Will Electric Vehicles Be Viable? When?

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djos
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Re: Will Electric Vehicles Be Viable? When?

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strad wrote:
06 Jun 2020, 00:45
@Big Tea.. I'm still a little confused -4°C= 24.8°F right? Nobody said anything about deep snow just temp.
Many people drive 2wd cars in 25° weather...Quite frankly, snow or no snow.
I will admit that every winter I am amazed by the declining talent behind the wheel though. :wink:
Our heat pump freezes over at around +4C - I spent a week in Chicago back in January and it was around those temps for most of that week. It didn’t stop anyone from getting out on the roads.

Even the day I got there, which was -7C and lightly snowing, the roads had plenty of traffic.

IRC in the USA it’s common for heat pumps to have “emergency heat” installed which is an electric heating element installed on the heat exchanger.

I wonder if Tesla will have something similar to deal with freezing conditions?
"In downforce we trust"

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Big Tea
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Re: Will Electric Vehicles Be Viable? When?

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strad wrote:
06 Jun 2020, 00:45
@Big Tea.. I'm still a little confused -4°C= 24.8°F right? Nobody said anything about deep snow just temp.
Many people drive 2wd cars in 25° weather...Quite frankly, snow or no snow.
I will admit that every winter I am amazed by the declining talent behind the wheel though. :wink:
Ok, I am obviously spouting cr*p here. :oops: Based on living in UK, our heat pump has never ever frosted over enough notice fall off in performance or trigger any warning, so my baseline was far too high, we get headline panic and millions of deaths (according to said headline) if it gets to minus 10. My thinking was drawing from the battery produces 'some' heat so it would not be a huge deal. I am obviously leading a sheltered life :D .

I bow not only to your knowledge, but to my lack of it. Always happy to learn even (especially) if its learning I am wrong.

Anyway, move south guys it s far nicer :twisted:
When arguing with a fool, be sure the other person is not doing the same thing.

Ferry
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Re: Will Electric Vehicles Be Viable? When?

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djos wrote:
04 Jun 2020, 13:15
Heat pumps are great till the temps drop down to almost zero degrees centigrade, then you need to add an electric Heating element to defrost the system
Here are a lot of technical information about the BMW i3, if any of you are "nerdy" enough to have interest for it:
https://www.newtis.info/tisv2/a/en/i01- ... r-manuals/

There is a coolant circuit in the inverter, motor and battery. The cabin can be heated from the motor, inverter and battery to a certain degree. There is a (optional) heat pump, and a electrical heater of 4-5 kW. In addition there is a electrical heater loop under the battery cells, so the battery can be pre-heated to +10C when the car is grid connected.
The heat pump system works pretty decent, but I don't have actual numbers to back that up. I seldom se temperatures below -15C. Worst case range in the winter is 160-180 km, best case in the summer is 250 km. So it's not THAT bad, really. The reduction percentage wise, I mean. NOT claiming 160 km is great range. That's the 94 Ah/ 33 kWh battery version, or second generation.
The coldest I've seen is -24C, and the car worked just fine. No problems but range, obviously. I've also driven in -15C with the heating turned off to stretch the range. It's doable with good clothing, but not very comfortable. Still better than a snowmobile, and people use them too.

I've also got a heat pump in mye house. Worst case temperatures from -15C to +33C. In the winter it sometimes do this reverse cycle thing. I can hear it from the sound it makes. No problem with icing on the outdoor unit. The climate here is rather dry, and not extremely cold. -12C to -15C at the worst.

Btw. electricity is very cheap this summer, due to a lot of snow in the mountains. Today it was as low as 0,024 NOK/kWh, approx. That's about 0,24 Euro cent/kWh. The battery of my i3 can store 30 kWh * 0,24 cent/kWh = 7,2 Euro cent. 250 km/7,2 cent is pretty good :) For the same amount of gasoline I can travel about 700 meters.
To be fair, this is not the whole truth. 0,24 cent/kWh is just for the energy. In addition I must pay 4,5 cent/kWh for the usage of the grid. So about 5 cent/kWh including taxes and VAT. Still very cheap, though.

pierrre
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Re: Will Electric Vehicles Be Viable? When?

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samsung's silver carbon composite anode solid state battery looks promising with claims nearly double lithium-ion

Brake Horse Power
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Re: Will Electric Vehicles Be Viable? When?

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Ferry wrote:
07 Jun 2020, 00:10
djos wrote:
04 Jun 2020, 13:15
Heat pumps are great till the temps drop down to almost zero degrees centigrade, then you need to add an electric Heating element to defrost the system
Here are a lot of technical information about the BMW i3, if any of you are "nerdy" enough to have interest for it:
https://www.newtis.info/tisv2/a/en/i01- ... r-manuals/

There is a coolant circuit in the inverter, motor and battery. The cabin can be heated from the motor, inverter and battery to a certain degree. There is a (optional) heat pump, and a electrical heater of 4-5 kW. In addition there is a electrical heater loop under the battery cells, so the battery can be pre-heated to +10C when the car is grid connected.
The heat pump system works pretty decent, but I don't have actual numbers to back that up. I seldom se temperatures below -15C. Worst case range in the winter is 160-180 km, best case in the summer is 250 km. So it's not THAT bad, really. The reduction percentage wise, I mean. NOT claiming 160 km is great range. That's the 94 Ah/ 33 kWh battery version, or second generation.
The coldest I've seen is -24C, and the car worked just fine. No problems but range, obviously. I've also driven in -15C with the heating turned off to stretch the range. It's doable with good clothing, but not very comfortable. Still better than a snowmobile, and people use them too.

I've also got a heat pump in mye house. Worst case temperatures from -15C to +33C. In the winter it sometimes do this reverse cycle thing. I can hear it from the sound it makes. No problem with icing on the outdoor unit. The climate here is rather dry, and not extremely cold. -12C to -15C at the worst.

Btw. electricity is very cheap this summer, due to a lot of snow in the mountains. Today it was as low as 0,024 NOK/kWh, approx. That's about 0,24 Euro cent/kWh. The battery of my i3 can store 30 kWh * 0,24 cent/kWh = 7,2 Euro cent. 250 km/7,2 cent is pretty good :) For the same amount of gasoline I can travel about 700 meters.
To be fair, this is not the whole truth. 0,24 cent/kWh is just for the energy. In addition I must pay 4,5 cent/kWh for the usage of the grid. So about 5 cent/kWh including taxes and VAT. Still very cheap, though.
Those are good prices... And sustainable electricity!

ncx
ncx
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Re: Will Electric Vehicles Be Viable? When?

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Came across the announcement of a couple of webinars that might be of interest to visitors of this forum:

17/6/2020
Intricacies of high-energy cathodes for lithium-ion batteries

https://physicsworld.com/a/intricacies- ... batteries/

24/6/2020
Electrochemical CO2 reduction: finding a path towards a carbon-neutral chemical industry

https://physicsworld.com/a/electrochemi ... -industry/

Greg Locock
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Re: Will Electric Vehicles Be Viable? When?

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30 kWh * 0,24 cent/kWh

The cheapest i've seen electricity in oz in one state is around -8 c /kWh

I suppose if you only charge your car up once a year such a figure might be meaningful, but to real people the average overnight price is far more important.

Brake Horse Power
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Re: Will Electric Vehicles Be Viable? When?

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Trevor Milton, chief of Nikola:

BEV vs FCEV. What people don't understand is they don't compete. They complement each other.

I get into the details here about the advantages and disadvantages of each. FCEV is much better for 300+ miles applications and BEV is usually better under 300 miles.

BEV is more efficient, but it also takes expensive grid energy to charge your BEV truck Why? I detail that out as in this article.

FCEV takes more energy but you can get cheaper energy for it on freeways. You do that through PPA (Power Purchase Agreements) on main federal transmission lines. This is where FCEV can become cheaper to operate.

So why are BEV energy prices higher? It's simple, BEV trucks stay within the city limits and require utility energy to charge. FCEV run on freeways bypassing utilities where Nikola provides 20-year PPA's for h2 production so the rate is always fixed.

What is the cost to charge BEV vs. FCEV?

Remember, every city is different but any reduction in energy is applied to both applications so it doesn't really matter what the city rates are.

One BEV truck stores 1.1 MWh (1,100 kWh). You pay on average $.26 per kWh in California for that energy plus demand charges, so over $.30 per kWh (Why can't it be cheaper? I outline that is this as well. Keep reading). It takes about $330 * 90% SOC = $297 to charge a BEV semi-truck in most parts of CA compared to $250 for Nikola provided green hydrogen. (500 miles /8 miles per kg=62 kg x $4.00) We are now approaching $2.50 per kg of hydrogen so we believe the near future price of h2 will be $155 to go 500 miles.

Why can't you just add batteries to buffer BEV charging to compete with h2? You would need the same kWh for grid buffering as you do with vehicles coming in. This means for every BEV truck sold, in order to get low energy costs, you would need the same size in battery storage to take cheap energy off the grid over a 24 hour period. So how many batteries are needed on the truck and how many batteries are needed for grid storage to compete with fuel cell?

500-mile BEV Truck: 1,100 kWh since 90% useable= 1MWh or 61,000 five amp hour cells that cost Tesla about $1.75 per cell plus $.25 per cell in battery housing costs and bms. $122,000 per truck in batteries. If you add batteries to buffer grid, now you're another $120,000 per truck. $240,000 total. With only 2k-3k cycle life. I'm being generous

Turn a truck 2x a day which is what most fleets will want to do to prevent an asset sitting idle, you would get less than 3-year life on $244,000 batteries on BEV and you lost 25-30% SOC. You're BEV is now a 350-mile after just 3 years.

You can run hydrogen 24/7 and it only takes 15 minutes to top off and continue on the road. Hydrogen tanks last 20 years. Fuel cell has minimal rebuild costs after 20,000 hours ($5,000-$10,000 compared to $240,000 BEV battery replacements). We have a cost per mile of FCEV lower than BEV.

Here is the controversial part and the question we get from most critics; why do you get cheap energy for FCEV and not BEV?

Most BEV's operate within city limits. Due to weight (Reduced payload) and charge time (There is no parking as it is, so this creates a nightmare for drivers), it just doesn't make sense to operate on long haul freeways even if you have a 500 mile BEV truck.

Utilities make a killing charging crazy rates and have complete control over energy costs if you are within their network. It can take years to strike a single contract for reduced utility rates, hence why BEV's will be more expensive to run than most h2. A good example is the Tesla superchargers. They charge about $.26 per kWh. If they could get it to $.07, I believe they would. Why? They would sell the hell out of more cars making it cheaper to own than ICE. They have no reason to charge $.26 per kWh other than they can't get it cheaper. Utilities own the rates and don't care what Tesla or anyone else thinks or wants. You can't go up against the utilities, most are government entities and it takes years to force them to do anything. Now imagine fighting hundreds of utilities at once for a couple BEV energy contracts.

Another issue few talk about, but should be talked about is the grid capacity.

BEV Charging: If you have a small depot of say 100 trucks, each truck taking 1 megawatt hour of energy, you would need to pull 200 megawatts to charge in a one hour time period. You could split that up over a few hours and drop it to say 50 megawatts over 4 hours. There are few grids in the world built to give up 50 - 200 megawatts of energy without notice. It would require major modification and new power plants that takes years. That is only for 100 trucks, now imagine selling tens of thousands in a city, you start to see why the rates are so high.

H2 Production: Most hydrogen that Nikola makes is on the freeway. This is near the main federal transmission lines where the voltage is incredibly high allowing for continuous output. It requires minimal additional equipment to pull hundreds of megawatts out so long as you have a source of the energy somewhere in the network putting it in (Solar, Wind, Hydro, Nuclear).

How is h2 more cost competitive than BEV? Isn’t it less efficient? Isn’t it a fool cell like Elon says?

Nikola uses energy transmitted on the federal transmission lines before we enter the utility. We buy this clean energy directly from Wind, Solar and Hydro facilities directly. This allows us to get sub $.04 per kWh 20-year agreements on the freeways. Anyone can do this, including our competition, but not every truck can use it. You have to operate long distances to use the cheap energy. You have to pull an exact amount of energy out ever hour and it has to be stable, something hydrogen production is perfect at and BEV is terrible at. You need to be able to drive 500-750 miles without stopping to ensure you don't enter the utility grid or pay their fees. This is where hydrogen makes sense.

Can you broker energy into a city? Can you use solar panels to reduce your cost? Why can't BEV within a city limit be cheaper than what is stated?

Most utilities do allow solar to go up on facilities. You have to have space for it. With solar on site unless you use it when the solar is producing, you get very little credit for it. This means your BEV trucks would have to be down all day to absorb energy to offset your price. That is not how trucking works, most deliveries happen during the day. Ok, so why can't you do long term PPA inner city? It is possible, but the utilities usually require an agreement of when, how much, how fast, how long, what price for all energy in and out. They then charge you on top of that. So you may not be $.26 per kWh, but close.

As for being a fool cell? Well, I suppose you should be powering rockets with batteries if you believe that. No one size ever fits every application and in this situation, FCEV is cheaper than BEV for long haul trucking.

So why can’t BEV work on freeways? This is the next question we always get.

Weight, charge time and Battery Degradation are the main reasons why.

Weight: BEV's can weigh 10,000 lbs. more than FCEV. In the trucking world, every pound is worth revenue, so you "could" lose thousands of dollars per load by going BEV instead of FCEV on freeways. At this point, even if the energy was free, you would still lose money going BEV due to weight. Payload is king in long haul trucking and that is where H2 shines.

Battery Degradation: The faster you charge your batteries, the quicker the batteries degrade. If you don't charge them fast, you would have a massive backlog of trucks waiting to charge. You need to turn trucks at truck stops within 15 minutes so others can get into line to charge. Battery degradation alone can cut your BEV truck range down each time you charge which is a non-starter in the trucking world. The best EV batteries in the market are 1,000 cycles at 80% SOC. Newer ones are suppose to get 2,000 cycles at 75%. If you turn a truck 2x a day that would give you less than 3 years on a battery before you lost 25% of your range and your pack would need to be replaced.

Using Tesla’s car numbers right now, every 400k-600k you would have to replace the pack. That costs $120,000 for the truck pack and $120,000 grid storage battery. This means you would take a ¼ million dollar hit every 400K-600K miles owning the BEV vs H2. Even with a million-mile battery, the economics of BEV still don’t compete with FCEV. Suddenly, people can see why @nikolamotor is the leader - we offer FCEV where it makes sense and BEV where it makes sense. Both have their place and always will. Hydrogen won't replace BEV trucks and BEV trucks won't replace hydrogen - however they both will replace diesel trucks.

It is not FCEV vs BEV, its FCEV & BEV. Now let's stop hating each other and focus on getting rid of diesel trucks by offering a kick ass solution to drivers so they happily accept the change.

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strad
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Re: Will Electric Vehicles Be Viable? When?

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B.H.P. .. I vote you get a raise for that dissertation/sales pitch. :wink:
To achieve anything, you must be prepared to dabble on the boundary of disaster.”
Sir Stirling Moss

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djos
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Re: Will Electric Vehicles Be Viable? When?

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Brake Horse Power wrote:
24 Jun 2020, 20:33
It is not FCEV vs BEV, its FCEV & BEV. Now let's stop hating each other and focus on getting rid of diesel trucks by offering a kick ass solution to drivers so they happily accept the change.
Great speech but the realities of Hydrogen just dont stack up for most vehicle types, short-range trucks included - I can see it is the better option for Heavy Interstate trucks and maybe freight trains due to the easy and fast refueling, but that's about it.

For those who haven't seen it, this Real Engineering video explains the massively inefficient Hydrogen fuel ecosystem/life cycle.



This screengrab shows the losses from both ecosystems and it isn't pretty for FCV's - and let us not forget, inefficiency = higher costs to the end user:

Image
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Greg Locock
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That's a very interesting bar chart, many BEV enthusiasts would be surprised to see a 70% efficiency for power station to motor.

If you then add any gearing between motor and wheel then there are further losses, and can be surprisingly large.

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djos
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Re: Will Electric Vehicles Be Viable? When?

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Greg Locock wrote:
25 Jun 2020, 02:38
That's a very interesting bar chart, many BEV enthusiasts would be surprised to see a 70% efficiency for power station to motor.

If you then add any gearing between motor and wheel then there are further losses, and can be surprisingly large.
It's still a heck of a lot better than pure ICE efficiency - IIRC the average ICE efficiency is under 30%, not including the end to end fuel cycle.
"In downforce we trust"

Greg Locock
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Ah, standard technique when presented with an unpalatable fact. Divert to irrelevant red herring. You are not comparing like with like.

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djos
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Greg Locock wrote:
25 Jun 2020, 02:49
Ah, standard technique when presented with an unpalatable fact. Divert to irrelevant red herring. You are not comparing like with like.
I'm not following you, I only put up ICE efficiency as a reference point.
"In downforce we trust"

Greg Locock
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You are not comparing like with like

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