Are Electric Cars REALLY That Green? [New 2022 Data]

Actually scrapping your car and buying and running a brand new EV can be greener.

@@therealjpster riding bicycle is the greenest

@@jianyangkoh6386 of course it is. I don't feel this needs saying.

@@therealjpster Actually, you don't know anything what you're talking about. One person in a developed country can spend 100x more emissions/energy CO2, CO, HCx, NOx, etc, kJ, kCal, kWh in his lifetime than a poor person in a developing country. It's not just emissions from your car, it's your entire lifestyle, your house, your heating/cooling activity in your home, all your modern appliances, your vehicles, your travels, all your purchases including constantly buying new thing is a human activity measured in emission/energy.
So if you think you are "green" driving an EV, you're like many millions brainwashed to the modern consumerism. As I said if you really mean being green, move to Amazonas or Pacific islands living off the ground, using minimal modern amenities. Wake the f up.

@@TrumanBurbankFE I didn't say green, I said greener. But I agree anyway.

You can however, always trust politicians to lie.

The same mindset as global warming (which I hope gets here soon because I don’t like being cold). In the late 60s and into the 70s, we were told that the next ice age would come within the next 20 years. I only had ice in my drinks. Let’s Go Brandon.

Yes, the EU forced this directive upon everybody. Diesel drivers have been paying next to nothing for road tax here in the UK, £30/yr, whereas petrol drivers have been paying up to £400/yr - it’s a joke. Yet the diesel cars were pumping nastier stuff into our local atmosphere - diesel was cleaner overall, but only cleaner at source, much dirtier at use (where we live). My grandfather was from Luxembourg 👍😊

@@dannyboywhaa3146 my 1.9 TDI £30 Road tax :D

Don’t believe anything not even the date

Good thing jeff bezos built a 420 foot yacht and drives a private jet every day, goes to fuckin "space" for no reason, but I have to worry about my cars co2 lmao life isnt a tragedy, its a fucking comedy

I saw a reaport that said 60000 miles but muy 1liter Suzuki celerio skods city go use far les Lan a model 3 some thing like 240000 miles before you you equal you brake eaven

not sure that he is

@@davidwillims2004 why? Please explain

@@gingernutpreacher no sign to speak of that he is an evangelist. why do you think he is?

Spot on. Unfortunately we live in a disposable society.

I would also be interested in seeing a comparison with the impacts of getting a new battery in EV's to contrast that with engines in gas cars.

They will never allow that because if wouldn't fit in with their green ( brainwashing)agenda.

@@ShiningSakura A battery refurb, rather than a complete replacement, is usually way cheaper.

Even if you want to do an engine swap by yourself it's very hard to get the car road legal in many parts of Europe, for example, in Sweden it has been completely illegal, but quite recently it became possible but still just something enthusiasts do, and then it's usually with bigger engines..

🤣🤣🤣

Get the popcorn 🍿

They delete any opposing comments, ask me how I know!

@@ChromeFlakes go on then

@@ChromeFlakes You mean like 'The Guardian' - 'Facts are disposable and comments not free'?

China just built, the largest coal plant ever. They promised to “start reducing” coal burning, by 2025.
At the current rate, it won’t matter.

@@billpetersen298 Maybe its needed for a stable wind turbine and solar cell production :)

@@bingoberra18 It’s not needed, by any measure. Once the pollution is out there, it’s not going away. China had a rural agrarian economy. (Low impact). They could have learned from the mistakes of developed nations. And developed, I a manner, that was slower, but more thoughtful. Especially, including ethnic, and religious diversity.
Windmills and solar panels are also not green, or good for the environment. They add another layer, to what was done before. Polluting less, is good, but not after you’ve wrecked the place.

@@billpetersen298 China absolutely needs to be taking more action, but we should not forget countries like Australia or Canada that produce 2.5x as much CO2 per population.

Try not to worry the oil is slightly radio active and the water in it is put back in the ground under pressure and just like in a engine block it cracks the surrounding material thus creating earthquakes and the water can an does seep into your water supply....

Totally agree. My i3 was much more effecient, interesting and clever but flopped due to high manufacturing costs, put BMW off the efficiency route. Hopefully manufactures will soon wake up and rid us of the horrible SUV trend. Mercedes vision eqxx looks much more like the way to go

As an Ioniq 5 owner I can confirm that is less power efficient then the OG ioniq. But my energy consumption hovers somewhere around 3.2 miles per kWh. And it's winter here so it will increase as temperature will rise.

@@Levdbas Pleased to hear that your consumption figure is better than the one I've heard. Still room for improvement though.

But on the other hand. More people are likely to take notice of and get the new Ioniq because, they actually look pleasant and let's face it, aesthetic does influence interest and consumption.

yes, but thats the same as comparing a 1.2L car with a 3L ICE car. Ionic 5 is luxury in comparison and therefore a lot bigger and heavier.

Lithium batteries can actually be recycled, it's just not easy and thus expensive so you don't see much of it. This is absolutely something governments need to invest in significantly since it's obvious corporations will not due to it not being very cost effective for them.

@@Enclave. This is part of my point of how that needs to be factored in to any comparison of an EV being 'greener' than other options.

@@dieselmutt8865 Well of course, I didn't say it wouldn't. In fact I commented earlier on this video this: "I've been saying for years that an EV making sense depends largely on where you live. Where I live? Over 90% of my electricity is "clean" as it's from hydro power instead of burning fossil fuels. An EV makes a LOT of sense for where I live, a hell of a lot of sense. But you head somewhere that gets most of their energy from say coal burning? Becomes a lot more murky."
Regarding the recycling of li-ion batteries though, it's a bit ridiculous that governments aren't going hard on the recycling of them, it's a limited resource and it's a resource that we use in so many industries that goes FAR beyond just EVs. Government investment into the recycling of lithium batteries is something that should have been going on for decades now once they started becoming the dominant form of energy storage in the consumer market.

@@Enclave. Governments do not have to go after recycling of batteries... Companies are emerging that take up the recycling of batteries, tons of valuable materials in batteries, and when done properly the recycled materials are more pure then from new mining, so battery manufacturers are happy to buy it from them for a good price.
Redwood materials and Umicore are growing battery recycling companies and making good money out of this, no need for subsidies. Tesla and VW are so big they can take up the recycling of batteries by themselves, both Telsa and VW are investing in this.
EDIT 21-04-2022: Actually we learned during the Q1 earnings call, that Tesla is ALREADY using *50 tons per day in recycled materials* for production of their cars (not only batteries but a lot of Aluminium scraps too)
Panasonic making the 2170 battery cells in the Tesla Gigafactory in Nevada, is also already using recycled battery materials, delivered from Redwood, so it is already happening! (just google Panasonic and redwood recycling, and you will see a bunch of articles about this)

They also need to make the batteries cheaper, as the used buyers will not be able to afford a new one and the car will end up in the junkyard.

What I don't like is people claiming Volvo had some agenda and that they want to keep their ICE vehicles around. That's not the case. Volvo has very specific plans of phasing out their ICE cars and it is more aggressive and quicker than most so-called legacy companies. No, Volvo did a study to get information out. And people can accept it or not. But there's nothing wrong with others studies being done as well.

@@benjaminsmith2287 I think they're just studying for the sake of studying. it's not for determining their future or anything, just sharing some info yknow

it can take as little as 3 months in the UK to break even

I also enjoy listening to Rory Reid as I rate him as a fair and balanced journalist. My Fiat 500e will receive around 60% of its charging from my solar PV system and it has a much smaller battery than a large SUV, so I'm not sure how it would compare with (say) an ICE Fiat 500 hybrid bearing in mind that over half of grid electricity here in Scotland comes from renewables.

@@briangriffiths114 Fair to say (as pointed out in the video) that a lighter EV with appropriate battery size/range is more beneficial - and a 500 vs 500e would be a similar comparison to what Volvo have done. The kicker here would be:
A) What are the realistic lifetime emissions for YOUR particular 500e vs if YOU would've been driving a 500?
B) Where did the "Italians" source the materials for YOUR 500e, and to what extent did they seek to protect the environment in that particular geographic area in order to protect (and benefit) the locals long-term?
Fair?

@@wahaha6961 All very good points. I do not get the current trend for large and very powerful cars (whether ICE or BEV) that can usually do 0-60 in under 6 seconds but I seem to be in the minority. Having never driven a BEV prior to the Fiat 500e, I am impressed with it and intend to keep it for a very long time.

@@briangriffiths114 In 2020 97.4% of electricity consumption was from green sources in Scotland. I think your 50% is all energy consumption, including gas etc… for EV’s in our country we are are doing well from a green electricity generation standpoint.

Volvo is moving towards full electric. It’s foolish to believe they’d be entirely impartial.

@@paulwilliams667 and yet their report was actually quite critical of going full electric, showing that a balance is required as BEVs aren't inherently greener than ICEs; it depends a lot on how long you plan on keeping it, how many miles/km you intend to run, and how green the energy matrix of your country is. If your country generates most of its energy by coal or oil, the time needed for your BEV to become greener is much longer.

@@ikemotosystems1434 That's my point! They ARE biased towards green energy and their report still isn't conclusively EV>ICE.
Once you take into account the mining processes, lack of recyclability and energy expenditure to transport raw materials, EV tech is absolutely awful for the environment. There shouldn't even be a debate on this subject. EVs won't be viable until solid state batteries or similarly efficient tech is widely available.

@@paulwilliams667 Ah gotcha! Thought you were referring to the report being biased! Completely agree. I do believe EVs will be the future of mass individual transportation, but only when we can actually solve the issues of making them having a huge impact on the environment.
Ironically, Toyota is the one who is experimenting and developing solid state battery tech. The one company Tesla fans love to shit on and predict the doom of, are likely positioning themselves to eclipse Tesla in the fight for the BEV future.

Totally agree with you on the battery replacement part. Not so much on the trading the car off early part because if the original owner isn't driving it hopefully someone else is and possibly that's someone who can't afford a brand new one or simply chooses not to buy new, or a first time EV owner that wants to try electric without that new car cost. So the miles on that car will still counting. I agree with his point and it's the one that i think is possibly the most important one... How the electricity is produced is to me the most important part of all of this. Along with much better batteries

@@heavenleigh111: Components age. LIke my parents 30 years ago, I don't drive much in retirement. Especially with the desire to be greener and with the Covid-19 pandemic recently (and maybe long term for those of us lacking youthful immune systems).
So If I keep my 2017 Camry for 15 years but only drive it 45,000 miles it won't be dead, but I wouldn't count on it lasting as long at 12K miles a year with a new owner as I would a car only 3 to 4 years old.
This is good info to have. I just assumed "BEV is better" re CO2, but since I live in coal country for electricity (dark red state and local electric utility runs purely on coal), it might make more sense for me to be patient, and to buy a good, efficient, HEV next time, or maybe a PHEV with a moderate sized battery. Because it's seldom I drive much over 50 miles in a day anyway.

Very good point, was thinking the same thing regarding the battery replacement, not to mention the toxic gases given off by decomposing batteries

@@rogergeyer9851 2 other major points this video mentioned a bit, but did not evaluate. Firstly, the study claimed a "life" for the vehicle of only 124k miles, but only compared the emissions across 90k miles. 124k seems dreadfully short to assume for a battery life or any other life of the vehicle, and it brings up point 2. Secondly, he notes that the vast majority of the carbon footprint for the BEV is in manufacture of the battery, so this brings up a HUGE uncounted carbon cost which would set the EV way back, and perhaps below the ice once again. The Ice may keep steadily climbing as the mileage goes up, but the BEV adds huge stepping stones every time a battery needs to be replaced. OR, its valuable life simply ends, and you are assumed to replace the entire car with brand new manufacture. Where the ice just keeps going for the carbon cost of fuel and maintenance.
It also brings up what q mentions... what is the carbon cost for disposal and/or recycling of the batteries? Should that not be added? The ice engine simply gets melted down with the rest of the vehicles metals, but the rare earth materials in the batteries need to be recovered.

I was to make my comment, but you already said it. So, I too think one thing missing here is the battery longevity. Petrol cars can run for decades until the body starts literally rusting off. I'm not convinced any battery can go over ca. 7 years without needing an expensive replacement, hitting the green graph to new low again. EDIT: And I know there are people saying it's okay to lease a car for 5 years anyway. But if you look at the used car market, there are LOADS of petrol cars 10-15 years of age that look fairly modern by all design standards and based on climate run well. Mostly only lacking in digital monitoring-controlling screens etc. I remember someone reviewing a used semi-luxury car and saying all good, but no USB charger plug...

"Unfortunately in my area, the local power companies have managed to get legislation passed over the years that really strangles the ability of consumers to put in things like solar panels on their homes. " Wow!!

Wow? What country is it?

@@jonasweber9408 The good old USA. Laws governing things like solar panels on your home vary wildly from state to state. Some, like mine, have very anti-consumer focused laws courtesy of the power company and their lobbyists.

@@JookySeaCpt damm that’s not cool

@@JookySeaCpt the US government is in general anti-consumer tbh

Been saying this for years.
I also have a question as to why so little investment in comparison is put into clean energy through water seeing as we live on a water based planet.
There have been numerous water powered cars over the years using frequencies to separate the hydrogen and oxygen. But quite strangely the creators always seem to die under mysterious circumstances and their work just disappears. 🤫

@@78KRS really interesting what you wrote, going to check this out… see what I can find 😉 thank you

@@AgnesVivarelli1966 Are you talking about Stanley Meyer? I watched a RUclips video "5 inventers who died mysteriously". A Russian guy invented a plasma battery that powered his house for a year, he disappeared without a trace and men in black confiscated his devices

Germany's Karlsruhe Institute of Technology (KIT) has created the Grimmer-Saravia process, enabling a highly eco-friendly way of mining from lithium in geothermal plants; existing facilities. No need to take months and months and millions of square kilometers and destroying fresh water supply and polluting the land. We will discover new methods in the future, whereas ICE is a dead end. We know that. We've put in trillions over the last one and a half century.
Also, as for recycling Redwood Materials is doing great.
"It would be great if there was also a conversation about the environmental impacts..." you said. You could have found these solutions being worked on by simply Googling it, and discussing it here down in the comments, or writing your own blog, shooting your own RUclips vlog or even shouting it off your rooftop.

@@keithmarshall7715 yeah he's one of the water car guys probably the most well known.

goeingdriver29: Your ilk is why I'd like to see the government make the CO2 taxes on gasoline and diesel about 20 bucks a gallon. If you're going to be the biggest part of the problem as long as legally possible, you might as well pay to help clean up the mess you insist on making.

Every thing in a grocery store is there thanks to oil!

@@rogergeyer9851 did you even watch the video?

@@keithmueller1448 and it all used to be there due to horses and wagons too, so does that mean we should not move on?

It already is 😂

@@PedroKing99 And you think the cost of petrol and diesel won't? How about when the huge taxpayer funded subsidies currently offered to the oil industry on an annual basis finally come to an end? Expect your fossil fuelled car to cost 4 or 5 times as much to run when that happens...... driving an EV will always cost less in "fuel" than an ICE car.

Having your car today would be worse in 10 years than if you bought an EV. This is also true when the battery is replaced, according to another video by Engineering Explained who considers the worst case scenarios for EV's and battery replacement.

@@Jimsimi Buying a new EV is way worse for your average consumers wallet.

If you have an existing car that's running fine, passes emission inspections and is not a completely absurd gas-guzzler, I don't think it's environmentally good to scrap it in favor of a hybrid or EV. Keep that thing running and put off the lifecycle costs of producing a new car for as long as possible. But it's more a question of what to get for your next vehicle when the time eventually comes.

Unfortunately we live in a world where NEW rules and its sooo easy to get loans credit pcp etc to enable stupid people to have everything lastest thing TODAY and in 6 months when they have ragged it about on cheap tyres and crap fuel trade it in for the next punter who can actually afford a decent car... They do it all over again along with the lastest i phone blah blah.
Hence why the planet is in such a pickle.
This EV fad is just another short term plaster to fix the issues and line the big player's and governments pockets.

By definition existing ICE cars will become more and more expensive to repair. It's the nature of such vehicles to suffer wear and tear in any number of important components. Having owned ICE cars for 20 years and an EV for six years I can attest to the MASSIVE savings in maintaining a car and fuelling it. ICEs just can't compete.

How many miles are batteries rated for. Do they include figures for any gradual degradation? What about the point when it's time to change the battery. Before I heard it was every 10-15 years or so but perhaps it's longer now.

Totally, and I think this also shows that to really improve the greener-ness of EVs, manufacturers need to focus on reliability and lifespan. Batteries should last longer, as they'll be the biggest replacement and the one that hurts the environment the most. But mostly make EVs that can go half a million kilometers +. Not to continue the trend where it seems like all cars are made for the first buyer, and then no one cares if they go to the scrap yard after 200k kilometers. Who cares if the second owner drives with an eco benefit if they have headache after headache with all the electrical faults or rust.

Small sample size but all the Teslas I have checked for degradation seem to have lost less than 10% range over 150-200,000 km. Leafs much more of course, I have a 190,000 km gen 1 leaf and it has dropped to 59%
I also tested a 300,000 km electric taxi that had 98% battery remaining on a fairly odd and heavy battery chemistry.

@@integralhighspeedusb what is the price difference between your leaf and a similar generation Tesla ?

No impact on the environment means the electricity and the tires are all green. Do they come from a recyclable source yet?

True but one thing that wasn't clear in this video is if the "lifetime" figure was taking into account electric energy production only using fossil fuels, or renewables, or both. And one thing that I'm also curious about is if we're taking macro things into account like battery production, are we also taking into account things like oil production and transportation into the figure?

Who said all cars have to be electric?

@@Tron08 Good point i always wondered if those figures are put into it. Fossil fuels definitely have an infrastructure that has to be taken into account.
Probably the most important thing i think of all the time is the efficiency aspect of it. ICE are only 1/3 efficient of a steam turbine. Which makes an electric vehicle charged with fossil fuels just about 3 times as efficient. So for ever mile you drive in an ICE you could drive 3 in an electric car on the same amount of fossil fuels. Basically we could triple fossil fuel reservers if everything was electric. If we need to use fossil fuels then steam is the best option all around.

@@Tron08 If you watched the video, that was all calculated in. Try watching from 5:25

EV cars are dangerous, if you get a car crash they cough fire in seconds (i saw one myself) and also could kill you by high voltage discharge even when stopped

Thats part of the report.

I guess that's on thing that I didn't here addressed is when the batteries need to be replaced then the EV cars would take another big hit as far as pollution! Didn't here that factored in !

and solar cells use coal in the process ......

Need better mass transit

C02 is a natural gas that plants feed off and can be offset by fast growing trees, renewable energy and electric vehicles produce toxic by product far worse than C02 like you mentioned with batteries etc.
Most of the world’s renewables are made in China by Uyghur slave labour and coal power plants are used to power those factories there made in. Than there is the toxic by product produced during manufacturing, repairing and disposing of renewables.
Alongside EV’s having the exact same toxic by product from manufacturing, repairing and disposing of EV’s themselves.
Than there is the growing cost of disposing of EV’s, batteries and renewables which will cost tens of millions annually.

What utter garbage! Almost all EV batteries come from new with an 8 year warranty! Never mind about maths. *You* need to do more research.... You probably don't even know the oil companies have mined cobalt for decades. They need it to remove sulphur during the refining process. My friend's BMW engine didn't last for "decades". He had to buy a new engine after 4 years. It cost him thousands.

It would be interesting to see new power storage technologies put into vehicles other than lithium ion. Things like sulfur or graphene based cells, even structural batteries, shouldn't be too far away.

I just made this same comment and then saw yours. Also the way that Cobalt is mined involves low pay child labour. It makes me wonder if BEVs were manufactured ethically, if they would become unfeasibly expensive.

@timemachine_194 until you need to replace all the batteries in the car for about the same price you paid for the car when it was brand new, to get at most sources of lithium you have to strip mine the topsoil away, which even done "ethically" still takes its toll on the earth and no they are not recyclable not at cost anyway, heck in Washington state we have the very LAST glass recycling plant in the US why do you think they shipped off most of that junk to China when China would take it? Because recycling is not cheap and each time you reuse the material you have to put more energy in and get less out due to refuse material (sometimes called slag). It's a pipe dream not a terrible alternative especially if one lives in the cities, but for a country like the USA it won't work because people don't want to have to get lunch waiting for their car to recharge.

Many companies are working on better battery designs, it'll be very surprising if 10 years from now the current lithium batteries aren't replaced by a superior alternative with far better energy density and little to no use of lithium and cobalt. Hell Tesla says that their batteries already use zero cobalt.

Once the cars days are numbered the batteries are toxic yes? What about that issue because toxic waste is worse than CO2 that we all breath out and trees use to survive of I would have thought

Didn't even look at the report, did you. Not that it's very detailed it's in their page 42.

@@michaelthomas7898 Its the artificial life-time mileage limit used in the report that is the biased problem to support electric vehicles. That's why they released the report as it just favours electric cars. If they were honest about vehicle lingevity and ownership of petrol cars then the curve swings the other way again.

@@captaincrash12 You're not even close. Nothing gets better with age except whisky and wine.

@@michaelthomas7898 Steel Chrome bumper cars will be around long after our plastic cars are waste. You know it. Maybe drink your wine on your steel car picnics and run whisky in the boot for profit. :)

@@captaincrash12 Cars haven't been built with chrome bumpers for almost 50 years now. Think about it.

You are comparing your "small" car (normal sized for Europe) with a large EVs. Currently the EV market is about large, long range EVs, mostly because of the USA market.
A smaller EV can easily get away with a half sized battery. This halves the initial CO2 footprint, and the smaller EV needs less energy to go, just like your smaller car.
In Central Europe we would absolutely love smaller and cheaper EVs, 100 miles of range would be more than enough for most people who commutes regularly. For example, from Budapest, you can access half the country without stopping for a charge.
If you stop for a charge, you can access the whole country with a tiny 100 mile range car.
Not no mention that you can go to Poland and charge there without even stopping in Slovakia.

@@adamrak7560 i agree, the calculations are based on volvos large batteries, most EVs in europe have 30-50kwh sized batteries, which are considered small to meddium in europe. Also it is an unknown, how efficient is volvos manufacturing in general. Also energy in eurpoe is way cleaner than in the USA

@@adamrak7560 Your comment is quite accurate; in fact I just finished looking at my friends large N A EV and found out that it has 2 motors, front and back. He and I are in a Town where electricity is almost 13 cents a Kil Hour, so my point is my friend's EV would never pass my car for emissions efficiency.
Back to your point, we couldn't use a small EV as although I live in a town, I have to go 100 km to see a Doctor or go to a Golf Course.

@@adamrak7560 how long & how many EV cars do you think humans can produce before we can’t mine / find the much scarcest material to build batteries etc for EV cars & Solar panels / batteries for houses ??
Fossil fuel won’t last for ever either, but there is much more oil/coal etc in the earth than raw material required to build EV.

@@benlondon8467 I do not worry about the sustainability of these technologies, because there are lots of raw material for making EVs and solar cells:
battery:
- lithium is practically infinite if we use the clay deposits (with salt ion exchange).
- current non-clay (super high lithium clays may be included) reserves of lithium are enough for about 200 million cars. Clay reserved are much bigger, but will need newer slightly more expensive tech for extract.
- if lithium clay fails, we can extract from seawater
- Earth has massive amounts of nickel, but it may be very expensive to mine it, but there are already nickel free batteries in production (LFP).
- Cobalt is problematic, but we already have cobalt free batteries in production (LFP).
- Copper is expensive, and will stay expensive, this should still be sustainable because we have enough copper for at least 20 billion cars in identified deposits
- we can use sodium instead of lithium, this could halve the capacity but extremely abundant and cheap. This would still work for cheap small lower range cars, those need less than half of the capacity compared to a large Teslas
body:
- Aluminium is practically unlimited, but we need electricity to produce it, we can use solar energy to offset that.
magnets:
- Rare-earths for the magnets may be a problem, because they are too diluted but we can build EV motors without them, it will cost a few percent of efficiency (10% range reportedly).
solar cells:
- the cheapest solar cell is made of mostly silicon, glass and copper/silver. Dopants for the silicon are needed in extremely small quantities.
- silicon is made from silicone dioxide which is extremely abundant, it needs relatively lot of power to make. Significant part of the cost of solar cells is the energy cost for processing the silicon (and the glass). Using solar energy to make solar cells would be a huge help here, and it would close the CO2 gap.
- there are even carbon based solar cells now in labs. Basically we can make solar cells from many-many materials, the most sustainable are silicon and carbon(graphene or other organic).
- solar cell materials are highly sustainable, but we have to be careful to recycle solar cells with heavy metals(lead, cadmium). Personally I would not allow large scale heavy metal based solar cells at all, we have so many choices, we should not use the most toxic types.

So Tesla's have gone past 500k (miles) and only been diminished to 80% battery density. Thats 800,000km... so not that much at all. Kind of crazy to realize that we are at a time where the battery and drivetrain last that long without any maintenance. Bear in mind that this is early on battery tech, its only been 13 years since Tesla was created and the whole auto industry started switching over only a few years ago. ICE has had 100 years and the best it can do is tons of maintenance, maybe 400,000km with some major maintenance and only 30% efficiency from the tank to the wheels. In 10 years it'll be an embarrassing comparison between electric and ICE when you factor in all the competition that will be ramped up in that time.

What they don't tell you is the battery replacement cost which is 2/3 of the original car price & costs in very rare metals mining are high!!
Not to mention we only have a certain amount of rare earth metals hence the name rare earth, the EV dream is exactly that "A DREAM" it's not practical for the long term a bit like "GREEN ENERGY" actually

Well, no. Or at least, maybe not as much as you may think.
There is also greening the electricity supply, which as the numbers in the video show can have a very large impact on lifetime emissions.
Also, there is the battery production. Most of the energy here (at the factory) is expended in the electrode drying ovens. Using a dry battery electrode process saves an enormous amount here. (Size of plant is reduced by maybe an order of magnitude, capital expenditure on battery plant is IIRC more than halved, costs are reduced significantly - not 50%, but 20%, 30% or maybe more and plant CO2 emissions are slashed).
There is efficient battery management and drive trains. Tesla is commonly reckoned (as Jim Farley at Ford has admitted) to get significantly more range from the same sized battery as other manufacturers.
Finally, it doesn't matter if you produce a smaller vehicle with smaller batteries if nobody buys it. Part of the solution is persuading high polluters to pollute less and the less you ask them to change their accustomed life style to do so, the more success you will have. The more you try to force people to change their lifestyle, the more opposition you will create and the slower the whole process will be.
There is also considerable room for improvement in material extraction, Mines could operate using solely electrical equipment, which would then automatically get cleaner as electricity production produces less carbon dioxide - which is happening more and more for purely economic reasons, as renewables are becoming cheaper than fossil fuel powered generators and batteries are cheaper and more effective than gas peaker plants. In refining, aluminium already uses electrical means (always has). Steel, however, uses a lot of coal in blast furnaces, most of it either to heat the iron ore or to "burn" the oxygen in the ore to produce metallic iron. This could be done with (hopefully green) hydrogen, and is starting to happen.

@@colindavidson7071 Thank you for your thought provoking reply. I especially appreciate your holistic approach. I'm looking forward to what the future holds! :)

@@colindavidson7071 What about the hideous nature of making spent batteries not as bad for the environment as conventional nuke waste? Hydrogen is just a complete joke, it's just way waay too problematic to store and handle on a massive scale, also the whole Green movement is just progressive marxism and Agenda 2030 'Hunger Games' end game, there's 7K volcanoes hiding under the sea spewing Sulfur Dioxide and Hydrogen Sulfide by the shitload yearly, that's the actual greenhouse gas, not inert harmless carbon, a plant food, but everyone's a lemming zombie sheep that loves a hysterical narrative.

man 's CO2 has no significant effect on the weather, it's never been anything but a big lie to get you to surrender your freedom and lower your standard of living.

@@c.a.r.s.carsandrelevantspecs so wholesome

this

Yeah sure if you live in europe. In my country, South Africa, our power mix is like 80% coal, in that case a EV will never match an ICE.

Its not that simple at all. What are solar panels and wind mills made out of, and where did that material come from, and what maintains those green systems? Fossil fuels. Again, it reduces local pollution, but it doesn't delete pollution as it has to be manufactured in the first place to produce green energy.

@@uni4rm Yes it actually is that simple. Because if you wanna play that game you also have to ask, where does the steel for the oil platform, the oil tankers and the trucks comes from? All creation pollutes, but we have the choice between creating something that only pollutes when created, or something that keeps polluting even after it is created.
It's actually that simple.

@@TheSaltyAdmiral Good point.

It’s sad that posting real data is called a bold move, in a day where profits matter over anything, especially the truth, I guess it’s necessary to cheer it on, rather than simply expecting it

@@nick_0 This is a SCAM! Artificially set a limit of 124,000 Miles to benefit ICE.

There’s been plenty but most don’t agree with this one. Most put the estimate at more like 20,000 miles, although a bit more for an SUV like the XC40.

@@Neojhun not really, you could see from the graph that the EV and ICE lines are consistent, so it doesnt take much to see where the graph goes... you could also argue it benefits EVs since their batteries will need replacing at around the 15 year mark, so there is another bump in emissions. also volvo have committed to be EV only by 2030 so not in their interests to big up ICE 😂

There is a local company near me that takes those 10 year old Nissan leafs (still run but have shorter range) and replaces the batteries from newer wrecked cars which ends up giving the older cars further range than when they were new.
EVs can be put back on the road too.

Plus you get it all cheaper. But so called "desiders" don't or don't want to understand it.
Pepole call this "green transformation" greenwash.

I’m sure exhaust from that 35-years old car is lovely, fresh air.
And all fuel that was burned is also green and all flowery.

I owned 740 and 940 Volvos and I know what you mean BUT Teslas are going further , with far less maintenance, than those cars . . Another thing that ICE does not count is the carbon foot print of the Oil Chance, Muffler, Brakes and the thousands of other ICE parts . .

So many wrong conclusions, my friend... :) That volvo already polluted >3 lifecycles of an electric car, and I don't see why a 35y old 740 would be more reliable than a 35y old electric car. All this is coming from a volvo fan who had 7 volvos, so I can hardly be called an EVangelist :)

And an EV should last 50 years.

@@crhu319 Lots of evidence for that I suppose? How long did the batteries last in your phone / tablet / laptop?

Very good point. I have a 21 year old 2001 Ford truck I bought new that just this month turned 120k miles. Most of those trucks reached that mileage in their first 4-5 years of ownership.

@@crhu319 Petrol and diesel cars can and have. An EV will never make it on the original battery, which is a massive part of it's footprint. And the final part of every cars footprint is it's destruction, ie scrapping, which will again be much greater for the EV.

@@matthewjenkins1161 BEVs can and have. and on the original battery too. the majority of the actual vehicles are the same (steel, rubber, plastic, copper, is the same) so we can probably use the same methods for both. the differences will be how well it gets dine, we have been using ICE vehicles for almost a century now ( oddly enough the original vehicles were electric) so we have a lot of experience with it. but we still have to deal with things like oil, and fuel. their are ways to recycle the BEV's big battery too. just dont have as much experience for that. course we need to look at more than the vehicles them selves, because each has its own infrastructure and sources. that when they playout (like oil, the hole is supposed to be correctly plugged, which isnt always done, and so you end up with a mess from that), same with mines, ships, tanker trucks, and cant forget pipelines.

If Volvo really cared about the environment maybe they would make efficient cars rather than great big SUVs that require a 100kwh battery to get sufficient range.

@@paulfsd that is a pretty silly remark.

@@Nnomadd really? Can you explain why please?

If they cared they would stop making cars

Greta told them to.

Current batteries nominally last at least 100K miles (and 8 years), but that means the degradation is about 20%-10% after 100k miles driven. (measured on high mileage Tesla Model 3 cars, degradation is closer to 10%, but it would be a little bigger if the same distance was driven under 10 years)
So only one battery replacement is necessary if you want to keep high mileage. But probably it could last for 15 years, or 150K miles, if you are fine with a range of 200 miles (for lowest mileage Model 3)

@@adamrak7560 I know over 8 EV (Chevy & Tesla) owners in this area (Knoxville TN). Three have had to have battery replacement in less than 6 years. I am talking about the cars range being seriously degraded, unable to make it even 100 miles. Others are pretty happy but only drive 20-40 miles most days (to and from work).

@@raybergeron2999 there are a few percent outliers, but that is not the norm. I have looked at large statistics collected from many cars, and there are some with significant degradation, but the majority is following a nice curve, which points to about 10% degradation after 100K miles.
I have looked at only Tesla data, they seem to have fewer battery problems nowadays than others. I expect the other manufacturers to quickly get up that level too.
(also I have not looked at anything which is older than Model 3 because those are too few to be relevant. So the statistics would be worse if we include the oldest Model S-es. Battery tech improved a lot in the last 10 years.)
(40 miles a day is more than 100K miles after 8 years, so that is close to the expected values)

one thing to keep in mind, as it stands, comparing ICE with BEV as equals with similar footing is wrong, more like comparing a senior, that had literally a 100 years to get its act together and develop infrastructure pitted against a student, that that has far more promise, but has some hicups to address, before going trully toe to toe. For example, battery tech grows so rapidly, that every year there is a need to re-check the progress, as previous faults are either lessened or solved entierly, ICE cars have just gotten increasingly more complicated to gain a few percent of efficiency (still @ just ~30%, against 90-95% efficient BEV motors). Every year electricity becomes greener, gas doesnt, infact gass gets more increasingly difficult to obtain and gass leaks pose serious additional environmental threats along the calculated ones. Also, gass can not be manufactured by anyone like electricity and that poses a threat to be as a bargaining chip in a trade war or an actual war, like with Russia. Every year new developments on battery recycling in large scale are developed and well financed and it is a known fact that 97% of the battery can be recycled, the tech is in scaling phase, not long before it is mandatory by law for manufacturers to have a recycling program in place. Infrastructure also is developing at a rapid pace, from 0 to now in just 10 years. By the way, battery packs consist of cells, if there is a bad cell, the whole battery pack doesnt need to be scraped, it is possible to change out the bad cells and mount the battery back into a car.

@@atistiltins6163 Wrong, and wrong bud. Just wrong. You have no idea, maybe do a little more research on battery packs, and if you look into things a little more you'll find clean energy isn't really all that clean.

No figures but I'm told not long, one problem is bad weather people in Canada were in deep trouble recently when stranded in freezing condition in battery 🚗 let alone the original mining and recycling probs

Not level heaved and way beyond biased. It's a freaking bogus SCAM!
Ironic how every just ignored the 124,000 mile limitation. That exact number was chosen to best help ICE's numbers. The longer the BEVs drive the cleaner the outcome. In reality vehicle category like XC40 should be a minimum of 200,000 mile lifespan. Luckily both BEV & 4 banger Petrol cars survive about the same mileage. Sad we're not getting the real numbers.

Production is a more centralized source, making it easier (and cheaper) to monitor, regulate and control than millions of private vehicles spread out all across the world.

I'm living in a country with extremely backwards energy grid and politicians concerned more for the coal industry than climate restoration. I was considering getting an EV next but after this news I don't think I'll be able to reach the break even point before swapping the EV for a new car.

Excellent point. But the challenge with your assumption is that the growing demand for EVs would eventually place a correspondingly higher demand on energy production, which, according to several papers, cannot be supplied by renewable energy sources alone (at least for the time being). Power producers would therefore become more dependent on non-renewable fuels(crude and coal) for energy generation in order to meet this demand. Of course government restrictions can always be used to control the usage of crude and oil, but that would result in higher energy prices, an example of which is already happening in some parts of the world.

except the LIBs are made in China with Coal.

If I had a EV I would totally consider getting flexible solar panels to cover every square inch of the car allowing you to extend the drive distance significantly and to never have to plug in to charge.

Not sure why they dont come factory like that.

The batteries should last at least 200k miles before needing to be replaced but that all depends on how they are treated (since letting them fully discharge often significantly reduces their lifetime). Of course different and better batteries will also be coming in the future to replace current lithium ion.

and there are issues when the car is crashed (accident) or when it is at the end of its life + batteries (maintenance, recycling, etc)

Nobody wants to talk about worn out wind turbines or lithium batteries, Pete. Still to me, the environmental factors of extracting the lithium tend to get glossed over. This appeared to me to only talk about the "carbon" emissions generated.

If your batteries get damaged your screwed

@@mcdevious2229 the issue is well lithium is very dirty and dangerous to mine we need batteries that are lighter and better for the planet

That, Gulf City, is the sixty-four dollar statement. Lithium works pretty well. Extracting it is a whole 'nother thing.

Bingo. I bought an EV cause it's fun to drive and cheap to operate with my level 2 home charger. I don't have to dress up my purchase decision with environmentalism. I love my EV, but also love my ICE SUV.

With the price of petrol being huge in comparison to electricity, cost is a real factor for me in considering an EV. (Admittedly that probably won't last long when the government start to lose money as the tax from petrol disappears meaning they'll have to get it another way)

Likewise. I couldn't give a stuff about hugging trees or any environmental benefits (although I'm ok with knowing there are some). No, I bought my EV because it's much cheaper to run than any petrol car I've ever owned.

Every analysis proves the ICE dirtier and dirtier.

@@crhu319 We need a breakthrough in Solar Panel development and deployment - - on every feasible rooftop to help offset the power-grid drain of all these electric cars.
Also super-insulating homes to reduce heating and cooling costs and solar hot water heaters too.

I'm coming on on year 10 in the life of a Nissan Leaf. The battery still has a capacity of 11 of its original 12 bars. As long as you treat batteries well -- don't let them sit at 100% charge, try to avoid dipping below 20% -- their lives can be very long.

@@Steve-wz5pz Probably the hard part, right? If everyone is super fast charging, that reduces their life too, which seems to be the big push for those who kept ICE cars for their range.

Batteries are +90% recyclable to recover elements for reuse in new batteries, and dramatically reduce the energy needed to make new batteries versus raw virgin elements. It is IMPOSSIBLE to recycle fuel for reuse.
Go Li-Cycle ♻️💵♻️

Most new EV's have an 1 million mile battery expectancy. Except the very cheap ones.

@@piccalillipit9211 Sounds like a nice manufacturer PR pitch, but I know lots of people shelling out for replacement or reconditioned batteries for their Prius, leaf, i3, or Tesla between 60k and 90k miles. Warranties are nice but that doesn’t mean the battery will last, it just means the mfg will eat the cost of replacement.

Hybrids are almost as bad as regular ICE according to research in Denmark (on actual real life usage). Mainly because most people don't charge them. Their emissions are twice as high as they were suppose to be to get the government tax break for "green" cars, so the tax breaks on hybrids is getting axed. And this is talking plug-in hybrids. Regular hybrids are just a joke.

Such comparisons have been done numerous times for years. Rory had this discussion with Robert Llewellyn 12 years ago and despite Rory lying about the CO2 figures for EVs they still came out way ahead of hybrids. Yes, that's right. Rory decided he would reject the official CO2 figures for EVs and just doubled the figure and EVs still left hybrids behind and ICEs nowhere to be seen. EVs are just cleaner and nothing anyone does or says can make them dirtier no matter how hard they try.

This doesn't really make sense. When you sell a car someone else drives it, then some else, etc typically until about 150K miles. To make a car greener by keeping it, you would need to be keeping it for longer than it's normal life.

​@@smc812 that’s exactly what he said, i mean the guy literally said: "fix it, treat it well and keep it for as long as you can". if one person owns a car then it completely changes their mentality versus the car changing hand multiple time. A long-term owner will take better care of the car both in terms of service/repair and have more mechanical sympathy for the car, as he understands that hurting the car now will hurt his pockets in the long run. whereas this new movement of leasing a car for just a couple of years and then moving on really hurts cars, as each individual owner will take less care of the car as they don’t have to bear the long-term consequences of not giving a hoot. and 150k is pathetically low milage, might be typical, but thats the root of the problem, we need a fundermental change of what should be considered normal/typical. A good car should last at least 200k. next time you’re in a Prius that is a taxi look at the odometer, you will be surprised to find how much cars can last if they are properly taken care of. My local Toyota dealer (drammen/norway) gave really good deals on the plus versions for taxi companies, most of these cars are still on the road, with 350k miles +, some people in Oslo bought model s to use as a taxi, even though they are 2-3 years newer than the Prius plus, you still never see them around(as taxi).

@@dndfm keep it, or sell it to someone else who then looks after it would be the same. Keeping an ev (even a mild hybrid like the prius) makes perfect sense. Keeping an ICE doesn't as it's emissions from use eventually outweigh the cost of making a new EV. Using Volvo's figures that would be 150000 miles, I dispute their methodology and expect it to me more like 100000.

@@smc812 I have to disagree, if one person is responisble for a car on a long term basis, more than 5 years, he or she will take better care of the car than someone owning it on a 2 year lease plan. on your second point, for me it depends on the car, if its an older diesel/petrol car without particulate filter and its not somones pride and joy it should get of the road, 100% agree there. However, if its a small car(I mean small in personal car i.e sedan wagen etc, not truck/pickup) with euro 6 engine then why not? lots of cars with euro 6 engine produce less than 100g co2 per km, seems wasteful to get those cars of the road, might as well use them until the wheels fall of, by that time the electric cars avilable on the market will be far superior to the ones we already have. i just personally think that we need to teach people to take better care of their cars, its easier than people think, and we can get more out of our cars no matter if they are ICE or EV.

@@smc812 regarding the Volvo figures, I see your point, but I also see Volvo’s point. people will never agree on the figures, I mean where do you even start, just look at the life cycle analysis of the petrol, if it’s from troll station in Norway or if it’s from a station in Basrah in Iraq then the carbon footprint behind it is incredibly different. I don’t think anyone can make a study than can satisfy everyone, I think we need location specific studies as the petrol and electricity you get is probably very different to where I am.

So does your engine and water pump and transmission and brakes and coolant and OIL !

No they don't. They can be refurbished, just like an ICE engine.... You obviously never heard of battery refurbs....

No they don't. They can be refurbished, with the failing modules replaced with good ones. This usually costs just a fraction of a complete battery replacement. You need to do more research.....

@@Brian-om2hh You need to research on how many people have bought used Teslas just to find the whole battery needs to be replaced. There is a great video of a man finding out after he bought a used Tesla he was quoted by Tesla it would cost him $40,000 to replace the batteries. Instead he made a video of blowing up the Tesla.

Government is trying to tell you not to rape or murder, I hope you're not going in the other direction with those two.

@@ab-js2gw If you need government to tell you not to do those things in the first place then we have a multitude of problems, don't we? My own moral compass tells me not to rape and murder; I don't need government to tell me that ;)

@@GoldenbanjoDJ you missing the point Jimmy 😘

Thats hardly a valid comparison 'like-for-like' then is it? Take the worst cae from 'A' and compare against the best result from 'B' is appealing only to cognitive bias. How about buying a second hand EV and compare against a second hand ICE over 5 years?

No actually see this is a Volvo ad and they can lie to you
Tesla is so clean it only takes 6000 miles to FULLY recoup the component, production, transport etc of the whole car. After that every mile is carbon free…

Volvo's figure was that an EV would break even after 77000kms on a typical car life of 200000kms, so it's more like 60% more efficient, as Rory mentioned that's also assuming that the cars actually achieve their 'tested' CO2 emissions, which we know isn't the case, infact WhatCar tested the XC40 and found it's real mpg to be about 2/3 of that claimed, so really we should say that the EV is 75% or more less polluting.

It depends on the MPG of the old car. If your old car gets 25 MPG (e.g. a 2005 Camry), the EV break even point (Tesla Model 3) is about 36,000 miles. As EV emissions continue to improve, this number drops further. However, this argument does hold up if you are driving an old Prius, for example

@@smc812 yeah, but the EV also uses more electricity than advertised as you get less miles per charge than what polestar claims, not to mention the efficiency in the grid and the chargers, most home chargers are 95% efficient, but some fast chargers lose 15% electricity as heat. so again, we could play this number game all day long. we will as global society be better off if people took better care of the stuff they own. same goes for EVs, imagine in 10 years’ time when the batteries must be recycled, to this very date, no one knows how to practically reclaim the lithium during recycling, a Norwegian/Swedish study group found a method that worked in a lab and the got a Nobel prize for their work, however they estimate that the technology won’t be ready before multiple decades.

@@callresponse2574agree, as i mentioned in my orginal comment, i am talking about cars with euro 6 engines, that is is 2014 and above.

@@smc812 forgot to mention, never use mpg as direct indicator of CO2 emissions, if a car uses 10% more fuel that does not mean that it produces 10% more CO2 than advertised. in many cases its actually the opposite. in an ICE engine the fuel is not there just to burn/explode, as the fuel enters the cylinder it will cool down the air as it being compressed, the cooler the charge, the less co2 you get from the exhaust as higher burn temperature result in more CO2 and other harmful gasses. that why in dieselgate the cars produced more harmful gasses but had better fuel economy than advertised, because less fuel was shot in the engine resulting in a lean mix and high burn temperature.
thats why older cars can actually get better fuel rates per hp than modern engines, they run lean mixtures that use less fuel, but by doing so they produce so much more harmfull gasses. lower mpg does not equal more gasses out of the exhaust.

"Recycling" carbon burnt in e.g. ICE engines by e.g. growing trees is already a major part of "carbon neutrality"

@@FlyingPhysicist tell that to Amazon lover Bolsonero.

You know that CO2 helps A Lot of plants to grown faster?

@@Ren_1106 only when all the other conditions are met.

@@FlyingPhysicist pretty sure we can still plant more trees...whilst ALSO not using ICE cars. ICE + planting trees = Carbon neutral. EV + plant the same number of trees = Carbon negative. ;)

You do know that Carbon Dioxide is the Gas of LIFE! Reduce the CO2 < 150 PPM and that will kill all the plants and trees on EARTH! The earth ship will have to replace the P and add a "T".
While increasing the CO2 to 1,200 or 1,500 PPM will increase top and root growth of plants and trees, while using less water and fertilizer. That sounds Good to me.

100% correct

Great point. More CO2. Does a battery last 90,000 miles before it needs replacing? And the cost. EV wokness is about feelings, not science.

Your car is 26, well maintained. What electric motors do you have in your house that are equally old? I have several fans, an electric shaver, light bulbs and more. You're falling into a classic logical fallacy. What parts on your somewhat unique 26 year old motor have you replaced? Is really the same car you bought all those years ago? Especially that "original" engine. How many miles do you drive, in what sort of weather / climate? How do you drive? In short, your personal experience has nothing to tell anyone about the effectiveness, suitability of EV vehicles. As to battery replacement: consider that it will be possible to simply drop in a new battery, perhaps one with 5 - 10 years of scientific and engineering progress, in it. Essentially keeping your car current and viable for decades. Whereas you're stuck with your 1600 cc dinosaur looking for ancient parts and technology to keep it struggling to keep up. Enjoy it while you can, but the asteroid has already hit.

@@jimmyboy2 ICE wokeness is about fear and nostalgia, not science.

@@crinolynneendymion8755 it's not about electric motors. I have recently retired from the Navy after 36 years in Submarines - so I might just know a bit about battery power and propulsion given that our Submarines are effectively hybrids.
The motors and ancillary systems are not the issue...but like an ICE car they need to be maintained just as much. Yes electric motors are lubricanted and cooled by....oil. Oh no.
The issue is batteries, especially lithium ion batteries and similar.
They are very expensive and resource intensive to manufacture. They start to degrade immediately, their best years being the first 5 or so, then their capacity degrades severely.
They are expensive to replace and atm cost 4 times more to recycle than manufacture, especially given the toxic nature of their components, all of which have to be mined and manufactured.
As yet there is no means of putting out an EV battery fire as a result of an accident or battery/switchboard failure. They can burn for several days.
Yes my car is original and maintained iaw the service manual...which is why I still own it.
So sure, you go and by an EV. I'll stick with my reliable, efficient, cost effective and easy to recycle ICE vehicles thanks.

Recycling of the scrap, used in cars & general heavy industry does happen though & it's actually cheaper to outright build new cars on a new manufacturing line.
Retrofitting is too boutique & custom to serve the mass market. Aside from Tesla most manufacturers' margins are too thin, as achieving economies of scale is always the desired outcome which means they need to seek standardisation & build EVs from the ground up.
That being said, recycling batteries is something that should & will play a bigger role as batteries are the most expensive components in the cars.

It happens at a small scale just now. You can buy a kit to retrofit your classic Mini for a mere £20k!

@@pumpkinhead456 that’s the problem it’s 20k.. haha

EV west in california has been retro fitting classic vws and porches with electric motors well before ev scene became a thing

Wind and solar is heavily subsidised by the carbon tax paid by us the people don't be fooled look it up

@@roberteccles3896 I have looked it up. Sadly the carbon taxes haven't really got off the ground. Early wind and solar did indeed get subsidies, but now? The costs have dropped below the level that fossil fuels can compete with them.

Where is the wind and solar panels manufactured

@@jonathancardy9941 ps who paid if it wasn't carbon tax

​ @Robert Eccles a carbon tax is a tax on carbon. Like income taxes are taxes on earning income and gambling taxes are taxes on gambling. Income taxes, property taxes, gambling, tobacco and alcohol taxes are widespread across the world. But that isn't really relevant now that solar and wind have fallen in price to the point where they are often the cheapest energy option. This is capitalism - the technology has improved to the point where the market is enabling consumers to buy solar and wind power.

it's all nonsensical.. too many people living with too much polluting habits.
everyone wants airco, everybody wants to go places around the world, etc. etc..
industry is by far the biggest polluter and no government is touching that in any significant manner.
to be honest, it all seems quite hopeless unless you could convince people to change their wants, which will never happen.. people most likely will burn everything down before making any significant changes, we're too primitive as a species

LFP batteries address the need for battery replacement, this part at least is a solved problem. Also batteries can be a solution rather than a problem for the grid. Currently we need to add storage to cope with intermittent supply from renewables. EV batteries can help with that. Other people have done good work analyzing this, but way above my pay grade 😂

So 1 EV battery at the end of it's life is equal to 30,000 gallons of spent fuel in our air???????? Batteries can be recycled. How do we recycle global warming?

"Those peaker plants are gas powered and not green at all" Maybe battery powered plants then? 😵‍💫

@@DANNY40379
Simply manufacturing enough batteries to make it feasible negates making it "green". Those peaker plants are typically 1Mw or larger and typically running for 8-12 hours when they are fired up.

Until the Nuclear Power Plant Blows up and kills every living thing within a hundred KM radios then the land can't be used for human inhabitation for the next 500 years, then any animal that tries to bread on that land will mutate.

until there is a nuclear accident ala 3 Mile Island, Chernobyl or Fukushima.

@@mochiebellina8190 No. There's no 'until.' Nuclear is still better even when you take accidents into account. Remember that the alternative for electricity is mostly coal and coal mining results in many many more accidents - less newsworthy individually, but in the aggregate more costly in terms of lives lost and damage done.

In uk we dont use coal in our grid (well less than 5%). All grids are getting cleaner quickly. Even lagards like the US. Nuclear power is 3 times cost, takes a long time to build and has million year storage issues. The environment issues are less from lithium, more from the rarer elements. Cobalt is a concern but modern batteries are cobalt free. Please inform yourself better before spouting media misinformation.

@@andycampbell193 I was curious - so I looked it up. looks like UK electricity is approx:
2% coal, 24% wind (that's very impressive), 12% bio energy (that's also impressive), 4% solar, 2% hydro, 3% oil, 16% nuclear and 36% gas.

Exactly. If 100 years worth of serious development had gone into energy storage, instead of ideas being bought up and shelved by the oil industry, who knows where we'd be at now.

Electric cars were about before petrol ones, they weren't very efficient in them days so petrol won

ICE cars are not 100+ year old designs. The current operating systems of ICE vehicles didn't even exist 30 years ago. That's like saying electric cars are 100+ years old designs too, as some of the first cars ever built were actually battery powered.

@@uni4rm nobody said the ice car was a 100 year old design. They are saying ice has the benefit of 100 year's of development. Hence the state of its engineering today.

@@yodab.at1746 Correct. The ICE has obviously gone through multiple major iterations. @1SLUGGO1 is completely missing the point and just spreading FUD.
You can't innovate on BEV's if you're not making them. The Leaf and early Tesla show the technology's entrance to the main-stream as a viable option. We have gone from 80 mile per charge to 300+ miles per charge in less than a decade. That meets feature equivalency with ICE vehicles. I guarantee the next 10 years will focus on improving battery tech. Faster charging + Cheaper batteries == cheaper materials == better overall CO2 emissions == more ROI for EV producers.
The electrification of our vehicles is win-win the further out you look.

There is no need to change the battery in an EV, it will outlive the car. Some of the early technology back in 2009 and 2010 had batteries that degraded fairly quickly due to many things but new technology it does not happen.. I have an EV made in 2013 (63 Reg) and my battery still has 98% state of health, so that change of batterie3s does not happen.

@@juliandavies7890 Battery packs can and do fail.
I'm not suggesting that is common, but lets keep things real.

@@juliandavies7890 From a perspective point of view it would be nice to know the make , model and specification of your car. Was it bought new and how many miles has it done please?

@@juliandavies7890 How many times have you ran your batteries down to below 5% charge, you know on a long road trip or something. Is it all city miles or highway miles. Are you in a extreme hot or cold location ? Point is just because you have not had it happen post 2013 doesn't mean it hasn't happened to others.

You can’t buck physics. Nearly all EVs run on Li Ion based batteries. ALL batteries lose capacity overtime due to number of charge cycles, temperature cycling and internal degradation. Even with perfect software controlled charging, elaborate cooling and ideal use (for Li Ion use between 85%-10% charged) after about 8 years the battery capacity will have fallen to about (that’s approx folks!) 30% of original capacity assuming typical daily use and charge cycles. Yes you can still use the EV but with only 30% of the new battery range. An expensive new battery pack needed every 9 years or so……

Simple enough. It can be 90% recycled in a battery recycling plant, like the one Volkswagen already have up and running in Eastern Germany.

Simple enough. It can be 90% recycled in a battery recycling plant, like the one Volkswagen already have up and running in Eastern Germany. Please explain what might "leak" from an electric car battery, because there is no liquid content........

Use google and you will find the answers blow everything you say out of the water. Still, make a comment without doing research.

Er, an EV battery has no liquid elements inside it to leak out..... Have you done *any* research at all on EV batteries??? And have the 160'000 plus ICE cars which catch fire each year in the US, registered on your radar at all? Were you even aware that statistics presently show there are just 3 fires per 100'000 electric cars?

Very true. Also the used buyers will just scrap the car if the replacement battery costs too much.

There is actually a lot of research and discussion about this if you take the time to look or listen.
An EV battery should take about 10 years before it's no longer able to hold enough capacity to be ideal as a car battery. At which point it can be repurposed as energy storage in homes for example. There are many sports stadiums in Europe for example that repurpose used EV batteries as backup "generators." This should add another 10-20 years of usefulness out of an EV battery before it needs to be recycled.

@@MNKYfilms And then what?

@@HoratioFitzbastard I don’t follow? After it gets recycled?

@@MNKYfilms You haven't addressed the original query , merely said that they'll use them for something else for a bit longer.
Where are all these batteries going once they can't be repurposed?

There are Volvo's with a million miles, so perhaps they are meant to live forever 😄

Well, luckily it already makes economic sense to recycle it. Also, batteries aren't just thrown out.

The report indeed covers the end-of-life phase. (The impact of this aspect is tiny compared with the materials production and the vehicle use phases.) The importance of recharging EVs from a 'green' source is strikingly clear, and perhaps we should extrapolate from this when making choices beyond just car usage.

@@Wayfarer-Sailing Yep, I agree. That is Tesla's mission. They hope to make every Supercharger station reliant on their own local solar energy, thereby giving Tesla full control of price. Then they could also keep the price consistent nationwide.

Oh, the materials in the batteries are much too valuable not to be recycled.

Volkswagen already have a battery recycling plant up and running in East Germany. A UK based company - Technology Minerals - is also to begin looking into processing older EV batteries. They are said to be planning 5 sites in the UK. A number of other organisations are looking to do the same globally. It is estimated that eventually there could be 150+ EV battery recycling sites globally.

Batteries have a significant value for second-life applications like domestic storage beyond the 200,000km Volvo have used here. It may be a long time before the economics make recycling the preferred option. I see this as a major omission in the report as, if I am reading it right, they are assuming it will be recycled at that point. As the primary difference in upfront carbon between ICE and BEV is the battery pack, ignoring second-life potential puts the BEV at a disadvantage. I don't think Volvo is being disingenuous, they have just followed a methodology that assumes 200,000km is end-of-life for everything. They have strived to maintain like-for-like, but that tends to lead to doing things the "old way". However, whether we are talking about materials extraction, manufacturing, energy generation, logistics or recycling it is important we strive to avoid finding new ways to be bad for the environment. We have not always been good at learning the lessons of the past.

@@andrewhowe4266 "methodology that assumes 200,000km" WHICH IS SCAM! Minimum should be 200,000 MILEs.

@@Neojhun I think scam is a bit harsh. I think the EPA uses 200,000 miles for car life, but they assess annual mileage as 15,000mpa. In Europe, the average is only 12,000kmpa which is far lower. All the assumptions they make alter the result.

That's bogus, the expectation of short battery life were entirely speculative and the speculation has proven to be wrong.
The drive to get new batteries is because better batteries are invented that give an improvement, not that there is substantial loss.

@@Treblaine Source?

@@conceptobject everything has a life cycle, just its nowhere near as short for car batteries as people assumed.

It depends on the environmental conditions

@@Nobere The warranty period for the batteries is typically 100'000 miles.
To offer a warranty like that and not be ruined by claims the typical lifespan must be much much more than 100'000 miles.

Unless you are a mechanic this is a horrible idea. People who make 50k+ "average income" can afford a Nissan Leaf or Chevy Volt.

@@Hon_cb1kr if someone is making 50-60k a year they absolutely shouldn't buy a brand new car, that is a massively irresponsible financial decision.

Remember kids. You'll own nothing and be happy!

The point is you won't have a car anymore, they're destroying the middle class. Eat bugs and take public transport to your cubicle apartment after you got your 50th booster shot to get your rations, citizen.

@@CrypidLore i never said they should. I said they can. You should do what ever you want.

That’s what separates Tesla from the rest
they use 0% cobalt and other dirty minerals it’s only nickel and lithium

You forgot to mention the actual use of slavery to mine these rare earth metals.

@@George-qw8ss NO!

Lithium batteries are +90% recyclable with the hydrometallurgical process and there are plenty of companies already doing this
Li-Cycle (LICY) is one that has been on the NYSE for a few years and has plants in the US, Canada, and starting in Europe.
Nothing is perfect and humans are never going to mine our way out of climate disaster and ecosystem damage, but the #1 thing that we can do is to recover and recycle every single element that we mine and refine. This will dramatically reduce the amount of energy and land degradation while moving to a more circular economy.
So please learn how to recycle PROPERLY and then recycle everything that you can. ♻️🌳🌎🌍🌲♻️✌️

@@andyjohnson3790 Wish I could give you more then 1 thumbs up!

13100 kg of CO2 (75kWh * 175 kg/kwH). Just to manufacture the battery in China. Not operate it.
That's more emissions than from operating an ICE car for abut 100,000km
So it's probably about 8 years. Just for the battery. And that's assuming that the EV battery is 100% powered by CO2-free electricity. Which it's not.
And after about 8 years, the battery will be toast, and the cycle continues.

@@ChrisWells1 very interesting stats bud. Where are you getting your figures?

It wasn't a problem for the Tesla Model S owner who posted a RUclips video of his car. That had covered 400'000 kms on it's original battery..... Lots of UK based taxi companies have Nissan Leafs which have covered 200k miles, and are still going.

@@ChrisWells1 You aren't comparing everything. You also have to back out the CO2 with producing the engine and all it's related systems. Batteries last the life of the chassis, not 8 years. Volvo stopped their test at 144k miles because it looked good to do so but the battery will go 400k if the car suspension and frame can manage to. Then the battery will go into grid storage use. You can sell a Tesla battery with 200k miles on it for $20k.

Hybrids are known to be worse. Effectively the worst of both worlds

@@findingneutral426 I thought that too and vowed never to buy one but given the state of our charging network and much improved offerings I changed my mind. Having lived with one for nearly a year now I can report that it actually makes some sense as long as it is of the plug-in variety. About 95% of our journeys are completed on electric power alone and there is enough power to comfortably keep up with suburban traffic. The petrol engine is reserved for the few longer journeys or the odd spirited bit of driving. Range anxiety and materially longer journeys are non-existent. Both power sources are therefore used in their most efficient settings. Oh and yes, I charge it every night…

@@findingneutral426 First I've heard that.

Right? Now that cars are going up in price by 2030 the average price of a small sedan will cost 60k

@@VioFax yeah same here but you know that with time all cars become a pain in the ass to fix unless you rebuild them

@@VioFax Which is crazy because you are contributing a lot more to saving the planet than producing more new electric cars. Thats a given. So Volvo is not as honest as it makes out. They have most governments convinced.

You have that backwards. The list of things that can fail is always longer on a ICE car.

@@MrJturner74Modern ICE vehicles are very reliable as long as you do required maintenance. Problems that do arise tend to be electronic. Very seldom is it the drivetrain. Now I do most of my own maintenance on my ICE vehicles but can't do as much on the Tesla. As an example there is a 12 volt battery on the Tesla that lasts less time, about half, as on my ICE vehicles. I can easily change the battery on my ICE vehicles but not on the Tesla. I have had to replace the main screen on the Tesla and there was a driveline failure repaired under warranty. I also had one of the door handles fail. Cost to have Tesla repair it is about $1000. I found parts online and did the repair myself for around $25 but it took me a long time. I've also had a couple of routine checkups by Tesla. The first one cost $1,200. This was a recommended routine maintenance by Tesla. That has now changed and the second checkup was less costly. However overall, especially when I do routine maintenance on my ICE vehicles, the Tesla has had higher maintenance costs.

@@MrJturner74 I agree but most of them don't fail. Overall I agree maintenance should be higher on ICE vehicles but it hasn't been my experience. By the way I really like the Tesla but my wife doesn't even though It's her car. I like all the wizbangs and how quick it is. She doesn't like the wizbangs and has range anxiety.

@@rayshepherd2479 The problem is you are comparing apples to oranges. I can assure you that a ICE car priced like a Tesla will have worse maintenance costs, can I point you at porsche, maserati, or any other high end car?

@@rayshepherd2479 Most of them don't fail???The amount of mechanic shops would make me press x to doubt.

there is no recycling, that's another "green" lie

Running the vehicle is 80% of the lifetime CO2 emissions of a vehicle. You are almost certainly doing a net positive. There's still downsides but from purely a climate change standpoint you are doing the right thing.
As an example if you're in a state with a very dirty grid (let's say West Virginia) the dirtiest EV (Audi E-Tron) and an ICE Honda Civic have similar lifetime emissions using the 2021 power grid. When you consider the fact that you have solar panels, probably drive a less polluting EV, and are likely on a far cleaner grid you're doing a net good. That doesn't even consider the fact the electric grid will probably be 2-3 times cleaner by the time the vehicles go out of service.

Recycling the battery isn't a negative. Recycling the battery results in new batteries being made with the lithium etc at a significantly lower environmental impact than mining new materials, and companies are even managing to do it cheaper.
Only problem with recycling is that the batteries are lasting so much longer than expected that there's not a lot of them going to recycling despite tesla being mainstream for a decade.

@@PriffEV I own an 18 yr. old Prius and it's still going strong on its original battery. I also bought a Tesla (worried that my Prius would eventually give up and leave me stranded somewhere). I think a lot of the battery dying early stuff is FUD.

@@kenbob1071 absolutely, people think a car battery works the same as their phone batteries or something. 😅

As long the stupid government and climate Activists stop b1tch1ng and complaining about Electric cars are the climate change, reducing the CO2 (BS to me) and forcing us to buy Electric cars or forcing us change their I.C.E cars to Electric.
Everybody has different taste of their cars, stop comparing them and stay out of this nonsense comparison.

EV's are signifianctly more efficient than ICE, 90% EV 25% ICE just look up an electric motor to an ICE engine in fuel consumption to power output.

@@gavinderbyshire5535 but still can't beat ICE cars when it comes to fuelling time (Or charging time in Electric car) and Range.
There's few Electric cars that can get above 500 km range than ICE. If they gonna make it that we "people" and stop worrying about range , then make it now and stop wasting freaking time. Time is ticking, if they are not promised, they're just lieing all the way.
For us ICE or Diesel engines, we can chill and drive whatever we wanted, but we spread CO2 a lot (Which is downside) and that's it.

@@Ren_1106 ICE cars can't beat EV's for running cost or perfromance, cars spend 95% of their life parked so that is an opportunity to charge, you have to think of macro thinking instead of micro thinking. Range is only an issue if you drive beyond 300 miles everyday and even when you do you can charge in 20 mins whilst you have a break. It's a different mindset but some people can't walk and chew bubble gum at the same time!

@@gavinderbyshire5535 Yes and no, your number is the amount of energy (eletrical or chemical) which can be converted into mechanical energy. So yes, EVs are very efficient running because electric engines are very efficient at transforming electrical power (stored in chemical form within the battery) into motion power and battery charging is quite efficient but that is not the only measure of efficience, there is the efficience of power generation, efficience of energy transport, efficience of energy storage (outside of the car) and there is kWh/km (energy needed to move you and your luggage divided by energy to move the car and its content). All these parameters can also be improved and, if we focus on the car (or all EV including planes etc) kWh/km can be drastically improved if we find new battery technologies that increase energy density of these batteries. At the moment, although you do get an efficiency of 80%-90% depending if you measure it at the power plant or at the car level, the cars still use up a ton of energy to drag extremely heavy batteries around and that is the biggest waste. Also, the UK needs nuclear because solar and wind are far from producing peak capacity at all time and there is still plenty of coal, biomass, gas being burnt.

Or maybe everyone can discuss it?

That's dumb. Where does demand come from? Consumers coming up with things they want or need, or the producer taking a risk and developing something with no feedback? Are all consumers experts? No? So I guess the next time I go car shopping I need to find a Car-Expert-Lawyer.

@@uni4rm if you think this is about what consumers want you’re the reason the discussion should be between scientists

Green hydrogen will always use more energy than a battery EV, but it could be a good solution for storage once some major production issues are solved.

The same thing will happen as has always happened. Today's EV's will work their way down the scale, as depreciation brings them closer to those whom rarely, if ever, buy new or newer cars.

And thirdly, at the minute, if your work depends on it, diesel is pretty much the only way to go for high power long haul situations. Hydrogen fuel cell cars are a possibility, as is hybrid truck idling (i.e using solar power for amenities in cab) but unfortunately the tech hasn't come far enough to replace the practicality and stability of diesel engine trucks. There are too many what ifs to owning an ev as a daily for some people unless it's an auxiliary vehicle.

We won't have both options though. That's the problem. We'll all be forced into EVs.

Electric vehicles are already better than ICE vehicles in every conceivable way. By the end of this year electric vehicle sales will double and ICE vehicle sales will be down by 40%. Last year electric vehicle sales for up 70% and ICE vehicles were down 21% overall manufactures. By the end of this decade we should see over 90% of all vehicle sales being electric, 6% being hybrid with only the remaining 4% being ICE. If you want proof of that look at Norway which is already at the last series of numbers I quoted.

@@colingenge9999 I'd rathe see retro fit options be made available. Making more cars is worse for the environment.

@@peterwindle4453 when you consider that a gas power car produced 35 tons of carbon dioxide and half a ton of nitchesox oxides over it’s a lifetime it’s hard to imagine the building and do electric vehicle be any worst. In fact it’s not. Also if you’re thinking about retrofitting gas cars with electric, it’s a difficult process. I consider Tesla buying 15,000 lotus roadster and retrofitting them for Horr as an electric vehicle.
Claims he wind up replacing 93% of the car and they cost $250,000 per car to build. Not really a good solution.

@@eugenux same could be said about you, bud. 6 different articles about this ONE Volvo study reported 6 different numbers... (No one said 90,000 though, I've no idea where Autotrader pulled that number)
The truth is somewhere in the middle. Jason from Engineering Explained had a good video about it, and his conclusion was in the 2~ year mark.
Also what is it with petrol sheep talking only about Tesla all the time? All serious car manufacturers make EVs now.. is that not enough of a hint that you're plain wrong?

@@eugenux Exactly! Same applies for believing beyond biased Reuters news! Great analogy with the crApple brand btw!

@@eugenux I would always take Tesla's numbers with a healthy does of scepticism, but it's a demonstration that every study comes up with a different number and Volvo's numbers are way higher that I have seen anyone else come up with. However, the universal conclusion across all these studies is that an EV produces significantly less CO2 in it's lifetime, and the break-even point gets smaller all the time as your electricity source gets greener every year.

Volvos numbers are high because they aren’t yet sourcing renewable generated electricity for manufacturing and are manufacturing in China on their standard high CO2 mix. Some others only use renewables (e.g. VAG) or use a lot of renewables (e.g. Tesla)