It's not electric-only. It's a hybrid electric-only (as in a non-plug-in hybrid). They hyphenated it in a confusing way. (Edit: I guess they increased the electric mode max speed…)
Doesn't seem to do anything massively better, really. It's nickel metal hydride like the old one, although tweaked and optimized a bit. I guess it's cheap?
Aqua is the nameplate in Japan. Prius-C elsewhere. New battery technology apparently for NiMH and a higher electric-only mode speed (before the ICE kicks in).
Toyota seems to prefer the NiMH batteries as they've got a long history with them and a mature (and highly regarded) system. I think it might also avoid patents and other entanglements with Li-ion.
It's true that Toyota does employ NiMH batterys often, but they still offer models with Li-ion (Prius Prime, FWD Prius). The NiMH batteries tend to be found in the cheaper models (Prius C/Aqua) or those intended for colder climates (Prius AWD).
Interesting news is that some Japanese article said that only most cheap grade uses Li-ion battery meanwhile other grades use this nickel battery. I wonder is it because really superior than Li-ion or just because it's expensive initially.
Edit: This article said that the new nickel is 1000Wh/L meanwhile Li-ion on cheaper model is 740Wh/L. It seems that now nickel overcomes Li-ion for Wh per volume. (other Li-ions also seems to <= 800Wh/L)
NiMH batteries are also offered in higher-end models like RAV4 AWDi, etc. Purchasing RAV4 in EU one doesn't even know at the time of purchase what battery type will arrive with the car, what I find kinda strange.
Both types of batteries have pros and cons - this YT channel of a Toyota mechanic provides pretty clear explanation of the differences https://www.youtube.com/watch?v=AS3Lg3qJcnc
This is All-New model different from 2011- Aqua. It shares same platform as Yaris.
Aqua is the name for used in Japan, called Prius C on other market.
This is just HEV.
This release argues that there are significant improvements by using bipolar battery. That's why I post here.
> Compared to the previous-generation nickel-hydrogen battery, the all-new bipolar nickel-hydrogen battery delivers 1.5-times greater output per cell, and packs 1.4-times more cells in the same-sized space; together, this leads to a total output increase of approximately two-fold.
In Europe it's just Yaris - they share the same name for hybrid and non-hybrid drive trains.
I wonder why Toyota decided to give them different names (which all sound equally global) in different regions, seems really confusing. As far as I know Toyota, all other cars Toyota sells have the same name worldwide.
Add more complexity: Yaris was named as "Vitz" in Japan from the beginning until 2019 Yaris was sold. Aqua coexists with Vitz Hybrid and Yaris Hybrid so Aqua can't be named as them. It seems that EU Yaris Hybrid are equivalent to Vitz/Yaris Hybrid.
Cars don't always have the same name in different locales, just like if you're building an app or website you wind up changing strings to better fit a locale, even if it uses the same language.
Do we? I have a C-HR, and it's very underwhelming. Only reason I bought it was because I totaled my Honda, and we had bought a RAV4 for my wife less than a month before - we traded in 2 cars, so on my credit it looked like I had 4 loans outstanding at that moment, so that one dealership had all the paperwork to prove otherwise.
> 35.8 km/L refers to the fuel efficiency of the all-new Aqua B grade, under the WLTC test cycle, according to tests conducted by the Ministry of Land, Infrastructure, Transport and Tourism
What do they mean by "introduce sustainable vehicles practically", when they could have announced a 100% electric vehicle that is far more sustainable but also practical?
What's not practical with other BEV (Tesla, Hyundai Kona, ID.3, XPeng…) and that Toyota cannot improve (e.g by building a large network of charging stations)?
> they could have announced a 100% electric vehicle
There's something weird about Ford making a mass-market electric F-150 before Toyota has a mass-market car. I know they're betting on hydrogen, but so many other companies are so far ahead with electric cars that it's a little worrying. The irony is this is the company that's most associated with hybrids.
From a engineering perspective, a purely electric vehicle is very simple, not a challenge and in engineering focused companies thus often considered "unworthy" of time and effort.
Internally you will often hear terms like "golf-cart" and "toy" to describe them. They threaten the careers of whole departments and large established supply chains. This fear/anger often manifests as subtle internal sabotage to pure electric projects.
Simple compared to ICE at their stage (NB: one has benefited from many centuries of man-hour work than the other). So, for their current level of efficiency, a BEV is simpler than an ICE also fewer people are able to produce the former for cheaper than the latter.
I work in product development at a major global automaker. I have never heard somebody call a BEV program “simple”, and if somebody is trying to sabotage BEV projects, they’re doing a very, very bad job of it.
Toyota doesn't need to innovate or push limits. They built an incredibly deep moat of customer loyalty with high end customers. They can coast and just copy what works 5-10yr after the fact and still make money hand over fist (for now).
Check the pictures of where your gas is cracked from crude oil, or of the farming methods used for your meat consumption, or the trees and forests cut down for banana, soy and palm oil plantations.
Mass production never looks sustainable when framed in isolation, but in comparison to the alternative of fracking in tar sands and leaking methane by the galleon those mines aren't so bad.
Your video also misses the point. Firstly, the mix of where that power comes from will depend on where you live. In places where the grid is dirty, of course it's going to be dirty. In other places there are ample amounts of renewables available at many times to be used. There's also the fact that changing the mix of the source of the power is much much easier than getting people to change vehicles. If solar becomes massively widespread on the grid, everyone with an EV immediately benefits from it. If a new ICE is produced then it's not until the old ones are out of circulation that the gains can happen
>by your own logic then we should just skip electric and go full on hydrogen
This would be true only if hydrogen extraction, transport, storage, and use had no downsides or costs. Instead of playing childish "gotcha" games, why don't you actually articulate a cohesive point about why hydrogen is the best route forward.
you argue that electricity will become clean depending on where I live (pretty much clean for 5% countries on earth that are full nuclear or small countries as of today) which is probably true if everyone goes full electric and in 50 years but yet say I am childish for saying that once infrastructures will be there for hydrogen it will be way cleaner than electric... "a 1,000-pound electric-car battery requires the extraction and processing of some 500,000 pounds of materials. “Averaged over a battery’s life, each mile of driving an electric car ‘consumes’ five pounds of earth.” By contrast, an internal combustion engine consumes about 0.2 pounds of liquids per mile.",
https://ideas4development.org/en/rare-metals-rich-countries-...
That wasn’t me. I actually think that a hybrid solution is the best way to go, with most passenger vehicles going BEV, and heavy transport (trucking, freight, shipping) going FCEV. Your “once infrastructures will be there for hydrogen” is a big “if”. FCEVs are basically useless without extensive infrastructure for your average person. A BEV can be charged in your garage and would be perfectly usable as a commuter car with zero electric vehicle infrastructure.
Maybe “in 50 years” is not really useful for what we need to do now. I can go out today and buy a new BEV to replace my current car and other than the occasional road trip, get 100% of the same functionality. At my house, I am 10 feet away from the nearest fueling station. If I could even find an FCEV to buy, I would be over a thousand miles from the nearest fueling station. Charging stations, fast chargers, super chargers, etc. just augment and add to what every home has for a BEV. An FCEV needs gas stations like an ICE car, and there is a reason that gas stations are never more than a mile away.
For commercial purposes, it is logistically feasible to put in filling stations at specific end points, hubs, or defined distances along a route and make it work. Maybe that builds up infrastructure so that in 50 years, it could be a legitimate alternative to BEVs for average people.
you can do that. not everyone can. try waiting 20minutes in front of a tesla charging dock for each car that is in front of you. it does not scale. try harvesting the needed rare earth to replace all the fuel cars ull drive costs up, eco-systems will fall.
> What do they mean by "introduce sustainable vehicles practically"
For example, this vehicle will be part of Toyota's Welcab line that offers factory-installed conversions that makes driving accessible to people in wheelchairs. Including a device that will lift your wheelchair up and store it on top of the car while in motion (https://commons.wikimedia.org/wiki/File:The_rearview_of_Toyo...).
Tesla by comparison leaves this up to aftermarket accessory designers to figure out.
They are truly thinking about the "how does everyone drive an electric vehicle" problem.
I guess you answered your own question. Toyota doesn't appear to be interested in investing in a global chain of charging stations at this time. So from their perspective, a transition using existing infrastructure is practical.
You can get a lot of gas for 10,000 dollars / euros. Engine maintenance is rare nowadays, oil change every now and then and maybe a belt change every 5 years. Both cars have the same tire, suspension, hydraulics, low voltage battery and body maintenance. In general, I think you still have to have periodic expensive maintenance to keep warranty for your electric car.
In local prices, 10,000€ gets you about 7000 liters of gasoline, with 5 liters per 100 km you get 140,000 kilometers. The car would on average probably be ten years old at that point.
Many Priuses do tend to be driven a lot and for a long time, with a quick search I can see a local one that has gone over half a million kilometers. So there is certainly potential for long term financially positive electric cars.
EVs and Plug-in Hybrids cost less to maintain than ICE vehicles. [1] Over 200k miles, ICE vehicles are about double the maintenance cost of EVs or Plug-in hybrids, and EVs are slightly more than Plug-in hybrids.
EVs use about 30kWh to go 100 miles [2][3] and at the US national average for electricity [4], that would be about $6,250 to drive 200k miles. ICE vehicles vary but 35 mpg combined is pretty average [5] for compact cars. At the US national average for gasoline [6], that is $18,070 to drive 200k miles. Plug-in hybrids use about 29kWh to go 100 miles and about 48 mpg [7]. Just assuming 50/50 driving on gas or electric, that’s about $9,610 to drive 200k miles.
So maintenance and fuel cost over 200k miles would be roughly:
In the US, people keep new cars for an average of 8.4 years [1], and the average working age adult (age 20-54) drives about 15,200 miles per year [2]. That is over 127,000 miles, and that is average. Obviously if you are someone that trades in their car every 2 years, long term costs aren’t important to you. But lots of people keep their cars over 100k miles, and plenty keep their cars out to 200k. I included 50k and 100k on the maintenance prices, and fuel costs just have to be divided in half for 100k. At basically any distance, EVs and plug-ins are significantly cheaper to maintain and fuel than ICE vehicles.
So maintenance and fuel cost over 100k miles would be roughly:
The single pedal is not that revolutionary these days, and I don't see anything technologically interesting about a HEV platform supporting it, since single pedal is fundamentally about regenerative braking.
"the speed range at which the all-new Aqua can operate on electrical power alone has been expanded"
That seems to me like they are putting lipstick on a pig. Tesla is showing how fast a pure electric car can be, and an all-EV drivetrain, even a cheap one, should provide a VERY zippy experience to all daily driving scenarios.
The fact they aren't bragging about an impressive all-electric range (which IMO should be a 50 mile minimum range enforced by governments to get any PHEV class incentives) or any density comparisons with even LFP or other battery chemistries seems to indicate this is basically a design that was barely improved and sent out to mint profits for another cycle.
Problem is, BEVs are going to destroy this car in performance, will outclass it in environmental virtue signaling, and shows no real technological progress towards a BEV drivetrain.
Between this and its obsession with hydrogen ... Plus the tokyo olympics (one year late themselves) were supposed to be the debut of a near-production solid state battery.
That is vaporware so far, and combined with the Quantumscape short seller report, solid state looks pretty far away.
Toyota and most manufacturers besides GM and VW are clearly praying... uh... planning for the solid state battery to be a reality and close the gap with Tesla. Meanwhile Tesla keeps inching forward with gradual improvements and scale.
Yeah but if you take into account the savings on fuel a Renault Zoe newer model for 25k Chf pretty much hits that sweet spot...besides torque acceleration, silence and the good conscience of no toxic smelly fumes are pretty good bonus arguments...
So they are releasing a prototype that might be competitive with a 7-8 year old Model S? And probably aren't doing it at a profit?
I mean, it is SOMETHING, so that does mean there is some BEV group somewhere in Toyota, but it just seems Toyota is asleep at the switch and going to lose their dominant market position. This Prius does little to allay fears by shareholders.
I wonder if it will be possible to replace individual cells? When the battery fails in a Toyota hybrid (usually not something you need to worry about until you've done hundreds of thousands of miles), it usually only needs a few cells replaced to be brought back to life.
I have driven the original in Japan, first time going over a mountain I was wandering if it would survive. The sound of the CVT is alarming if you hear it for the first time. Otherwise a good but boring car.
58 comments
[ 2.6 ms ] story [ 121 ms ] threadIt’s an update of a 2011 car, but why is it newsworthy?
If it’s a Prius, why is it called Aqua?
If it’s electric only, why is it a hybrid?
What does nickel-hydrogen battery do better?
It's not electric-only. It's a hybrid electric-only (as in a non-plug-in hybrid). They hyphenated it in a confusing way. (Edit: I guess they increased the electric mode max speed…)
Doesn't seem to do anything massively better, really. It's nickel metal hydride like the old one, although tweaked and optimized a bit. I guess it's cheap?
Toyota seems to prefer the NiMH batteries as they've got a long history with them and a mature (and highly regarded) system. I think it might also avoid patents and other entanglements with Li-ion.
Edit: This article said that the new nickel is 1000Wh/L meanwhile Li-ion on cheaper model is 740Wh/L. It seems that now nickel overcomes Li-ion for Wh per volume. (other Li-ions also seems to <= 800Wh/L)
https://car.watch.impress.co.jp/docs/news/1338990.html
https://www.eenewspower.com/news/nanograf-hits-800whl-milest...
Both types of batteries have pros and cons - this YT channel of a Toyota mechanic provides pretty clear explanation of the differences https://www.youtube.com/watch?v=AS3Lg3qJcnc
Pretty much one, and only remarkable trait is that they work well at < 0C°
Aqua is the name for used in Japan, called Prius C on other market.
This is just HEV.
This release argues that there are significant improvements by using bipolar battery. That's why I post here.
> Compared to the previous-generation nickel-hydrogen battery, the all-new bipolar nickel-hydrogen battery delivers 1.5-times greater output per cell, and packs 1.4-times more cells in the same-sized space; together, this leads to a total output increase of approximately two-fold.
What other kind of battery is there?
I wonder why Toyota decided to give them different names (which all sound equally global) in different regions, seems really confusing. As far as I know Toyota, all other cars Toyota sells have the same name worldwide.
Or simply people liked Prius more.
Because Toyota.
The HN demographics love Toyota as much as they love Tesla, arguably more (Tesla is more polarizing, at least some people actively dislike them).
> 35.8 km/L refers to the fuel efficiency of the all-new Aqua B grade, under the WLTC test cycle, according to tests conducted by the Ministry of Land, Infrastructure, Transport and Tourism
https://en.wikipedia.org/wiki/Worldwide_Harmonised_Light_Veh...
What's not practical with other BEV (Tesla, Hyundai Kona, ID.3, XPeng…) and that Toyota cannot improve (e.g by building a large network of charging stations)?
There's something weird about Ford making a mass-market electric F-150 before Toyota has a mass-market car. I know they're betting on hydrogen, but so many other companies are so far ahead with electric cars that it's a little worrying. The irony is this is the company that's most associated with hybrids.
Internally you will often hear terms like "golf-cart" and "toy" to describe them. They threaten the careers of whole departments and large established supply chains. This fear/anger often manifests as subtle internal sabotage to pure electric projects.
Mass production never looks sustainable when framed in isolation, but in comparison to the alternative of fracking in tar sands and leaking methane by the galleon those mines aren't so bad.
Your video also misses the point. Firstly, the mix of where that power comes from will depend on where you live. In places where the grid is dirty, of course it's going to be dirty. In other places there are ample amounts of renewables available at many times to be used. There's also the fact that changing the mix of the source of the power is much much easier than getting people to change vehicles. If solar becomes massively widespread on the grid, everyone with an EV immediately benefits from it. If a new ICE is produced then it's not until the old ones are out of circulation that the gains can happen
This would be true only if hydrogen extraction, transport, storage, and use had no downsides or costs. Instead of playing childish "gotcha" games, why don't you actually articulate a cohesive point about why hydrogen is the best route forward.
That wasn’t me. I actually think that a hybrid solution is the best way to go, with most passenger vehicles going BEV, and heavy transport (trucking, freight, shipping) going FCEV. Your “once infrastructures will be there for hydrogen” is a big “if”. FCEVs are basically useless without extensive infrastructure for your average person. A BEV can be charged in your garage and would be perfectly usable as a commuter car with zero electric vehicle infrastructure.
Maybe “in 50 years” is not really useful for what we need to do now. I can go out today and buy a new BEV to replace my current car and other than the occasional road trip, get 100% of the same functionality. At my house, I am 10 feet away from the nearest fueling station. If I could even find an FCEV to buy, I would be over a thousand miles from the nearest fueling station. Charging stations, fast chargers, super chargers, etc. just augment and add to what every home has for a BEV. An FCEV needs gas stations like an ICE car, and there is a reason that gas stations are never more than a mile away.
For commercial purposes, it is logistically feasible to put in filling stations at specific end points, hubs, or defined distances along a route and make it work. Maybe that builds up infrastructure so that in 50 years, it could be a legitimate alternative to BEVs for average people.
For example, this vehicle will be part of Toyota's Welcab line that offers factory-installed conversions that makes driving accessible to people in wheelchairs. Including a device that will lift your wheelchair up and store it on top of the car while in motion (https://commons.wikimedia.org/wiki/File:The_rearview_of_Toyo...).
Tesla by comparison leaves this up to aftermarket accessory designers to figure out.
They are truly thinking about the "how does everyone drive an electric vehicle" problem.
In local prices, 10,000€ gets you about 7000 liters of gasoline, with 5 liters per 100 km you get 140,000 kilometers. The car would on average probably be ten years old at that point.
Many Priuses do tend to be driven a lot and for a long time, with a quick search I can see a local one that has gone over half a million kilometers. So there is certainly potential for long term financially positive electric cars.
-At 50k miles; EVs $600, Plug-in $1,050, ICE $1,400.
-100k miles; EVs $2,000, Plug-ins $2,600, ICE $4,400.
-200k miles; EVs $6,300, Plug-ins $5,900, ICE $12,300.
EVs use about 30kWh to go 100 miles [2][3] and at the US national average for electricity [4], that would be about $6,250 to drive 200k miles. ICE vehicles vary but 35 mpg combined is pretty average [5] for compact cars. At the US national average for gasoline [6], that is $18,070 to drive 200k miles. Plug-in hybrids use about 29kWh to go 100 miles and about 48 mpg [7]. Just assuming 50/50 driving on gas or electric, that’s about $9,610 to drive 200k miles.
So maintenance and fuel cost over 200k miles would be roughly:
-EVs $12,552
-Plug-in Hybrids $15,510
-ICE $30,370
So maintenance and fuel cost over 100k miles would be roughly:
-EVs $5,125
-Plug-in Hybrids $7,405
-ICE $13,435
[1]https://www.iseecars.com/how-long-people-keep-cars-study
[2] https://www.fhwa.dot.gov/ohim/onh00/bar8.htm
"the speed range at which the all-new Aqua can operate on electrical power alone has been expanded"
That seems to me like they are putting lipstick on a pig. Tesla is showing how fast a pure electric car can be, and an all-EV drivetrain, even a cheap one, should provide a VERY zippy experience to all daily driving scenarios.
The fact they aren't bragging about an impressive all-electric range (which IMO should be a 50 mile minimum range enforced by governments to get any PHEV class incentives) or any density comparisons with even LFP or other battery chemistries seems to indicate this is basically a design that was barely improved and sent out to mint profits for another cycle.
Problem is, BEVs are going to destroy this car in performance, will outclass it in environmental virtue signaling, and shows no real technological progress towards a BEV drivetrain.
Between this and its obsession with hydrogen ... Plus the tokyo olympics (one year late themselves) were supposed to be the debut of a near-production solid state battery.
That is vaporware so far, and combined with the Quantumscape short seller report, solid state looks pretty far away.
Toyota and most manufacturers besides GM and VW are clearly praying... uh... planning for the solid state battery to be a reality and close the gap with Tesla. Meanwhile Tesla keeps inching forward with gradual improvements and scale.
A $10000 100 mile lfp bev is probably doable with current tech and regulations. Tesla won't stoop to that, but others will
I mean, it is SOMETHING, so that does mean there is some BEV group somewhere in Toyota, but it just seems Toyota is asleep at the switch and going to lose their dominant market position. This Prius does little to allay fears by shareholders.
https://www.piston.my/wp-content/uploads/2021/07/Toyota-Bipo...