Ok, look, this isn't complicated. Here's some kind-opinion, kinda-fact points:
1) Tesla is making vehicles with EV drivetrains at cost parity or less than an ICE car (depends on the actual reporting on Tesla's per-car margin accuracy). This number is somewhere around $100/kwhr at the pack level.
2) EV drivetrain cost has been steadily falling at nonlinear rates for a decade, with very much runway.
3) CATL and other battery suppliers have released 150 wh/kg sodium ion and 200+ wh/kg LFP in mass production. The sodium ion density (150 wh/kg) is somewhere around a 300 mile range car with good engineering. The LFP density (200+ wh/kg) should be good for a 400 mile car.
4) the pack-level cost of the cells remains to be seen, but likely the sodium ion pack level cost will drop to 50$/kwhr give or take. The LFP will be in 60-80/kwhr. Note that this is not dependent on lab-to-factory maturation. The cells are already beginning mass production, and the full cost drop is just a function of boring traditional factory construction and logistics.
This means that in about 2-3 years, a car company with a decent EV engineering team will be making cars that cost them, at the core "guts" of the vehicle, about 1/3 to 1/2 less than an ICE car.
If you've driven in a Tesla, you know an EV produces a lot of torque, is quiet, smooth, and a very good riding experience. The downsides of slow recharge are steadily improving.
But if an EV costs 25-40% less than an ICE, and your car company cannot make those vehicles, your car company will cease to exist in short order.
The last five years where VW and other companies started doing the large EV investments, they were following long term trend lines, without acutal substantive technological pathways. So conservative companies like Toyota / FCA / etc could plausibly drag their feet and sell wait an see.
They cannot do that anymore, which is likely why Toyota is making all these announcements only 1 year after questioning EVs and pushing Hydrogen for the nth time. It's the new Sodium Ion and LFP going into production, which is a tangible no-projecction add-up-bill-of-materials that equals: the ICE is not a competitive economic product in the very near future. It is obsolete. Yes it will have inertia, but its days are numbered.
Of course, those numbers are just for the sodium ion / LFP stuff that CATL is putting into production this year.
The roadmaps for sodium ion in 1-3 years is to hit 200 wh/kg (the 400 mile car, or a smaller/cheaper pack for a 300 mile car), and LFP to hit 225-250 wh/kg (the 500 mile car, a cheaper pack for a 400 mile car).
So go ahead and take all my calculations for 150 wh/kg sodium ion and 200 wh/kg LFP and slash them by another 20-30% for reduced drivetrain costs.
Now, what's in the wings in the 5-10 year range? solid state batteries, sodium-sulfur or lithium-sulfur batteries, all in various stages of lab-to-commercialization. Energy densities in the 300-500 wh/kg. Yeah, drop those drivetrain costs even more.
You can have all the best and lovely EV tech. ever, but until and unless electricity prices come down, and "filling up" an EV with stored energy is cheaper than filling up an ICE or hybrid vehicle, AND you get the same range in an EV that you can with an ICE vehicle, then EV's - currently - aren't a rational and wise choice for the average consumer.
Electricity prices are going through the roof here in the UK, which is one of the reasons why second-hand EV prices are plummeting here; because your average Joe in the UK simply doesn't want one and the cost of recharging one is pretty bad.
And let's talk about having to inevitably replace an EV battery after a few years - the prices of replacement EV batteries are ridiculous.
And let's talk about going on a long trip in an EV and having to stop for a long time, relatively frequently compared to stopping for a short time less frequently to refuel an ICE vehicle.
I also cannot wait for the inevitable day when - after we all go fully electric - we get one of those lovely Carrington Events and oh dear, power grids have gone down for weeks and we don't have ICE backups to keep us running (that's a bigger problem not just related to EV's though).
EDIT: Thanks for the lovely downvotes and even the insulting accusation that I'm some sort of shill for Shell, or something. (I'm not; if only I could have a nice cheque from the oil companies, eh? But if it made the person who accused me feel better about themselves...). I've obviously triggered the EV zealots who are utterly convinced that EVs are the way to go - yet don't take into account that not everyone lives in a "15 minutes city" (shudder) and that for a lot of people in the UK, EVs are currently both unaffordable AND impractical."
Sure - disagree with my opinion. But downvoting it into HN oblivion? Nasty. Accusing me of being an oil shill? Nastier still.
I'll stick to my Prius hybrid that just keeps on running - and the new Prius we're getting delivered soon, thank you very much.
p.s. CO2 does not control the weather or the many thousands of climates around the plane; it's a completely ridiculous premise that a trace gas at 0.04% of the atmosphere (Of which humans contribute 3% - what's 3% of 0.04%?) in any way justifies all the Net Zero insanity everywhere. There. That oughta give you valid conniptions.
There's no fundamental reason why electricity prices be rising. Solar and wind have been dropping at nonlinear rates for a decade,and likely will for another decade. They are already the cheapest power sources by LCOE than even natural gas turbine. I don't live in the UK, but in the US the electrical cost of recharging an electric car was far less than fueling a gas car even before the current rise in gas prices. Long term even moreso.
Replacement of an EV battery will likely get cheaper and cheaper and cheaper. If you read anything about the sodium ion and LFP technologies that are coming to market and the sulfur techs that will likely eventually replace them, the battery replacement will get cheaper and cheaper. Meanwhile I recently replaced my ICE transmission for $6000.
As for long range trips, the recharge times are dropping. Battery distances are increasing so people with long range requirements will probably be able to get 500 mi or longer battery capacities. For some vehicles that want to go even further than that, it will probably be some sort of generator, additional battery trailers or other mechanisms. This will likely be the soul use case that internal combustion engines have an advantage on. The other thing that is pointed out by EV users is that by charging at home you save more time on a daily basis not having to go to the gas station. So overall, unless you drive daily very long distances in the end you'll have more time.
Every modern car is filled to the brim of computers and Carrington events will likely wipe out all of them as well. However, what would you rather have a vehicle that could charge off of potentially solar cells you have on your roof in a disaster? Or would you rather have an IC vehicle that is useless without fuel, and the fuel supply logistics have collapsed in the Carrington event?
You sound like a shill for British Petroleum. Don't worry, you'll be able to buy an ICE and refuel on ICE, likely for several decades if you so choose.
Cheaper at what cost? Two wrongs don't make a it right so putting aside issues with fossil fuel, let's not ignore an elephant in the room in terms of the human rights issues involved in the electric vehicle supply chain? This is no minor matter.
Oil is completely conflict free and has never caused any human rights issues ever. /s
Sorry but nobody talks about that elephant in the room in terms of the human rights issues involved in the gasoline vehicle supply chain. Plus there are big overlaps between the supply chains of electric and fossil fuel car. This whole argument is inane.
I have mixed feelings about that rule. It's from 15 years ago, I think, and HN wasn't as astroturfed as it is now. There are literally internal Slack channel with automation that monitors HN and alerts marketing teams to react to keywords being mentioned (companies, products).
> Every modern car is filled to the brim of computers and Carrington events will likely wipe out all of them as well
This isn't particularly likely. Large-scale structures like power grids are much more susceptable to issues from such an event: smaller electronics are unlikely to be damaged.
Where I live electricity prices are about 1/8 the price per kilometer compared to gasoline. And I have rooftop solar, so for me it's even better. And I have not had to suffer a gas station in over a year - that in itself would be worth it even if not for the cost per kilometer.
Not to mention no oil or filter to change, no plugs or coil packs to go bad, no catalytic converters to steal...
I predict that within 10 years gangs will start stealing EV batteries. With a grinder, trolley and 5 minutes you could remove one from a car. Then take it away and connect it to the grid as stationary storage and earn a few thousand dollars a year in balancing fees.
That's not nearly as easy as removing a catalytic converter. You can walk off with the catalytic converter. But a battery pack can be a quarter of the vehicle's considerable weight. EVs weight more than fossil fuel cars because of this. You're not going to casually walk off or moped away with 1,000 lbs of battery.
A single man can throw the catalytic converter in the back of the truck. It can also be sawed off with a 50€ battery angle grinder in a few minutes.
A single man cannot throw a 500kg battery bank on the truck. The battery bank in many EVs is a structural part of the car and very well protected from the underside for a reason.
I really doubt this. Messing with high voltage battery packs will get people killed very fast. It's not an inert part with barely any risks.
That doesn't take into the account the software required to safely and properly charge these packs that will likely be factory or dealership locked to a vehicle if thefts start to happen on a larger scale.
>I really doubt this. Messing with high voltage battery packs will get people killed very fast.
I dont think the safety argument holds much weight. For comparison, there is a lively market in Europe for WW2 relics. People dig up former front lines by night (sometimes even with heavy equipment) and burn out any explosives they can find to sell the "decommissioned" shells to collectors.
Having been to car boot sales and seeing people selling 50 damaged (ie. ripped out) ebike batteries at once, I can tell you they are actively traded...
In the UK, there are a number of tarrifs targeted at EVs ranging from around 7.5p to 11p p/kWh. Some are type of use (i.e. they monitor exactly what goes into your EV and give you a rebate for the amount that went to your EV) and others are time of use like the traditional night time tarrifs.
I'm on Intelligent Octopus which gives 7.5p p/kWh guaranteed on any electricity use from 11.30pm to 5.30am. Outside of that, if you allow it to manage your EV charge schedule, you can actually get the lower rate at other times of the day I'm guessing subject to general grid load or wholesale costs dropping. For example, I've had my EV charge until 7.30am on a couple of occasions, still at the lower rate.
That sounds like part of it is subsidies. I talked with somebody at a electricity supplier a few years back and he mentioned possibly adding tarrifs aimed at grid load balancing in the future. So cheaper power for stuff like freezers if you turn their control over to the supplier. What you describe sounds similar.
I'm not sure what's the price of a kWh where you live.
Where I live (France), at 0.22 €/kWh:
- If I use Tesla Superchargers (ie. a long-distance trip), my expenditure in power is half of what I'd pay for petrol.
- If I charge at home (ie. 95% of my car use), my expenditure is between one half and one third.
and the ride is so much more fun.
My car battery is 4 years old and retains almost the same charge as when it was brand new. How many are "a few years" in your opinion, and what observations have you made to form that opinion?
Also, let's imagine that my battery drops to a 60% charge retention when it is, say, 12 years old. Why would I have to "inevitably replace" it, while it is still largely adequate for almost all my needs?
And by the way, when I do long-distance trips, I take longer to change my toddler's diapers and/or feed him than it takes for my car to be topped-up for the next leg of the trip. If anything, I'm inconvenienced by having to move the car away from the charger because it's ready before I am.
Last, but not least, it only takes a couple days of workers' strike at an oil-related industry for people to spend hours queuing at the one gas station that has not run dry yet.
According to my "smart" meter, my electricity tariff - which is variable rate - is currently 28.59 UK pence per KWh, which roughly translates to 0.33 of your Euros/KWh.
Plus a ridiculous "standing charge" of 68 UK pence per day.
As to the rest of your points, if your EV works out for you, good for you, but not everyone is living in your particular circumstances. I'm based in Scotland in a particularly rural area. We recently went on a trip to the Isle of Skye, and made a >500 mile round trip on one tank of petrol in my Prius, which included driving around the island in it, without having to top up numerous times or having to even try finding a charging station if we were in an EV.
And say everyone switches to EVs - there surely must come a saturation point at which the demand for a charging station is greater than the availability of one. Compare that to popping into a petrol station for a few minutes, filling up, and setting off again, and not having to worry about filling back up again until a long time later compared to having to top up a battery more frequently.
The "top-up numerous times" is actually "once every 200 km or less often" for most EVs. You might even not need to top up your battery if your sleeping arrangements include a destination charger.
About the saturation point, I fully agree. There are two mitigating circumstances though:
1.- EV drivers with an option to charge at home will do that most of the time; apartment dwellers don't have it so easy, but at least in France the law is on their side to set up charging spots if they have a private parking spot.
2.- Building new high-speed charging stations is not very expensive, and does not require a large amount of maintenance in the long run.
One last point: the convenience afforded by ICEs and petrol stations should become stigmatized, and I wish for a tipping point in public perception, where driving an ICE where an EV would do is seen as a selfish and disrespectful choice.
What are your electricity prices? If I assume 34p/kWh and 150p/L for gas, 3.3mi/kWh and 30mpg, and plug it into a unit converter, the EV is almost half as much to fuel. Are your electricity prices higher than 70p/kWh now?
> because your average Joe in the UK simply doesn't want one and the cost of recharging one is pretty bad.
On average a UK petrol car needs 1 gallon of fuel for 36 miles of travel. Maybe that's your commute round trip. That fuel costs about £7 in the UK.
You can fill the electric car up overnight, on say, Eon's "Next Drive" tariff that costs 9.5p per kWh, which means with a typical home charging setup (7kW) you can charge it for 10 hours and still spend less money than on a gallon of petrol.
Of course in reality after a couple of hours it'll be done. Which leaves you with about £5.50 per night extra in your pocket compared to ICE drivers.
But let's talk about poisoning children. Because that's the long term effect of ICE, intolerably high levels of air pollution. You can't really pay for that, no matter how expensive we make it, you can only stop doing it.
Also from the UK (and recently converted petrol head), and anyone sensible who is charging at home is not paying the average day rate on their electricity. For example, we currently pay on average 7.5p p/kwh on our electricity. We can fully "fill" our car for around £4.50 which will buy us between 240 and 300 miles depending on type of driving. For comparison, I took our 3 year old relatively efficient ICE car to top up the fuel last night - quarter of a tank cost me £20 and only added about 100 miles of expected range (and that's at a push).
Battery packs don't need replacing "after a few years", that's hyperbole.
Having to stop on longer trips is getting better over time - granted, still nowhere near a decent diesel engine but there are plenty of EVs that can do 200-300 miles realistic range now - how many people are honestly doing trips longer than that on a regular basis, and for the ones that are, how many wouldn't already be stopping for a loo break, lunch or a coffee? I'd argue the majority of the population would manage just fine.
Not saying EVs are perfect, but there is still a lot of misinformation out there and they're getting better everyday.
Of course, if you can't charge at home then they simply don't work especially at current public charging prices (seen some stations charging ~80p kw/h which is insane!). Infrastructure still has a long way to go.
As for a Carrington Events, I have thought about this recently and yep, I guess we'd be pretty stuffed. Then again, if such a catastrophic event were to happen, I can't imagine I'd be needing the car for much - we'd likely have much more major things to be worrying about.
I live in the Netherlands. I wish I had the right conditions to switch over from my VW Golf Diesel :-(
My home electricity costs 0.4EUR/kWh. I live in a terraced house/townhouse with no dedicated parking - this means I cannot charge my car at home/residential electricity rates eventhough I have solar panels in my roof that generates more electrcity than I use in a year. So, for my constraints, I will only consider an electric car when it becomes more economical to fill up at a public charger than a diesel car, and purchase costs come significantly down than what they are now.
I know I should not be contributing to the problem by warming up the planet. I'd instead control my urges to use the car and use public transport as much as I can, bike as much as I can(it gets me some exercise and fresh air, so why not?!). But, I'll hold on to my existing diesel car for those occasional IKEA trips, longer trips to vist the in-laws (Netherlands <-> Austria) instead of buying a new electric car which will certainly contribute to more emissions during its manufacturing.
I wish the EU countries see the elephant in the room and act sensibly by ramping up electricity generation at break-neck pace to 1. reduce the electricity prices, and 2. make people choose electric cars because it is the more convenient and economical choice than just wanting to save the planet out of good heart.
I think that parking spaces will eventually come with slow charging systems - combined with better "standby" power draw from electric cars everybody might suddenly get away with just plugging in the car every time they park. Maybe they could be even made "free" or very cheap in the sense that you mostly pay for it by wear and tear on your battery (it would only charge to 70% guaranteed and everything above it could be used by the system at any time while its plugged in).
A system like that would be something that probably needed to be implemented at a level that works in several countries.
eventually such a setup could be a large component of the buffer renewables need together with storage in houses and at the municipal level.
One thing at a time...
Even requiring the power utility companies to install a standard slow charger at most road side parking spots would go a long way to encourage adoption of electric cars in the cities(where it makes the most sense already for short commutes). This is simply an additional avenue for the power companies to sell electricity to consumers. Why wouldnt they jump on the business opportunity?!
The regulatory hurdle and safety of design needs to be moved first, and then the market can take over.
I dont think using electric car batteries as a distributed grid storage is ever going to fly though. Every consumer will worry about the battery cycle degradation and not sign up for such a thing.
At the scale at which storage is needed in the grid, it would make sense to make huge energy storage facilities with cheaper/lower density energy storage solutions like redox batteries, compressed air energy storage or closed loop compressed liquid solution etc supplemented by a buffer of LFP banks to get through the variations in energy supply by day/night or even through a week.
Seasonal variation is a bit of a harder problem though. What do we do when the winds dont blow and the sun doesnt shine for more than 10 days at a time?!
We need to build out _modern_ CNG power plants that can be utrned on at high capacities ONLY at such times, while they idle out the rest of the times abd not pollute unnecessarily.
I believe this is a technically solvable problem. However, we need political will to not look at the short term and think for the long term good to back such efforts and see it through.
Maybe EV's dont currently make sense in the UK, I dont know, but for rest of europe its not true.
Most summers we take a road trip from denmark to south of france. After we have gotten an EV the cost is soo much lower compared to our previous gasoline cars.
The extra time to charge is not much, esp if you plan just a little bit and fx charge while you are eating lunch.
If you’re on the national grid, this simply isn’t the case. If you’re, like, the only resident of a remote island with no grid connection and run your own diesel generator, then perhaps not, but you are the edgiest of edge cases. (Also you probably don’t have that much use for a car, such an island being unlikely to have a car ferry service).
My current electricity price is -0.08c/kWh. Yes. That is a negative number. The price has been close to or below zero for a week now.
Dunno how much lower it could go? The only thing missing here is a legal framework that would allow me to charge a local 50-100kWh battery bank with free electricity and sell it for a huge profit when the price goes up.
What? EVs are still way cheaper to run than petrol. Apart from the electricity being cheaper (substantially so, if you have any clue and charge when it's cheap), they also require much less maintenance. The batteries are lasting a lot longer than anyone expected as well. One of the reasons battery recycling isn't really happening yet is there aren't enough batteries from the first few generations of EVs that are in a state where they need recycling. The main blocker with EVs has been the up-front cost, which is still high compared to ICE, but rapidly falling as mentioned above. Charging speeds and range are one of those things which people worry about when they buy an EV and then don't worry about after they buy and drive one: even with the fairly barebones charging infrastructure that exists now it's not actually a big practical problem.
And if I were around for a carrington event, I'd much rather have a big EV pack that can run my house for a while than an ICE, especially since I could recharge it with solar. The renewable transition, with a big shift to more local generation, is even more resiliant to a disruption of the power grid, and that resiliance is further enabled by EVs.
That is a big if considering traditional car manufacturer are still struggling with their chip orders. And I haven't seen major announcement regarding new fab being build for the car manufacturing industry. So unless there are big changes outside the usual battery industry, the price of the car will remain the same.
Meanwhile in Japan I can't buy a 4WD mini van that's fully electric, one of the most common petrol car form factors in Japan. They can't even do the basics in their own home market. Good luck Toyota, you will need it.
The Japanese auto industry deliberately decided to put the emphasis on hybrid technologies before EVs.
- the overwhelming amount of the world does not and will not have infrastructure to support that many EVs for quite some time. Energy-starved countries such as most of Europe bar some like Scotland or Norway are already unable to cope with the current electricity demand. Japan itself has a grid that's isolated from the rest of the world and even internally it has several design issues (east and south grids run at different frequencies, 50 vs 60hz) that prevents them from scaling
- for the aforementioned reasons, demand for petrol cars is going to be still high for decades to come in most of the world.. Not only most, if virtually all, automakers already have EVs out there, but the technology evolves at such a rapid pace, that waiting before converting is quite sensible. Don't forget that the investments required in EV world are much smaller in comparison to producing ICE-powered machines. There's lots of know how involved in those, and developing an ICE costs multiple billions. E.g. The OM654 Mercedes diesel engine costed more than 3 billions in R&D and benefitted from lots of know-how Mercedes possessed by decades. Thinking that legacy automakers will struggle in the transition is a rather blind take. Yes, many won't enjoy such a market dominance as they did, but that's mostly related to how relatively easy (compared to ICEs) it is to create an EV startup and offer something that others don't. On a much smaller scale the auto industry will see the same disruption that the gaming one saw with indie video games.
Your country is also increasing its coal output and the output of energy produced by coal in double digits and out wiping villages such as Lutzerah to create some of the biggest coal mines in the world.
Yes, you are energy starved too.
Also, how there's no EVs? From all WV brands including Skoda to luxury makers from Mercedes to Porsche, *all* of your automakers have multiple EVs sitting in your dealerships.
> Your country is also increasing its coal output and the output of energy produced by coal in double digits
That's only true if you look at the data from 2020 onwards. In reality coal usage for electricity, regardless of type, peaked years ago and never recovered:
Electricity is over 30 ct/kWh in Germany, and short-term, they will be unable to offer it much cheaper. Does that mean black-outs and people not getting electricity? No, but at those prices, heavy industry like steel mills and aluminum foundries will have to move abroad.
And it won't get better with the numbers of EVs on the roads going up. Germany burns around 50M tons of gasoline per year. If you want to replace that with electricity, you need to install tens of gigawatts of additional powerplant capacity - and that's not "peak capacity" renewable plants advertise. Real, 24h-capacity.
And that's not looking good, either. Thanks to all the NIMBYs, the actual number of megawatt turbines being built is shameful.
About half of that is taxes and they are currently proposing to drop it to the minimum allowed under EU rules
> The absolute bottom rate for electricity taxation is €0.5 per Megawatt-hour (MWh) compared to today’s rate of €20.5 per MWh – meaning the envisaged reduction could reach about 95%.
Switching from "scary" nuclear to coal isn't the smart move at all.
Solar is intermittent at best and a bunch of your energy is still reliant on natural gas. But it seems that the German government is doing the smart thing and subsidising local solar installations.
You're completely ignoring China in this picture, which is by far the largest market for cars and where EVs already reached 22% market share last year.
There's already a price war going on there, so the question isn't how long western manufacturers will be able to produce combustion cars, but will they survive the deluge of competitively priced Chinese EVs.
The solar panel market did not and is now almost fully controlled by China.
In my opinion what will happen is old fashioned protectionism.
Western governments are still kind of dumb but they're wisening up.
The US for example does it through incentives: if the car AND the batteries have been built in the US, the car is cheaper. Just the car was built in the US? Lower subsidy, more expensive car. Nothing built in the US? 0 subsidy, much more expensive car.
The EU will probably do the same within max 5 years, European car brands are about to be wiped up if they don't, just like:
Nokias phone business was destroyed by that manager they brought in from Microsoft. He held a speech where he called the company "a burning platform" on which they are standing.
Nokia were already on a path of self-destruction before Elop was hired. Also, nobody forced them to hire Stephen Elop, it was their decision to hire someone totally unfit. As a company you bear the consequences of who you appoint as your CEO.
To be fair, only the consumer facing operations of those brands have been wiped out, same as with Motorola, but their enterprise/network-infrastructure businesses from Nokia, Siemens, Ericsson, Alcatel still exists, and Sagem is still in the military business (as part of Thales).
However, the big issue is that those companies don't see much growth or sensible profit margins anymore compared to what US tech companies are raking in, fact reflected in their sweatshop salaries as well (I interviewed for Nokia and Ericsson a few years back).
In a sad way they're a direct reflection of the EU economy: stagnation and lack of future prospects. Yes I know of ASML and German mittle-stand but they alone can't competitively support the entire EU economy the same way US tech companies do.
> The EU will probably do the same within max 5 years, European car brands are about to be wiped up if they don't
Currently chinese cars are perceived as super low quality and the only strong selling point they have is the price, as they had when Huawei, Xiaomi and other brands entered the smartphone market.
If I look at BYD catalogue in the italian website I can see:
- the Dolphin starting from about 36k€ when there's the Peugeot e2008 starting from 31k€ and FIAT 600 starting from 31k€ as well
- the Atto 3 starting from about 42k€ when rumors say the Peugeot e3008 will start from about 46k€
- two higher end models which are perfectly matched by BMW offerings at the same price and with comparable performance, not even looking at other premium brands such as Audi or Mercedes
I specifically made the comparison with BYD but I'm happy to give a look at other brands you could suggest.
Even considering chinese carmakers pricing power and old school carmakers lagging behind, I honestly can't see anything disrupting here.
ps: Asian phone manufacturers is much different from China phone manufacturers given that in EU all put together they barely reach Samsung market share.
On the same note, let's not forget there are many established asian carmakers outside China ready to take their slice of the cake.
> ps: Asian phone manufacturers is much different from China phone manufacturers given that in EU all put together they barely reach Samsung market share.
Huawei was taking off like a rocket in Europe before the US kneecapped them.
> Currently chinese cars are perceived as super low quality and the only strong selling point they have is the price, as they had when Huawei, Xiaomi and other brands entered the smartphone market.
That's always step 1, exactly what Japan (60s, 80s) and Korea (90s, 00s) did. They all move up after a while. Japan, especially, smashed US car companies.
Yes of course, but today's japanese and korean cars are well renowned and considered top in class, what about Xiaomi and other chinese smartphone brands ?
Severely lagging behind Apple and Samsung and price-to-quality ratio it's kinda meh, completely different evolution.
>> Huawei was taking off like a rocket in Europe before the US kneecapped them. <<
Huawei was taking off mostly in China -- after the CCP forced Samsung out of China after 2013 under Xie's state industrial policy to protect their domestic industry. Samsung's China market share went from 20% to 1% in a span of a few years. (the same can be said for LG Chem's EV battery business in China and Hyundia/Kia's auto business). It's difficulty to say what would have happened in the EU though.
Just because someone else has a different take on the market it doesn't mean that he's wrong.
I didn't ignore China, or US, I stated that on average most cars in the world sold globally will still be ICE-powered for a long time to come due to electricity constraints (and quite high EV costs that aren't gonna fall anytime soon). This is especially true about Japan which the comment was speaking of.
> The solar panel market did not and is now almost fully controlled by China.
Another take that misses the forest for the trees: China controls large parts of manufacturing globally regardless of sector, that's true for advanced electronics (80% of the components and assembly of your Apple stuff is made there) to the toys you buy your kids to the apparel you wear (e.g. 70% of Nike apparel is produced in China).
They have low labor cost, insanely good infrastructure and logistics, cheap energy and weak labor rights. You're not gonna outcompete them on manufacturing.
> They have low labor cost, insanely good infrastructure and logistics, cheap energy and weak labor rights. You're not gonna outcompete them on manufacturing.
Sorry to bust your bubble but that has slowly been changing. Mexico and India is the new China, or at least they will be very soon.
For years, wages in China were much lower than Mexico's. Now, Mexico's manufacturing labor costs are 20% lower than in China. When adjusted for worker productivity, the gap is even wider. And India is getting there, too.
> I stated that on average most cars in the world sold globally will still be ICE-powered for a long time to come due to electricity constraints
China isn't pushing for EVs because they care about the planet or whatnot, but because it's much easier for them to increase electricity production than import more oil.
In 2022 they added around 87GW worth of solar panels, the annual electricity production of which would be enough to charge 36mln EVs.
And that's just solar, which may or may not be utilized fully. The additions in coal alone are enough to power a 100% EV fleet of new cars.
> China controls large parts of manufacturing globally regardless of sector, that's true for advanced electronics
That wasn't the case for solar panels as recently as in 2003, when it was Germany and Japan that combined controlled most of the market - both in sales and production capacity:
I can get 11kW of 3-phase power to charge my car from the garage of my Grandma's house, that was built in the late 50's. I could do up to 22kW, but pretty much no EV supports 22kW AC charging (weird patent stuff IIRC).
I can also charge at 2.7kW from a regular Schuko outlet.
The single-phase thing is why electric kettles aren't a thing in the US, you just can't provide enough power for them to be usable. IIRC the maximum for US outlets is around 1.5kW, (most?) European plugs can provide around 2.3-2.7kW.
Sorry what is blind about my take? I'm honestly interested. I don't see much in your response that proves my take is blind.
The article is titled:
Toyota to triple EV output as it chases Tesla, BYD, is this not an omission they slept on the starting line? Then:
It is also jointly developing EV versions of mini commercial vehicles with Suzuki Motor and subsidiary Daihatsu Motor.
Which is exactly the type of car I've been interested in buying, so I guess they too see the gap in the market now, but have done little too fill it. BYD will likely enter this space before Toyota. The only thing that will stop that is protectionism, which Japan is good at, so it might work out for Toyota.
The only one who is blind here is Toyota, they fucked up good and now they have to "chase" the competition.
Also the power grid isn't Toyota's problem, it's the Japanese governments problem, and Toyota and all the other major Japanese car manufacturers should've had the foresight to work with the government to address this issue 5-10 years ago, not now. Now it's too late. They will likely be destroyed by Tesla and BYD because of their unwillingness to adapt.
Toyota are dinosaurs now and the fact the government didn't work to update the grid means the entire Japanese economy will be at the mercy of oil prices, or will lose crazy amounts of money subsidizing the prices because the price of oil will only continue to increase as economies of scale start to shift towards EVs and away from ICE and petroleum.
A friend just bought a Mitsubishi EV kei van, it's an absolutely amazing car. I rode it in the other day and how I felt afterwards was betrayed. Betrayed that it was the most superior passenger experience I can remember, no noise, no smell, awesome acceleration, regenerative breaking, solar charged. I want one...the trouble is that we live in an area with snow and a 4WD is important and they only do a 2WD for now.
We've been ripped off as consumers for way too long.
JDM minivan is one of the most difficult form factor for BEV because it's extremely optimized for internal space. It's better for Toyota to release and sell more SUV BEVs on foreign markets to compete. JDM minivan would be the released slowly because there's no BEV competitor in foreseeable future.
Imported vans has been a joke for Japanese passengers, but I'd like to see how Chinese minivans does well (or not, maybe too big for Japan).
78 comments
[ 2.9 ms ] story [ 289 ms ] thread1) Tesla is making vehicles with EV drivetrains at cost parity or less than an ICE car (depends on the actual reporting on Tesla's per-car margin accuracy). This number is somewhere around $100/kwhr at the pack level.
2) EV drivetrain cost has been steadily falling at nonlinear rates for a decade, with very much runway.
3) CATL and other battery suppliers have released 150 wh/kg sodium ion and 200+ wh/kg LFP in mass production. The sodium ion density (150 wh/kg) is somewhere around a 300 mile range car with good engineering. The LFP density (200+ wh/kg) should be good for a 400 mile car.
4) the pack-level cost of the cells remains to be seen, but likely the sodium ion pack level cost will drop to 50$/kwhr give or take. The LFP will be in 60-80/kwhr. Note that this is not dependent on lab-to-factory maturation. The cells are already beginning mass production, and the full cost drop is just a function of boring traditional factory construction and logistics.
This means that in about 2-3 years, a car company with a decent EV engineering team will be making cars that cost them, at the core "guts" of the vehicle, about 1/3 to 1/2 less than an ICE car.
If you've driven in a Tesla, you know an EV produces a lot of torque, is quiet, smooth, and a very good riding experience. The downsides of slow recharge are steadily improving.
But if an EV costs 25-40% less than an ICE, and your car company cannot make those vehicles, your car company will cease to exist in short order.
The last five years where VW and other companies started doing the large EV investments, they were following long term trend lines, without acutal substantive technological pathways. So conservative companies like Toyota / FCA / etc could plausibly drag their feet and sell wait an see.
They cannot do that anymore, which is likely why Toyota is making all these announcements only 1 year after questioning EVs and pushing Hydrogen for the nth time. It's the new Sodium Ion and LFP going into production, which is a tangible no-projecction add-up-bill-of-materials that equals: the ICE is not a competitive economic product in the very near future. It is obsolete. Yes it will have inertia, but its days are numbered.
Of course, those numbers are just for the sodium ion / LFP stuff that CATL is putting into production this year.
The roadmaps for sodium ion in 1-3 years is to hit 200 wh/kg (the 400 mile car, or a smaller/cheaper pack for a 300 mile car), and LFP to hit 225-250 wh/kg (the 500 mile car, a cheaper pack for a 400 mile car).
So go ahead and take all my calculations for 150 wh/kg sodium ion and 200 wh/kg LFP and slash them by another 20-30% for reduced drivetrain costs.
Now, what's in the wings in the 5-10 year range? solid state batteries, sodium-sulfur or lithium-sulfur batteries, all in various stages of lab-to-commercialization. Energy densities in the 300-500 wh/kg. Yeah, drop those drivetrain costs even more.
Electricity prices are going through the roof here in the UK, which is one of the reasons why second-hand EV prices are plummeting here; because your average Joe in the UK simply doesn't want one and the cost of recharging one is pretty bad.
And let's talk about having to inevitably replace an EV battery after a few years - the prices of replacement EV batteries are ridiculous.
And let's talk about going on a long trip in an EV and having to stop for a long time, relatively frequently compared to stopping for a short time less frequently to refuel an ICE vehicle.
I also cannot wait for the inevitable day when - after we all go fully electric - we get one of those lovely Carrington Events and oh dear, power grids have gone down for weeks and we don't have ICE backups to keep us running (that's a bigger problem not just related to EV's though).
EDIT: Thanks for the lovely downvotes and even the insulting accusation that I'm some sort of shill for Shell, or something. (I'm not; if only I could have a nice cheque from the oil companies, eh? But if it made the person who accused me feel better about themselves...). I've obviously triggered the EV zealots who are utterly convinced that EVs are the way to go - yet don't take into account that not everyone lives in a "15 minutes city" (shudder) and that for a lot of people in the UK, EVs are currently both unaffordable AND impractical."
Sure - disagree with my opinion. But downvoting it into HN oblivion? Nasty. Accusing me of being an oil shill? Nastier still.
I'll stick to my Prius hybrid that just keeps on running - and the new Prius we're getting delivered soon, thank you very much.
p.s. CO2 does not control the weather or the many thousands of climates around the plane; it's a completely ridiculous premise that a trace gas at 0.04% of the atmosphere (Of which humans contribute 3% - what's 3% of 0.04%?) in any way justifies all the Net Zero insanity everywhere. There. That oughta give you valid conniptions.
Replacement of an EV battery will likely get cheaper and cheaper and cheaper. If you read anything about the sodium ion and LFP technologies that are coming to market and the sulfur techs that will likely eventually replace them, the battery replacement will get cheaper and cheaper. Meanwhile I recently replaced my ICE transmission for $6000.
As for long range trips, the recharge times are dropping. Battery distances are increasing so people with long range requirements will probably be able to get 500 mi or longer battery capacities. For some vehicles that want to go even further than that, it will probably be some sort of generator, additional battery trailers or other mechanisms. This will likely be the soul use case that internal combustion engines have an advantage on. The other thing that is pointed out by EV users is that by charging at home you save more time on a daily basis not having to go to the gas station. So overall, unless you drive daily very long distances in the end you'll have more time.
Every modern car is filled to the brim of computers and Carrington events will likely wipe out all of them as well. However, what would you rather have a vehicle that could charge off of potentially solar cells you have on your roof in a disaster? Or would you rather have an IC vehicle that is useless without fuel, and the fuel supply logistics have collapsed in the Carrington event?
You sound like a shill for British Petroleum. Don't worry, you'll be able to buy an ICE and refuel on ICE, likely for several decades if you so choose.
https://www.washingtonpost.com/world/interactive/2023/electr...
Sorry but nobody talks about that elephant in the room in terms of the human rights issues involved in the gasoline vehicle supply chain. Plus there are big overlaps between the supply chains of electric and fossil fuel car. This whole argument is inane.
Please read the guidelines: https://news.ycombinator.com/newsguidelines.html
For example: https://about.gitlab.com/handbook/marketing/developer-relati...
And GitLab is just very open, plenty of companies do the same and frankly many are actually scummy about it, GitLab is actually playing by the books.
It seems like a very naive rule these days.
This isn't particularly likely. Large-scale structures like power grids are much more susceptable to issues from such an event: smaller electronics are unlikely to be damaged.
Not to mention no oil or filter to change, no plugs or coil packs to go bad, no catalytic converters to steal...
I predict that within 10 years gangs will start stealing EV batteries. With a grinder, trolley and 5 minutes you could remove one from a car. Then take it away and connect it to the grid as stationary storage and earn a few thousand dollars a year in balancing fees.
They could equally have a truck with 3 EV batteries in the back.
A single man cannot throw a 500kg battery bank on the truck. The battery bank in many EVs is a structural part of the car and very well protected from the underside for a reason.
EV batteries are under the car and connected to many other components. They'd basically need to steal the car itself to do it.
It's far from a trivial thing.
That doesn't take into the account the software required to safely and properly charge these packs that will likely be factory or dealership locked to a vehicle if thefts start to happen on a larger scale.
I dont think the safety argument holds much weight. For comparison, there is a lively market in Europe for WW2 relics. People dig up former front lines by night (sometimes even with heavy equipment) and burn out any explosives they can find to sell the "decommissioned" shells to collectors.
No, you cannot. Look up SuperFastMatt's video about the construction and layout of the Tesla battery he had to "chop up" for this custom build.
Your point about having to "inevitably replace an EV battery after a few years", did you mean "incidentally", instead of "inevitably"?
The rest of your points may be valid or not, I don't know. But I feel like the picture is more nuanced.
Germany had this for a while with storage heaters but it got phased out a decade ago.
I'm on Intelligent Octopus which gives 7.5p p/kWh guaranteed on any electricity use from 11.30pm to 5.30am. Outside of that, if you allow it to manage your EV charge schedule, you can actually get the lower rate at other times of the day I'm guessing subject to general grid load or wholesale costs dropping. For example, I've had my EV charge until 7.30am on a couple of occasions, still at the lower rate.
That sounds like part of it is subsidies. I talked with somebody at a electricity supplier a few years back and he mentioned possibly adding tarrifs aimed at grid load balancing in the future. So cheaper power for stuff like freezers if you turn their control over to the supplier. What you describe sounds similar.
Where I live (France), at 0.22 €/kWh:
- If I use Tesla Superchargers (ie. a long-distance trip), my expenditure in power is half of what I'd pay for petrol.
- If I charge at home (ie. 95% of my car use), my expenditure is between one half and one third.
and the ride is so much more fun.
My car battery is 4 years old and retains almost the same charge as when it was brand new. How many are "a few years" in your opinion, and what observations have you made to form that opinion?
Also, let's imagine that my battery drops to a 60% charge retention when it is, say, 12 years old. Why would I have to "inevitably replace" it, while it is still largely adequate for almost all my needs?
And by the way, when I do long-distance trips, I take longer to change my toddler's diapers and/or feed him than it takes for my car to be topped-up for the next leg of the trip. If anything, I'm inconvenienced by having to move the car away from the charger because it's ready before I am.
Last, but not least, it only takes a couple days of workers' strike at an oil-related industry for people to spend hours queuing at the one gas station that has not run dry yet.
Cheers!
Plus a ridiculous "standing charge" of 68 UK pence per day.
As to the rest of your points, if your EV works out for you, good for you, but not everyone is living in your particular circumstances. I'm based in Scotland in a particularly rural area. We recently went on a trip to the Isle of Skye, and made a >500 mile round trip on one tank of petrol in my Prius, which included driving around the island in it, without having to top up numerous times or having to even try finding a charging station if we were in an EV.
And say everyone switches to EVs - there surely must come a saturation point at which the demand for a charging station is greater than the availability of one. Compare that to popping into a petrol station for a few minutes, filling up, and setting off again, and not having to worry about filling back up again until a long time later compared to having to top up a battery more frequently.
About the saturation point, I fully agree. There are two mitigating circumstances though:
1.- EV drivers with an option to charge at home will do that most of the time; apartment dwellers don't have it so easy, but at least in France the law is on their side to set up charging spots if they have a private parking spot.
2.- Building new high-speed charging stations is not very expensive, and does not require a large amount of maintenance in the long run.
One last point: the convenience afforded by ICEs and petrol stations should become stigmatized, and I wish for a tipping point in public perception, where driving an ICE where an EV would do is seen as a selfish and disrespectful choice.
https://chooseev.com/savings-calculator/
On average a UK petrol car needs 1 gallon of fuel for 36 miles of travel. Maybe that's your commute round trip. That fuel costs about £7 in the UK.
You can fill the electric car up overnight, on say, Eon's "Next Drive" tariff that costs 9.5p per kWh, which means with a typical home charging setup (7kW) you can charge it for 10 hours and still spend less money than on a gallon of petrol.
Of course in reality after a couple of hours it'll be done. Which leaves you with about £5.50 per night extra in your pocket compared to ICE drivers.
But let's talk about poisoning children. Because that's the long term effect of ICE, intolerably high levels of air pollution. You can't really pay for that, no matter how expensive we make it, you can only stop doing it.
Battery packs don't need replacing "after a few years", that's hyperbole.
Having to stop on longer trips is getting better over time - granted, still nowhere near a decent diesel engine but there are plenty of EVs that can do 200-300 miles realistic range now - how many people are honestly doing trips longer than that on a regular basis, and for the ones that are, how many wouldn't already be stopping for a loo break, lunch or a coffee? I'd argue the majority of the population would manage just fine.
Not saying EVs are perfect, but there is still a lot of misinformation out there and they're getting better everyday.
Of course, if you can't charge at home then they simply don't work especially at current public charging prices (seen some stations charging ~80p kw/h which is insane!). Infrastructure still has a long way to go.
As for a Carrington Events, I have thought about this recently and yep, I guess we'd be pretty stuffed. Then again, if such a catastrophic event were to happen, I can't imagine I'd be needing the car for much - we'd likely have much more major things to be worrying about.
My home electricity costs 0.4EUR/kWh. I live in a terraced house/townhouse with no dedicated parking - this means I cannot charge my car at home/residential electricity rates eventhough I have solar panels in my roof that generates more electrcity than I use in a year. So, for my constraints, I will only consider an electric car when it becomes more economical to fill up at a public charger than a diesel car, and purchase costs come significantly down than what they are now.
I know I should not be contributing to the problem by warming up the planet. I'd instead control my urges to use the car and use public transport as much as I can, bike as much as I can(it gets me some exercise and fresh air, so why not?!). But, I'll hold on to my existing diesel car for those occasional IKEA trips, longer trips to vist the in-laws (Netherlands <-> Austria) instead of buying a new electric car which will certainly contribute to more emissions during its manufacturing.
I wish the EU countries see the elephant in the room and act sensibly by ramping up electricity generation at break-neck pace to 1. reduce the electricity prices, and 2. make people choose electric cars because it is the more convenient and economical choice than just wanting to save the planet out of good heart.
A system like that would be something that probably needed to be implemented at a level that works in several countries.
eventually such a setup could be a large component of the buffer renewables need together with storage in houses and at the municipal level.
I dont think using electric car batteries as a distributed grid storage is ever going to fly though. Every consumer will worry about the battery cycle degradation and not sign up for such a thing.
At the scale at which storage is needed in the grid, it would make sense to make huge energy storage facilities with cheaper/lower density energy storage solutions like redox batteries, compressed air energy storage or closed loop compressed liquid solution etc supplemented by a buffer of LFP banks to get through the variations in energy supply by day/night or even through a week.
Seasonal variation is a bit of a harder problem though. What do we do when the winds dont blow and the sun doesnt shine for more than 10 days at a time?! We need to build out _modern_ CNG power plants that can be utrned on at high capacities ONLY at such times, while they idle out the rest of the times abd not pollute unnecessarily.
I believe this is a technically solvable problem. However, we need political will to not look at the short term and think for the long term good to back such efforts and see it through.
Most summers we take a road trip from denmark to south of france. After we have gotten an EV the cost is soo much lower compared to our previous gasoline cars.
The extra time to charge is not much, esp if you plan just a little bit and fx charge while you are eating lunch.
checking price on my mobile app
My current electricity price is -0.08c/kWh. Yes. That is a negative number. The price has been close to or below zero for a week now.
Dunno how much lower it could go? The only thing missing here is a legal framework that would allow me to charge a local 50-100kWh battery bank with free electricity and sell it for a huge profit when the price goes up.
And if I were around for a carrington event, I'd much rather have a big EV pack that can run my house for a while than an ICE, especially since I could recharge it with solar. The renewable transition, with a big shift to more local generation, is even more resiliant to a disruption of the power grid, and that resiliance is further enabled by EVs.
That is a big if considering traditional car manufacturer are still struggling with their chip orders. And I haven't seen major announcement regarding new fab being build for the car manufacturing industry. So unless there are big changes outside the usual battery industry, the price of the car will remain the same.
There is not a single EV car that is cheaper than an equivalent ICE car(subsidies don't count). There in lies the rub.
EVs may be cheaper to produce, but the current EV manufacturers seem hell bent on exploiting the customers.
Give me an affordable EV corolla at similar price as the ICE one and I won't blink for any other car.
The Japanese auto industry deliberately decided to put the emphasis on hybrid technologies before EVs.
- the overwhelming amount of the world does not and will not have infrastructure to support that many EVs for quite some time. Energy-starved countries such as most of Europe bar some like Scotland or Norway are already unable to cope with the current electricity demand. Japan itself has a grid that's isolated from the rest of the world and even internally it has several design issues (east and south grids run at different frequencies, 50 vs 60hz) that prevents them from scaling
- for the aforementioned reasons, demand for petrol cars is going to be still high for decades to come in most of the world.. Not only most, if virtually all, automakers already have EVs out there, but the technology evolves at such a rapid pace, that waiting before converting is quite sensible. Don't forget that the investments required in EV world are much smaller in comparison to producing ICE-powered machines. There's lots of know how involved in those, and developing an ICE costs multiple billions. E.g. The OM654 Mercedes diesel engine costed more than 3 billions in R&D and benefitted from lots of know-how Mercedes possessed by decades. Thinking that legacy automakers will struggle in the transition is a rather blind take. Yes, many won't enjoy such a market dominance as they did, but that's mostly related to how relatively easy (compared to ICEs) it is to create an EV startup and offer something that others don't. On a much smaller scale the auto industry will see the same disruption that the gaming one saw with indie video games.
Your country is also increasing its coal output and the output of energy produced by coal in double digits and out wiping villages such as Lutzerah to create some of the biggest coal mines in the world.
Yes, you are energy starved too.
Also, how there's no EVs? From all WV brands including Skoda to luxury makers from Mercedes to Porsche, *all* of your automakers have multiple EVs sitting in your dealerships.
That's only true if you look at the data from 2020 onwards. In reality coal usage for electricity, regardless of type, peaked years ago and never recovered:
https://www.cleanenergywire.org/sites/default/files/styles/g...
And it won't get better with the numbers of EVs on the roads going up. Germany burns around 50M tons of gasoline per year. If you want to replace that with electricity, you need to install tens of gigawatts of additional powerplant capacity - and that's not "peak capacity" renewable plants advertise. Real, 24h-capacity.
And that's not looking good, either. Thanks to all the NIMBYs, the actual number of megawatt turbines being built is shameful.
> The absolute bottom rate for electricity taxation is €0.5 per Megawatt-hour (MWh) compared to today’s rate of €20.5 per MWh – meaning the envisaged reduction could reach about 95%.
https://www.euractiv.com/section/energy-environment/news/ber...
Solar is intermittent at best and a bunch of your energy is still reliant on natural gas. But it seems that the German government is doing the smart thing and subsidising local solar installations.
There's already a price war going on there, so the question isn't how long western manufacturers will be able to produce combustion cars, but will they survive the deluge of competitively priced Chinese EVs.
The solar panel market did not and is now almost fully controlled by China.
Western governments are still kind of dumb but they're wisening up.
The US for example does it through incentives: if the car AND the batteries have been built in the US, the car is cheaper. Just the car was built in the US? Lower subsidy, more expensive car. Nothing built in the US? 0 subsidy, much more expensive car.
The EU will probably do the same within max 5 years, European car brands are about to be wiped up if they don't, just like:
* Nokia
* Siemens
* Ericsson
* Alcatel
* Sagem
* ...
etc were wiped out by Asian phone manufacturers.
https://www.theguardian.com/technology/blog/2011/feb/09/noki...
However, the big issue is that those companies don't see much growth or sensible profit margins anymore compared to what US tech companies are raking in, fact reflected in their sweatshop salaries as well (I interviewed for Nokia and Ericsson a few years back).
In a sad way they're a direct reflection of the EU economy: stagnation and lack of future prospects. Yes I know of ASML and German mittle-stand but they alone can't competitively support the entire EU economy the same way US tech companies do.
So, like 90% of the income and profits for a hardware company?
Currently chinese cars are perceived as super low quality and the only strong selling point they have is the price, as they had when Huawei, Xiaomi and other brands entered the smartphone market.
If I look at BYD catalogue in the italian website I can see:
- the Dolphin starting from about 36k€ when there's the Peugeot e2008 starting from 31k€ and FIAT 600 starting from 31k€ as well
- the Atto 3 starting from about 42k€ when rumors say the Peugeot e3008 will start from about 46k€
- two higher end models which are perfectly matched by BMW offerings at the same price and with comparable performance, not even looking at other premium brands such as Audi or Mercedes
I specifically made the comparison with BYD but I'm happy to give a look at other brands you could suggest.
Even considering chinese carmakers pricing power and old school carmakers lagging behind, I honestly can't see anything disrupting here.
ps: Asian phone manufacturers is much different from China phone manufacturers given that in EU all put together they barely reach Samsung market share. On the same note, let's not forget there are many established asian carmakers outside China ready to take their slice of the cake.
Huawei was taking off like a rocket in Europe before the US kneecapped them.
> Currently chinese cars are perceived as super low quality and the only strong selling point they have is the price, as they had when Huawei, Xiaomi and other brands entered the smartphone market.
That's always step 1, exactly what Japan (60s, 80s) and Korea (90s, 00s) did. They all move up after a while. Japan, especially, smashed US car companies.
Severely lagging behind Apple and Samsung and price-to-quality ratio it's kinda meh, completely different evolution.
https://www.youtube.com/watch?v=j5zvFXmSGKY
Huawei was taking off mostly in China -- after the CCP forced Samsung out of China after 2013 under Xie's state industrial policy to protect their domestic industry. Samsung's China market share went from 20% to 1% in a span of a few years. (the same can be said for LG Chem's EV battery business in China and Hyundia/Kia's auto business). It's difficulty to say what would have happened in the EU though.
I didn't ignore China, or US, I stated that on average most cars in the world sold globally will still be ICE-powered for a long time to come due to electricity constraints (and quite high EV costs that aren't gonna fall anytime soon). This is especially true about Japan which the comment was speaking of.
> The solar panel market did not and is now almost fully controlled by China.
Another take that misses the forest for the trees: China controls large parts of manufacturing globally regardless of sector, that's true for advanced electronics (80% of the components and assembly of your Apple stuff is made there) to the toys you buy your kids to the apparel you wear (e.g. 70% of Nike apparel is produced in China).
They have low labor cost, insanely good infrastructure and logistics, cheap energy and weak labor rights. You're not gonna outcompete them on manufacturing.
Sorry to bust your bubble but that has slowly been changing. Mexico and India is the new China, or at least they will be very soon.
For years, wages in China were much lower than Mexico's. Now, Mexico's manufacturing labor costs are 20% lower than in China. When adjusted for worker productivity, the gap is even wider. And India is getting there, too.
China isn't pushing for EVs because they care about the planet or whatnot, but because it's much easier for them to increase electricity production than import more oil.
In 2022 they added around 87GW worth of solar panels, the annual electricity production of which would be enough to charge 36mln EVs.
And that's just solar, which may or may not be utilized fully. The additions in coal alone are enough to power a 100% EV fleet of new cars.
> China controls large parts of manufacturing globally regardless of sector, that's true for advanced electronics
That wasn't the case for solar panels as recently as in 2003, when it was Germany and Japan that combined controlled most of the market - both in sales and production capacity:
https://en.m.wikipedia.org/wiki/File:Largest_Producers_of_So...
Cars will follow the same trajectory unless western manufacturers get their heads out of their asses and do something. So far only Tesla seems to be.
America is pretty bad, but at least you have split-phase.
I can also charge at 2.7kW from a regular Schuko outlet.
The single-phase thing is why electric kettles aren't a thing in the US, you just can't provide enough power for them to be usable. IIRC the maximum for US outlets is around 1.5kW, (most?) European plugs can provide around 2.3-2.7kW.
The article is titled:
Toyota to triple EV output as it chases Tesla, BYD, is this not an omission they slept on the starting line? Then:
It is also jointly developing EV versions of mini commercial vehicles with Suzuki Motor and subsidiary Daihatsu Motor.
Which is exactly the type of car I've been interested in buying, so I guess they too see the gap in the market now, but have done little too fill it. BYD will likely enter this space before Toyota. The only thing that will stop that is protectionism, which Japan is good at, so it might work out for Toyota.
The only one who is blind here is Toyota, they fucked up good and now they have to "chase" the competition.
Also the power grid isn't Toyota's problem, it's the Japanese governments problem, and Toyota and all the other major Japanese car manufacturers should've had the foresight to work with the government to address this issue 5-10 years ago, not now. Now it's too late. They will likely be destroyed by Tesla and BYD because of their unwillingness to adapt.
Toyota are dinosaurs now and the fact the government didn't work to update the grid means the entire Japanese economy will be at the mercy of oil prices, or will lose crazy amounts of money subsidizing the prices because the price of oil will only continue to increase as economies of scale start to shift towards EVs and away from ICE and petroleum.
We've been ripped off as consumers for way too long.
Imported vans has been a joke for Japanese passengers, but I'd like to see how Chinese minivans does well (or not, maybe too big for Japan).
The BZ4X/RZ/Solterra are abysmal relative to the competition