority freight loads at it's battery capacity and is within a few thousand pounds of diesel trucks legal limits. The Volvo and Freightliner don't have a payload advantage
Interesting data. It's too bad that the companies are not giving real world data. I am retired but worked for Pepsi (Tulsa) Several trucks (OTR) did daily runs to the Dallas warehouse (250 miles). Their return trip were never empty. Deadheading is loss of revenue. Anyway, good reporting. Cost analysis would be nice info too. EV cost per mile vs ICE.
Seems like they are better than I thought they would be. I thought they would be fine especially for local deliveries. Once they get the megachargers in place it will be easy for them to go across the country. Not sure what the charge times are.
With the current 750 kW Megachargers, 80% SOC in 1 hour, the remaining 20% in another hour. Most operators will probably only charge to 80%, unless they have a really long leg, fully loaded, after they charge; both to minimize charging time, and to maintain battery health. Reducing the load somewhat from 43,000 lbs. will permit the rated 500 miles on 80% charge, or they can carry a full load but only go 400 miles. Statistics show that 83.6% of trips are under 400 miles, so this will usually not be an issue.
F the battery charging crap, what is its useful load? They can't carry as much as the standard truck so it's a fail.
@@davidsoom1551300mi Tesla semi weights
@@davidsoom1551 The truck is no more then 4000 punds havier then a diesel. EV trucks have 2000 extra payload by law. Tesla semi also have the hardware capability to drive themselves and will in the not too distant future. Also consider that this is the worst the technology will be from now (as in, it will only get better). It s not a fail, it s the litteral future!
Do your research, invest in Tesla.
@@davidsoom1551 Imagine two things: world would as well realized that global warming is a problem. And second is that america is the only worldwide producer of oil who‘s politically not problematic / not autocracy.
Every gallon of oil used strenghtens iran, uae, russia.
So it might be a good idea reducing usage of fossiels as possible from both perspectives.
This does not mean that every car, truck and so on needs 100% to be replaced. E.g. a company producing heavy iron parts won‘t change to electric within next years probably.
But for many many loads an electric truck matches good. And it helps.
Additionally it is possible that the costs per mile are lower than ICE trucks (this needs to be provef by time but it looks like the concept of ev is pretty strong in low repair costs).
So it is a win-win for everyone if there are companies who are capable of habdling their loads electric.
I will never understand why people hate „cost reduction“, „weaken autocrats“ and „enviromental care“ with the point of „but you cant go 1000 miles with 5 tons of metal parts with the toy trucks“.
Thats just silly…
Until you know what the weight is that they are hauling, your you dont have a clue. Your missing the most important data!!
he literally said that in the first 2 minutes
@@terrygirgich643 No he didn't. He said they hauled different loads but not a single digit telling what the loads were. Why did you say that he said what he didn't say?
Are they carrying 50 or 20? Makes a diff.
@@skunkjobbhe said you don't know what their hauling so you can't make a direct comparison. He literally said that multiple times. The whole apples and avocados thing remember.
@@skunkjobb he said the same thing you did. that we don't know what they're hauling so the data is almost worthless.
Being "maxed out" at 82K lbs still doesn't tell us how heavy the payload is. Without this, we're not learning anything. And a company that wont provide this most important of information in specking out a truck, they're hiding vital information. Go spec a transport truck. I don't think you're going to find a transport company that will purchase a truck that doesn't provide all the specs. No jumping to conclusions necessary if they aren't giving you all the specs. They're hiding something vital.
I stumbled across some data in the video I did for WattEV. At the 5:55 mark I summarize the info. ruclips.net/video/6Okmg6PpmAA/видео.htmlsi=JEowzdcH0-JOJ25V
…basically, yes I am still looking for hard data on how much more a BEV Tractor (or Hydrogen Fuel Cell) weighs more than a Diesel. I’ll be sure to make a video if (when) I get better data.
At a recent talk, a rep from Tesla shared that the 300mi Tesla semi weights
@@truhartwood3170 Here's a strange consideration. 300 mile tesla semi weighs
@@RichardRoy2 The range is with a full load (82,000lbs GVW), no total elevation change, at an average of 55mph, with a temp around 70°C/20°C (though low temperatures don't matter nearly as much with the huge battery pack). This is what they're experiencing real-world with third-party testing, not just Tesla's/Elon's claims.
@@truhartwood3170 I'm sure there are some out there who would find that enough. Not many, though. As I said, it's PR, not industry oriented.
Charging to 100% is not that big a deal provided you don't leave them at 100% - I'd say they've sorted out their charging so it finishes charging just before it begins the next route.
Degradation happens due to the dynamic nature of the battery.
I don’t know their plan, but 100% is probably not 100%. Tesla did that with their cars, the software limits how much you can charge to and discharge to.
_I only see a brief moment of regen braking, right after summiting Donner Pass on the way up_
Actually, there's *more* on the way back. There's some significant regen braking just after topping Donner Summit on the return leg, including picking up almost 2% SOC starting at 9:55.
I deliver Amazon, and they charge all those eVans to 100% every day.
Which is fine. Charging to 100% isnt bad for the battery as long as you dont store it like that for days. If you drive shortly after its fine. Its way worse for the battery to discharge it into the single digits.
@@TheDude50447 But it does increase dendritic formation which does reduce the life of the battery. Of course the chemistry matters and for lfp you are right- but tesla insists on nca and it really does reduce the life of those.
Lithium ION batteries are limited to 80% as Lithium metal precipitates on the electrodes at high charge levels.
Lithium Iron Phosphate batteries are recommended to be charged to 100% at least weekly on the other hand. (Tesla manual data).
The SoC data being published is almost certainly the "useable" SoC after the BMS calibration limits have been applied ie when the data says the truck is charged to 100% the battery cells are NOT actually at their peak voltage, merely that the battery has been charged to the level which the manufacturer has selected. Typically for an HGV application there will be something between 10 and 15% buffer capacity that is not "useable" at least not when the battery has a 100% SoH.
The charging limits have nuances.
It's not charging above 80% and depleting below 20% that is the problem. It's leaving the battery outside of that over time.
So for regular driving you can use the whole range, just charge all the way and go and then charge above 20 when finished.
I believe this is wrong. The phisical access and expulsion of electrons is what damages the battery. The dynamic nature is responsable for the degradation.
@@lucadellasciucca967
No, drawing current from a cell does not by itself damage a lithium cell. Torgrim is accurate in what he says about the dwell time at high and low SOC if you look at SEI and CEI degredation. If you looking up the webinar with Dr Jeff Dahn Dalhousie for EV battery health or the Engineering Explained video on how to ruin your electric car's battery, you'll hear the same suggestions. However, they go a step further and argue that charging and discharging above or below nominal causes the cells to expand and contract, which causes stresses in the crystal structure, contributing to fractures that opens up more surface area to consume lithium ions and other material and turn it into a CEI layer that degrades capacity.
Your right that high discharge rates CAN cause damage due to the internal heat buildup, but not on the mark that its because of the electrons. Yes the discharge is evolved by drawing electrons, but the dynamics you speak of are all related to the structure and chemistry inside of the cell dominated by ion flows.
In the mean time, Deisel trucks can travel up to 4 times the distance before needing to refuel. On average of 1500 to 2000 miles of range.
And “recharge” in about 10 minutes. All while carrying a bigger load. Oh and they are cheaper to buy and to maintain.
So where is the economic incentive for companies to switch to electric?
I .? the maintenance part of diesel truck and you have to add up the time to maintain the diesel truck? I could be wrong. Could you tell me what maintenance the electric truck need I know braces may last 4 to 5 x longer no oil change,oil filter and a of other item
@@prof.crastinator It s called money savings. It happens in maintainance and fueling. Writing words on a youtube comment doesn t make them true xD
Do your research, invest in Tesla
@@lucadellasciucca967 Where is this money savings, exactly?
Guy who literally just wrote something in a you tube comment and expected people to believe it?
1. Tesla semi costs more initially. (More than double)
2. The infrastructure needed to charge quickly (still not very quickly) costs millions, negating any fuel savings.
3. The packs tesla uses (nca chemistry) cannot last the lifetime of rapid charges that these semis will require. A diesel truck lasts from 500k to 1million miles- a tesla semi will need multiple pack rebuilds or more likely replacements to last the same- these will far outpace normal maintenance on a diesel semi.
4. Then there is the 1/4 the range, 3/4 the load and much much more downtime while charging…
Where is the benefit!?
@@prof.crastinator Can t wait to see your face when semis are all over! xD Good luck mate.
Oh and i didn t ask anybody to believe anything. I don t care! The lower the stock price the bettere for me! Don t buy people! For the love of god, don t do your research!
Imagine if we had a technology that could be electric without needing batteries. You could also hook a ton of things together to decrease the number of drivers and reduce other inefficiencies. You could even use steel wheels and put it on some kind of steel guiderail to really increase efficiency.
Electric long haul freight is a solved problem and electric long haul trucks are not it
Good video, Tesla truck is better than what I thought !
The Internet says a trucker can average 605-650 miles a day over 11 hours. Throw in a team of drivers and it's limited to the range of the truck, maybe 1200 miles+ with the right setup. Granted this isn't what a beer or soda guy would do.
The Tesla semi weighs, 20-27k pounds while a common Kenworth t680 weighs 14,2000.
That's a lot of lost freight and miles. Marketing stunt it would seem.
I keep saying the Edison hybrid semi can do everything the Tesla can without even being built for highway use. How a 27,000 lbs offroad logging semi outclasses a purpose built highway truck is embarrassing.
At less than $1/gal equivalent fuel costs, the time spent charging and miles lost will be far less than the money saved. Charging time will be the best money truckers make in a day.
None of the routes are straight OTR hauling, so the comparison is irrelevant. They said they do typically 8-12 destinations in a day. You can't do 600+ miles when you have to stop and unload multiple times.
That 27,000 pound weight for the tesla semi is the lowest best guesstimate but not unreasonable guess. The Nikola EV is 29,000 lbs with a significantly smaller battery. The people that are knowledgeable about trucks that have seen the tesla, report that they are built very “lightly” which goes against the trucking industry’s standards for reliability. Proterra went that path on their EV buses and had a lot of cracking (& lawsuits), but they went bankrupt. So maybe why tesla is taking so long is that they are relearning the lessons that traditional OEMs learned along time ago.
@@randgrithr7387 It does not outclass it when CO2 emissions are considered and that is the most important thing.
I would like to see the calculations if these trucks are charged on standard 480v and 240v. Keep in mind it can charge from four circuits at once. There are large number of trucking routes, not highway per say, that can be done without the special chargers. Also they can charge from four superchargers at once, although this is probably only practical for overnight charging as cars leaving 4 superchargers all together and available for use during the day is unlikely
The cost of the changing facilities should also be included with length of use (Solor panel length of seri e and ...).
Seems trucks running on liquid fuel is the way to haul.
Impressive how far electric trucks have come.
At 12:19, the first two legs were from Sacramento to Reno and back. Sacramento is near sea level; Reno is at around 5,000 ft.; and they're topping Donner Summit at around 7,000 feet at about the halfway point. You can actually see where the trace turns from steeply down to not-so-steeply down in the first run, around 4:00 AM; and somewhat down to a little less down on the return, at around 9:30 AM; that's the point where they end the climb to Donner pass at around 7,000 feet and start back down, in both directions. On the return, as you assumed, they're getting the benefit of both (presumably) being lightly loaded, and the energy from the 5,000 net climb returned through reduced energy demand; although I only see a brief moment of regen braking, right after summiting Donner Pass on the way up.
That is one steep climb to include in an efficiency test. Even though you do regain some energy on the decline you will always spend more.
An additional factor on that route would be how much time the Tesla Semi would save as it is capable of running at max highway speed up and down that incline, no fossil fuel vehicle can maintain and accelerate up those slopes after holdups like the Tesla Semi.
@@jjamespacbell Well, I *think* I know what you're saying. And to support your position, here's a Tesla Semi loaded to 82,000 lbs. GCVW with 44,000 lbs. of concrete highway barriers, accelerating rapidly (watch the speedometer) up a 6% grade on the same pass (Donner Summit), passing a diesel semi creeping up the hill in low gear as if it were standing still: ruclips.net/video/LtOqU2o81iI/видео.htmlfeature=share&t=985.
Is ironic that people are worried about the range when DOT driving limits are the bigger limiting factor.
Not by far. Driving more than 900 km per day is very easy, and driving over 1100 km is possible in some routes WHILE respecting speed limits and DoT rules. Last week, I did 920 km in 1 day on Texas roads (with less than 200 km of interstate this day and a mix between 2-lanes and 4-lanes highways) with a 61 tonnes oversize combinaison. So, nothing that an electric truck can remotely do with current technology.
@@martinpenwald9475 in Europe, a driver can cover an absolute legal maximum of 506 miles (810 km) in a day, but more like 420-450 (ca 680 km) miles in practice! We obviously care more about operating safety here in Europe!
Your examples belong to the upper 1% of US truck operations! Tesla and the other e-truck manufacturers have 90+% of the market open to them!
Toronto to Montreal , Canada is about 500 miles, and the speed limit on the 401 highway is 100kph(62mph)Walmart and Loblaws and Pride group logistics have ordered the Tesla Semi.
In the winter the average speed is probably half that because you spend 2-3 hours inching forward gridlocked in traffic. How is the Tesla semi going to keep the cab warm sitting in traffic for hours not even moving when it's -20C ?
@@ansmerek Electric trucks tend to have somewhat better insulation and heatpumps, no? Driving slower might actually offset the difference for a truck.
@@matejlieskovsky9625 I suppose a portable heater could be a solution
@@ansmerek Talk about a non issue. They could sit in traffic pretty much forever.
Diesel trucks... Not so much. Not to mention you need to keep the engine running for heat.
@@themonsterunderyourbed9408 so how does the driver of an electric car stay warm for 2-3hrs not moving in traffic when it's -25C ? Running batteries for heat ?
I'm curious with these claims. Is that fully loaded both directions or 1 direction like many trucks? Are they loosing load or not, that would reflect in loss of earnings or more vehicles on the road. I don't think we have the whole truth here yet, and still doesn't have the advantages of diesel power. We really need more information.
Can we have comparison at diesel truck to same route?
Agree it would be interesting but not much point. All the electric trucks are going to be significantly cheaper to run and maintain. The days of doubting that electric trucks can work are over. Yes still need the trucks and chargers.
Not much of a point. It s just worst technology all around.
@@danharold3087how long will the batteries last and how much do they cost to replace? Transport trucks go over a million miles before an engine rebuild. Do you believe an electric truck battery is going to last this long ?
@@lucadellasciucca967 Yeah, but eventually the electrics will get better
@@donhappel9566 I was reffering to diesel... And of course i m talking about potential. Electric is a better technology the ICE of any kind once maxed out.
Very interesting stuff. Lots of nay-sayers, but this is the future. It won’t come out of the box at 100%. The world will look very different in 20 years.
WHAT IS THE WEIGHT OF THE BATTERY PACK?...?DOES THAT TAKE AWAY FROM HAULING CAPACITY?..ISNT THERE A WEIGHT LIMIT THAT A TRUCK AND LOAD WEIGH??
Diesel trucks are built with over 1000 miles of range in order to deal with the aggressive biome and weather condition changes while crossing the US. A long haul has to be overbuilt for these exact reasons. A vehicle like these might work for Europe but they are still a long way from being long haul in North America.
Awesome 😎
I’ll be interested to see what the range and efficiency numbers look like after a year of being run like that. I think that will give a good indication of how well these trucks can compete with their diesel counterparts
Great information 😊
Interesting info. I think EVs will take over easy routes in the future. But there will still be market for diesels in Alaska and northern regions where lithium meets its physics reality.
EVs work great in cold climates, better than IC engines. Li-ion powered cars are working well in northern Canada cities like Edmonton, and the most northern parts of Norway.
Actually a lot of trucking today runs up' against reliability issues and high maintenance costs
Imagine this: You buy a diesel or gas powered truck, but before you drive it away from the dealer, he tells you that you shouldn't ever fill the tank more than 80%, and you can't run it down below 10%, or the gas tank will permanently (and irreversibly) become smaller. And each time you break the 80/10 rule, your total gas tank volume will reduce by a random amount.
Would you drive away in the truck? Or would you demand a truck with a gas tank volume that will never change?
Running a tank dry will fry many fuel pumps (perhaps other components as well).
It’s not “never above 80%”.
Maybe without exaggeration you don’t have a point?
Mike, your analysis of the first five days was extremely useful; is there any chance that you're planning to extend this to then entire run? Having done some of the calculation, this would obviously be a monumental effort; but would likely drive the last nail into the coffins of the haters.
And if not, is there anyway to get a copy of your spreadsheet, so I might take a run at extending it myself? Perhaps on Google Sheets, such that I could make a copy for my use? Thanks for at least considering this!
How does the cost of operation compare to diesels?
That's the #1 selling point of EVs - far lower operational costs and lower total cost of ownership.
@@truhartwood3170maybe in USA in EU countries like italy and poland have so high electricity prices thats not worth go EV
@@sladewilson8241 electricity prices will come down drastically as countries adopt renewables and then pay off the construction/upgrade costs to the grids. Won't happen overnight, but in about 10 - 15 years everyone's electricity will be way cheaper. The first to see the benefits will be the countries that adopted renewables the earliest, though the cost of solar, wind, and batteries are continuing to fall, so anyone who's slow to adopt will get things cheaper, but they will still have to pay off the upgrade costs before electricity prices fall. The absolute best is becoming self-sufficient and putting up your own solar and getting your own batteries if you can. Then you don't have to worry about what the grid is charging.
@@sladewilson8241 that is totally not true - you are way out - ROI is 3 years, 5 years max depending on usage and km clocked up etc - but in Europe, Trucks tend to get renewed out at 300,000km (1st owner sells), 600,000km (2nd owner sells then normally exported to outside Europe/Africa) and 900,000km (The truck is normally export to Africa at this point)
@@QALibrary i live in poland and tell me how is ROI possible when we pay over 1 euro for kwh? We pay more for electricity more than cost of desiel per km not to mention that Ev are so much more expensive to buy. And also you earn less because ev trucks have terrible range(volvo ev 300km) compare to desiel where easly you do 800 km daily. Yes cargo company pay you for km so longer trip better ,staying and waiting to charge is loosing money
I would take Pepsi at their word about energy consumption. They have the exact numbers for the energy used. You were estimating based on an assumption about usable battery capacity. Your quess might be correct on the day the truck left the factory but you didn't take into account the initial battery degradation. I have a five year old Model 3. It was supposed to have 310 miles of range, today it has 288. Almost all of that degradation happened the first year, the degradation since then had been very small. Pepsi drives their trucks much harder than i drive my car. The initial degradation probably happen in the first month vs the first year for a car so the usable capacity for their packs will be at least 10% less then when new. Given that they might be putting 100-200K miles per year on the tricks the degradation is likely more than 10%. But using the 10% number that would account for the entirety of the difference between Pepsi's 1.7KWh per mile and your 1.9KWh.
Interesting things that are becoming very clear with EV transit buses is that the battery degradation rate is significant (and very important) and the lower utilization rate of a large EV vehicle requires “MORE VEHICLES IN THE FLEET” to fulfill the same requirements. This is why some applications are better met by other technologies. Already some companies that serve California “shipping ports” who tried EV semis are moving to other technologies.
Well stated.
The latest batteries are showing minimal degradation after 1.5 million km. They're also way cheaper now, have almost double the capacity, charge in almost half the time, and barely lose any power down to - 20°C. And the improvements are actually accelerating, not slowing down. So we're nowhere near the pinnacle of how good battery tech can get.
@@truhartwood3170
IfUSāSō, problem is that nobody told the real life batteries that. This is what the local transit district is actually seeing in real life.
@@Mentaculus42 they're not using the latest batteries, so that's not relevant.
@@truhartwood3170 "double the capacity"? This is total BS!
This does not seem to be a fair comparison. Tesla Semi is obviously using 2 drivers per day and charging 3 times per day. With 1 driver and charging twice, a realistic range could be 500 to 600 miles in fast traffic.
But where's the unfair comparison? 1 driver in a diesel semi can still only drive 605 miles a day, because of the California 55 MPH speed limit, and the HOS limitation of 11 hours on duty.
@@BigBen621. No, not unfair to the diesel. Unfair to the other electric trucks in this comparison. The others are not doing the 2 driver per day things as Pepsi Tesla Semi does. Tesla obviously has more range but the comparison would be confusing for normal people who do not read the details.
@@erkantruckvlog I think if people are watching this video, they are not normal. They are the type that want to know the details.
This is a totally fair comparison. Pepsi obviously runs a 24 hour operation, whereas, the other companies are only operating a single shift. Each company purchased their respective trucks based on their operating requirements. I doubt that the other trucks could have filled PepsiCo's operational requirements. PepsiCo spent years planning for the arrival of their Tesla Semis and installed the charging infrastructure necessary to support their 24 hour operation. If PepsiCo only ran a single shift each day, they could have saved a ton of money by installing 50 to 75 percent less charging capacity (which is what the other companies did).
I believe that PepsiCo is achieving their 1.7 kw per mile range on their entire fleet. The trucks that are being tested in the Run on Less event are Pepsi trucks which, as you mentioned, are probably hauling heavy beverage loads, while the Frito Lay devision is hauling lighter weight, high cube, loads. Still, the numbers you are looking at, are within Tesla's announced specifications for the Semi and better than the other trucks in the competition which are presumably hauling lighter loads.
The absolute solution for Class 7 and 8 EV Trucks is construction and LTL.
LTL city driving and a short highway runs 250 miles and under.
Construction - dump trucks, end dumps, and garbage trucks.
It's hard to imagine how FedEx and UPS have not contracted to get an EV something like Wal-Mart and Amazon.
The freightliner is more "popular" because it has been made available to other companies. Tesla is working with one company not because others do not want it, but because they do not want to make it available. The freightliner is like an early Chevy volt with 120 km range. It is what they can make.
because they're not able to make it available.
Looks like Tesla is going to rule this industry
I think including ReGen is kind of irrelevant. Going up a hill consumes far more energy than is regained on the way back down and it’s not different than an ice vehicle coasting, basically getting free mpg. The big difference is that an ice vehicle consumes its fuel and becomes lighter over time making it more efficient the closer to empty.
Hmmm can't wait to see them on the show ice Road Truckers!😅😅😅😅
may be 100% charging its a test trials thing, or lease contracts structure gives a "go" for full use of truck and batt degradation is in price
It would be great for a manufacturer to tell them to work them hard. If they break, then learn from it.
@@mikethecargeek That's actually Tesla's mantra.
Tesla did 500+ miles at 82k gross crossing Grapevine, on a single charge. There is a video of it.
going an average speed of 52.5 mph. Not very real world
@@prof.crastinator You can keep looking for every way to hate this truck. The Tesla Semi doesn't really care. Want to see some fantastic numbers from it? Look at the Run On Less 2023 numbers, pay particular attention to Tesla Semi #3.
@@MidlifeTrucker-ThomBell It seems like if it was really that great- then Tesla would release the data in whole to the public- you’d think they’d want to brag.
The semi is not going to revolutionize transport- and Doesn’t live up to the hype Elon banked on of it- that it would not only beat diesel (it doesn’t economically) but it would beat RAIL.
That is a lot of over-hype, bordering on fraud itself. But saying it would have a “convoy” function was just a lie.
I don’t need a reason to think the semi is a failure, the necessary charging infrastructure makes it a niche product already- but when you throw in the reliability issues, range limitations and reduced max weight load compared to ice- it becomes a gimmick for companies to greenwash via pr.
The economics make no sense. The fact no price, cargo carrying and real-world range data is available except from a single source that is filtered via nda’s through Tesla, is not very promising.
Couple that with only a few deliveries and it seems like Tesla knows it… But we’ll see.
I mean the hyperloop proved me wrong. And full self driving robo taxis are now ubiquitous. And then there is that colony on mars that will be established next year….
82k? So empty?
@@jerrylawson9003 Sarcasm or Ignorance?
How will they perform in harsh weather conditions knowing how the batteries perform in the cold especially
The mass of the battery pack in a semi makes them pretty impervious to weather vs a car. Also, the newest batteries still retain 90% of their power down to - 20°C. So a non-issue basically.
Tesla has the best battery termomanagement system on earth. The cold has major effects on the efficiency of ICE vehicles.
Also don t think too much about the
@@lucadellasciucca967 Even with "the best thermal management" Tesla cars/SUVs are still effected by the cold quite a bit, so that's not a great argument. The better argument for semis, specifically, is that because the pack is the size of 11 car battery packs, and they're all in a big brick, the volume to surface ratio is drastically larger, so heat isn't stripped away as fast.
Combine that with the amount of power they're using and the pack can heat up quite nicely even when the weather is extremely cold.
On top of that, electric cars use most of their power to get warmed up, but then need very little power to stay warm. So if you're get into a cold car, driving 5 min, then stop and let the car get cold, then get back in a driving for 5 min, eover and over, you're range is going to be way way shorter than if you got it, heated up once, and then kept driving. This is also why it's good to get your EV reheating while it's still plugged in, as the you're range will be practically the same as if it was 20°C. Anyway, since the semi is operating for much longer periods, it doesn't have to use energy to constantly heat up over and over. For all these reasons, the semi is almost impervious to weather vs an EV. Combine that with the fact that, as I said in my last post, newer batteries are showing 90% power at - 20°C/-4°F, and it's pretty much a non-issue.
It is a non-issue now due to better design and battery management and also battery chemistry - in Norway, they do not have an issue with -20C to -40C temptures
@@lucadellasciucca967 Actually not. Most rivals have as good or better thermal management. It is not rocket science.
Why aren't they giving running weights ie size of load carried and gross weight
Cuz if they do they show the tesla semi cant really compete
Does anyone know how much it costs to replace the battery on these trucks? Also, how long will these trucks last? Thanks
100% isn’t necessarily 100%. There can be a buffer.
hilly roads aren't necessarily terrible for range if they can return downhill and gain back much of the range loss with regenerative braking.
Not really a fan of the fact that one Tesla Semi requires 16 or 17 car EVs worth of batteries. It's really just a tech demo.
Isn't that the way diesel trucks are as compared to cars? Just saying.
@@cashmoneypwns Simple steel cylinders are trivial to mine and manufacture. In terms of the scalability, You can get a 20 gallon for a pickup for about $200 that holds 805 kWh before losses, and a 120 gallon for a longhaul semi for $800 that holds 4,831 kWh before losses. Compared to the cost of a diesel fuel cell, the strain on metals resources that a MWh BEV makes is enormous and unsustainable to replace our transportation. The reason is because of the poor energy density of batteries compared to diesel fuel that it dedicates so much material to one vehicle.
So nah I don't think the scalability is comparable. There needs to be completely different mining techniques, and until then, we need plug-in hybrids if we want to move towards energy independence from hydrocarbons.
@@Infinion Once you include the losess it isnt that nice, idk why would you leave that out but at least you know there are losses. Electric truck doesnt make sense but thats the problem with trucks in the end, moving things to rails is the only efficient option (too expensive to enter I guess)
@@cyjanek7818Because it depends on too many factors, and nobody would read it. I'm just demonstrating the incredible energy density of fuel. BEV describes battery energy capacity before losses as well, so it's a fair comparison.
I think many will be surprised what's in store for fuel vehicles as they move away from reciprocating combustion engines. The energy density of fuels is really going to allow much more for transportation in the next decade with advancements.
re: "It's really just a tech demo...." exactly, it's nothing more than a "technology demonstrator", nothing more than a "PR Stunt", and it's sole reason for being is to ADVERTISE and (hopefully) sell ever more Tesla automobiles, and to ADVERTISE and sell ever more 2-Liter bottles of Pepsi-Cola, and that's fine as i have no problem with that. yeah, we forget how 99% of all companies on the Fortune 500 have an account on the books labeled "Advertising Expense"...
and they've never really said that they WEREN'T treating the Semi this way...? no, therein they are simply letting everyone's psychology of "Confirmation Bias" mis-read and mis-interpret what they are doing because what they recognize is, whenever you "mis-read" and "mis-interpret" things, you are naturally going to do it in a way that WORKS TO THEIR BENEFIT (and that's exactly what's happening) so be damned if they are going come out and correct you on this matter, like correct you for what...?
also ref: Elon fired the PR department years ago just like he recently fired the Supercharger 500.
Long term the game in this is going to be to get power behind the meter (self-owned solar/wind etc.) charging something like a megapack, add whatever line power at low draw $ rates to max the megapack and then dump charge at fast rates. Anything they can do to generate some of that megapack charge level , will be money in the bank.
My BS meter blew the main breaker......
Your BS meter sucks. Do your research, invest in Tesla.
Looking at third-party data about these trucks' real-world numbers gathered from actual, working delivery routes blew your BS meter? I think you are confusing a "BS" meter with your "personal bias" meter.
@@lucadellasciucca967 hah how's that been working out for ya lately?
@@GraveUypo Key word "invest" my guy! I ve bought 65 times in the last 365 days xD More than once a week! Have been able to bring my average share price below 200 dollars :)
Dollar cost averaging. Over 10 years investment orizon 😘
@@lucadellasciucca967 Do your research, invest in Toyota
Does this comparison is not a real comparison as we don’t know the load and speed that it was used, the only comparison should be equal route equal load, and than the result should be obviously better than advertised for Tesla
Would like to see data on down time for break downs and repairs
And data on cost of maintenace
The data would have to include the support equipment too
The battery pack isn’t saving them money. They use those kw on the grid. Or not have batteries in the first place.
Interesting video but unfortunately without the missing data the information itself is kind of useless.
During the presentation, Elon musk said 500 miles at highway speed at full weight.
It would have been nice to include the cost difference per mile vs diesel.
How about... calculate cost per mile driven, at a certain load?
need a part 2 on smaller trucks
The Only electric Truck that I can see as Useful is the Volvo FL.
Used in Local or Short Regional Routes, in Stop and Go Deliveries/Multiple Points such as Door to Door.
Then Electric Commercial Vehicles make Sense Money Wise.
A fully loaded diesel truck uses about 30 L/100km, so about 4.5 times as much as a car. At 1.7 kWh/mile these trucks use about 7 times as much as a car. Am I missing something here or why is he calling that extremely efficient? And keep in mind that a diesel truck has more loading capacity than an electric truck.
Diesel contains about 10 kwh of chemical energy per liter. A Diesel engine is about 40 percent efficiet. And 30 liters of diesel is equal to 120 kwh energy. This means 1.2kwh/km energy consumption. So where is the 7 times more consumption?
@@Bruh-pp5yz An efficient electric car uses about 15 kWh/100km or 0,25 kWh/mile. So this truck uses 7 times as much energy as an electric car, compared to a diesel truck using only 4,5 times as much as a diesel car. I am just wondering what is the reason for this.
@@weorldedit some Diesel cars consume 4 liters per 100 km.
We own a Kia EV & love it, but know very little about EV semi’s. I’d love to see the fleet move to electric for the quiet engine & pollution free. Eventually, I’d love to see diesel use severely restricted. It’s always made me mad whenever I see the smoke belching from a semi & doubly mad a big diesel pickups that are obnoxiously loud & pouring out fumes & smoke!🤢
❤❤❤❤
14:50 With the Telsa and OTR, you do not need mega-watt chargers everywhere - you just need a slow charger at truck stops that would run the truck's electrics/climate control/battery cooling/heating and charge the truck in 8 to 10 hours as the driver takes the overnight sleep
A simplistic analysis.
True. There s a million ways the Tesla semi is better then any other option. Do your research, invest in Tesla.
@@lucadellasciucca967 Troll. Probably bought Tesla stock at a ridiculous price and is desperate to see it recover.
@@maxhugen Not really. Didi my research for the past 5 years. I bought 116 times in the last 2 and a half years. Dollar cost averaging. When i have money i buy. Got to under 200 per share average last month and i won t stop buying untill the market cap is above 1.5 trillions or so! :)
Do your research, invest in Tesla.
I noticed that the EV trucks are given an extra legal allowable 2,000# grace max GVW poundage over the diesel powered max of 80,000# GVW due to the EV semi-tractor being so heavy with it's batteries to maintain trailer payload capacity. Also the energy density in any of the EV propulsion batteries, per pound will never approach the energy density of a gallon of Diesel fuel.
Also consider colder weather in Northern US states will drain more power from the batteries to maintain cabin temperature and external lighting in bad weather.
Also long haul drivers are paid by the mile and need 500-600 miles daily to make a decent living. Consider the relatively long recharging times to get the batteries charged again compared to refueling a Diesel rig that will contribute to down time that the driver is not paid for.
And where does all of this propulsion electricity come from in the USA? The EVs suck off of the teat of an already taxed and ageing American electrical grid with major prime movers like natural gas, nuclear, coal, oil, and some hydro.
The 2000lb increase is also for natural gas and hydrogen trucks, hydrogen trucks weigh more than battery trucks. The battery doesn't have to approach the energy density of diesel, just having 1/4 of its energy density will render it obsolete due to the batteries much higher efficiency at sending that energy to the wheels.
Keeping the cabin warm and running lights won't be a problem for the tesla semi truck. It's battery can run the Average home in the US for a entire month with its energy capacity, a diesel semi truck can't even idle that long lol.
The tesla semi can put 350 miles in its batterynin 30 minutes so it will fit 90% of truck routes in the US for a single driver.
Coal has ben surpassed by renewable in the US in 2022, natural gas is next, fracking and drilling in the US is heavily dependent on subsidies from the government, far more tax dollars goes into making gas cheap than going in making renewable power cheaper.
@@miguellopez3392 Right now the electrical prime mover fuel in America is 39.8 % natural Gas, 19.5 % Coal, 18.2 % nuclear, 21.5% renewables, and .9 % petroleum (.1% error). Right now natural gas is king in that it burns cleaner, it is relatively cheap, and is plentiful. www.eia.gov/energyexplained/electricity/electricity-in-the-us.php
I agree that there will be a place for the Tesla semi. But it only seems practical for local and short dedicated routes. An OTR driver needs miles to earn a decent wage. A 350-500 mile range is not going to do that.
Long range truckers can drive 11 hours a day so stopping to charge the truck for 2 to 3 hours during the day would be a problem for them. This assumes there is charging during the night while the trucker's sleep.
Exactly. Long haul as it is done presently by trucks in North America does not allow electric trucks to do the job, even if the range could be extended to 1200 km per charge. Sometimes, drivers don’t have too much choice to park and if they can’t find a charging station for the night, they would be screwed.
It takes 1 hour to full Charge for Tesla Semi to charge @ 800 to 1000kwh charger.
@@rozonoemi9374 And ? Why is it relevant ?
@@martinpenwald9475 you stated that it takes 2 to 3 hrs to charge, which not the case for Semi. Yes I agree that presently long haul truckers can't realy charge along the way, but it's coming. I'm à retirer truck driver for 30 years so I know all about Trucking, because I'm off to the rodeo with a heater in my truck!!!
@@rozonoemi9374 Learn to read. Where did I state whatever about charging time ?
None of these numbers matter at all if we don’t know the weight of the trucks and how much weight they haul. Yet for some reason it’s the biggest kept secret with these truck. And there’s a reason. Trucks get paid by weight hauled per mile. There’s a few cases where big light stuff needs to be hauled and that’s all these will be good for until we have better battery’s.
No one seems to include the driver's experience in their assessment of Tesla's semis. How does a driver hand paperwork over to and speak with someone at a booth? How does a driver look out the window when backing or wipe clean the mirrors? How easy is it to manage a touch screen when bouncing along America's ultra smooth roads? There's very very little upside to any sort of touchscreen in a moving vehicle. It does not have any sleeping arrangements for the driver. It's strictly a day cab configuration, meaning it's not suited for trips that take multiple days. Tesla's Semi is impressive in many different ways but being practical isn't one of them. And while in Tesla's cars they move units because features over functionality is acceptable, trucks aren't status symbols first. They do, at the end of the day, have to do the job they're designed for efficiently, and things like this are clearly just "trendy" not practical. It seems Tesla's designers do not adhere to the principle "Form follows function".
The entire design was based on what's best for the driver and daily operations with tons of feedback from the drivers, using the semi for Tesla's own operations, etc. Do you really think Tesla doesn't know and take into account everything you just said?
@@truhartwood3170 From your reply, I can tell that you've never driven a semi and performed multiple pick ups and deliveries or driven one from coast to coast. I can understand someones appreciation for futuristic designs and the latest technological innovations but a little critical thinking will show they are impractical for everyday use. Form should follow function.The design of the Tesla semi is definitely not driver friendly.
@@niemi5858 There is no remotely possibly conceivable reason Tesla would design the semi around anything other than practicality. Their customers will judge it based 100% on pure practicality, nothing else. Tesla knows this. Drivers have been key consultants on every phase of development to make sure it's going to work for them. But with every design there are tradeoffs. If there's something you see that doesn't make sense for one reason, there could be five other reasons it makes way more sense to do it the way they did. I'm not sure why you think their cars have sacrificed functionality either. You do know there's a difference between "not familiar" and "not functional", right? I also find it to be the pinnacle of hubris to say "I don't get it, therefore it sucks." In any case, they'll be driverless in 5-10 years or so so being practical for the driver is only a short-term consideration.
@@truhartwood3170 Have you ever driven a semi? Have you made pick ups and deliveries in one? Have you driven a semi for an over the road operation? If you answer, I will provide a rational explanation for my outlook, otherwise there would be no point in continuing. Thank you.
@@truhartwood3170I see you didn't respond to my query about your semi driving experience. Care do do so now?
I noticed that you’re using a BMW I3 in your picture at two minutes. But as it turns out BMW has its own built-in battery management system that will allow you to charge it to 100% without battery damage. I always charge my car to 100% My car has over 100,000 miles on it and I have yet to see any battery degradation.
Hiding %10 SOC behind software isn’t very interesting to me. Ofc bigger battery lasts longer. Phone companies also do this & it is controversial at best
Ofc Pepsi is going to have the heaviest loads as they are transporting liquide all the time
This is a long way from “Defies the laws of physics “
FWIW, Daimler was talking about buying a Tesla Semi to test in Germany, and said "The laws of Physics are the same in California and in Germany," not that Tesla's semi "defies the laws of Physics." I think Bill Gates did say something to that effect though, but he knows very little about trucking or EV powertrains, so not worth paying attention to. Daimler, on the other hand, is the world's largest truck manufacturer.
lol….. how much for an electric EV? And is it worth it ROI
Yes. That's pretty much Tesla's entire pitch - electric semis cost way less to operate.
@@truhartwood3170 problem is the maths do not workout. 1/6 of the carry/load capacity. Reduced range in cold or hot extremes. Cost to buy horrific. Than down time when charging as charging points for those lorries are low in number. Thank you, but no thank you.
@@latitudeash oh for sure, if anything you said was true then they totally wouldn't make sense. Fortunately, none of what you said is true.
@@truhartwood3170 - That's good then. Can I suggest you go out and buy 10 of them, you will be making money hand over foot? It's all a vapour product. You can't even order one now. Total prototype fakery. BUT luckily I am wrong and you can make lots of money, as Elon said you would be mad not to buy it as it is sooooooo much better than dinosaur juice.
How much load was Tesla with it 10000 pounds? 40000 pounds that's a question I don't know. Did you answer that. You also stayed 50 miles or plus on the highway. What trucks go 55 on the highway? Everyone's doing 75 to 80 on the highway. If not, you're gonna get run over. Why is tesla only produced about fifty trucks when they said they'd have about fifty thousand by now
To move heavyweight work. Heavy machinery. Hydrogen fuel is the way to go with fuel cell. Or an ice motor
Tesla trucks are over 32000 pounds and have very low cargo limit... They only haul frito lays chips around. Light loads only..
Does not work to good on regular trucking operations...
Only limited use successfully..
Thanks for showing us the data, this shows how stupid EV trucks are.
1) Drivers don't care about the batteries because its the company paying for the degradation not the company. Hence not capping the charge and driving it down to single digital state of charge
2) Range doesn't seems to be sufficient because drivers are fully charging it and driving it down to single digital meaning that they are not willing to wait at a charger to charge midway or they don't care about the really really expensive battery packs because their company is paying for it. I would really hate to see it in a few years where these battery packs are old and could no longer cover that distance.
3) they are charging whenever is convenient meaning they are charging during the day which means electricity rates are sky high.
4) Pepsi have an on site battery storage where they could charge the truck with during high demand charging. This just just adds a bigger battery pack that you're cycling and degrading.
5) Also, most of these things seem light.
If you really want a new fuel hydrogen would have been way better or syntenic fuel
Ev trucks might work as a local hauler. Especially in ultra liberal cities that force it. But will never work on long hauls.
"Never"
😂
A lot of Pepsi co is lays potato chips that are light loads. Schneider is only in LA valley
The Freightliner will have slightly better efficiency largely because it has a much smaller (lighter) battery. Considering this the Freightliner should have even better efficiency than what was demonstrated.
With less than half the range of a Tesla Semi, the Freightliner should have *much better* efficiency for the reason you state; but actual efficiency is 2.2 kWh/mile, substantially worse than the 1.7 to 1.9 kWh the Tesla Semi is demonstrating-and with much slower charging, to boot. The Tesla Semi charges at about 400 miles per hour, while the eCascadia charges at
But it doesn't because Tesla tech is a decade ahead of the competition and still moving forward.
A lot more guesses and assumptions, than real data. You can't really make such a comparison, without full transparency.
I always wondered why the battery packs aren't mounted on the trailers themselves. Running out of battery? Leave it charging and pick up another trailer. Who cares about supercharging them?
traction!
The drive axles are currently on the Tractor unit, so this unit needs enough mass to be able to generate enough tractive effort to accelerate (and deccelerate) the entire rig. The batteries are heavy, so putting them on the tractor unit is a no-brainer. It also allows the existing std trailer fleet to be used without any mods etc
For every semi tractor in the US there are about 10 trailers. Typical usage is to haul a trailer to a destination, park it there, and pick up another trailer for the next leg.
Cost per ton per mile travelled seems like what we need to know.
That’s a lot of “estimating”. Unknown GVWR is a big problem.
Pepsi also mentioned regenerative change along routes there go the 1.7 is more than possible
I find the place where they’re testing these a little suspect. California is one of the best places to run the diesel truck. As far as fuel economy goes low speed limits great weather. If they really wanted to test the range of these things, send them out to Wyoming in the dead of winter Northern BC or Alaska. I’ve always said there’s a place for electric trucks in this world, but not the BL and end all for everything. The way they’re testing them is proof that they don’t want to take them out in the real world.
Makes you wonder, why is PepsiCo only using 3 of the 35 Tesla Semi's they bought?
They only entered three in the Run On Less event. Not only are they using all of them, they just took delivery of 50 more.
The Tesla did 500 miles + from San Diego to Fremont over hills coming out of San Diego and over the Grapevine at highway speeds and fully loaded.
They should be using lithium titanate faster charging no temperature problems no issues charging 100 percent or going to zero 30,000 cycles
but much less energy density, requiring more space for batteries
Tesla truck would make up some of the time charging by going up the summit twice as fast as a diesel truck
Volvo locks the battery to 80% of the nominal capacity
It's been mentioned, but... CARGO! The only thing that's important here is how much it can get from A to B, and at what fuel cost. Range is a factor for personal vehicles because we hate to refuel... I guess... But for a trucking company the range is only important for how long it will take to refuel and that may not even be a thing if the truck has to wait for the trailer to be unloaded and re-loaded at the destination.
So basically, this video is not just apples and mango's, it's just you saying numbers out of context.
The cargo it can carry is the same as a diesel. The 300mi semi weighs
Most longhaul uses team drivers running the truck 24 hours a day
Wasn’t it going down hill?
The vast majority of trucks should go plug-in hybrid while battery tech matures, it will be easy to rebuild those into full BEVs later once there are even cheaper / safer and better batteries… they can even use cleaner burning fuels immediately; generators aren’t as picky about the type of fuel, usually being operated at a constant ideal RPM and don’t need to have things like low RPM torque and many other requirements typical of transmission driven truck engines, nor do they suffer from the same emissions problems since they are inherently burning clean at ideal efficiency which normally only happens once up to constant speeds.
Battery tech has already improved and is continuing to improve rapidly. We're already looking at mass-produced batteries with 500Wh/kg, about double that of EVs on the roads right now.
I’ve seen rumors that the Tesla semis were burning thru & replacing battery packs on a regular basis. Any news about this?
More FUD from Tesla haters.
Nah not yet theyve barely been out long enough to wear a battery by THAT much
I've seen rumors that the moon is a cube, just with rounded corners, so we can't see it. Any news about this?
Another person keeps Nikola out of the video.
Nikola has been on the road and hauling longer than Tesla.
They have put more miles on their trucks with very little trouble.
Do some more research.
The other companies have already delivered thousands of electric trucks. Tesla has delivered a few dozen. That should tell you all you need to know.
I mean it makes sense tesla is building its factory for it soo ofc its gonna be slow
@@mcsike7264 They introduced it 7 years ago and said deliveries would start in 2020. There is no excuse for them to not yet have a facility to manufacture them.
@@TroySavary your fault for believing in elon time line if elon adds a time line just put 5 years ontop of it
@@TroySavary also covid was a thing
@@mcsike7264 Other car makers managed to get through Covid with only minor delays. But keep believing that a company whose sales are still dropping, despite drastic price cuts, will be dominating anything.
Cybertruck is late, and vastly under the originally promised specs. Semi is late, and also not living up to promises. They are desperately slashing workforce due to a money losing quarter. They haven't introduced a new mass market model in 4 years. And to top things off, Elon is demanding a compensation package greater than the company's total revenues over its entire history. But feel free to think Tesla is on the way to the top. I won't get in the way of your delusions.
Was there any data on who tf is actually drinking Pepsi?