EV1 vs Volt: Electric Car Range

In summary: Volt has a better cooling system.In summary, the EV1 was produced in 1996 and could get up to 150 miles on a single charge, while the Volt was produced in 2010 and could get up to 40 miles on a single charge. The Volt is a hybrid, while the EV1 is a pure electric car. The Volt has a smaller battery pack that doesn't use the full range, which is supposed to help with battery longevity. The combined range of the Volt is 4-500 miles, and it can refuel and be ready to go again in 5 minutes at the gas pump, while the old EV1 could only go 120 miles on a single charge. The energy-density is high, but an
  • #1
junglebeast
515
2
The EV1 was produced in 1996 and could get up to 150 miles on a single charge,

"The NiMH batteries, rated at 77 amp-hours (26.4 kWh) at 343 volts, gave the cars a range of 75 to 150 miles (120 to 240 km) per charge, more than twice what the original Gen I cars could muster."

http://en.wikipedia.org/wiki/General_Motors_EV1

The Volt was produced in 2010 and could get up to 40 miles on a single charge,

http://en.wikipedia.org/wiki/Chevrolet_Volt

What's the deal with this? Why the huge step backward?
 
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  • #2
The EV1 is a pure electric car. The Volt is a hybrid. Hybrids are not meant to run exclusively on electric power at all times.
 
  • #3
Also the Volt seats 5 while the EV1 seated 2.
 
  • #4
Both answers are correct.

EV-1 had a big battery pack. Volt's pack is smaller (16 kwh) and it does not use the full range, which is supposed to help with battery longevity. When Volts finally roll out, I expect it would be a fairly simple matter to "hack" its software and raise the electric range from 40 to 60-70 miles.

EV-1 was highly optimized and streamlined. It had the lowest coefficient of drag of all production cars ever (0.19), it was relatively small and light. The Volt is designed to be practical. We don't have all the final numbers, but we know that it's 10% taller than EV-1, and the coefficient of drag will be higher.
 
  • #5
Of course the funny unsaid point is that without chainging underlying energy infrastructure, an electric car is a switch from gasoline to (mostly) coal. *sigh*
 
  • #6
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  • #7
joelupchurch said:
IBM is working on a project to create a car battery with a 500 mile range using Lithium-Air technology. I figure once we have a battery technology that can store 1 KWh/Kg, then it is a whole new ball game for electric cars.

http://www.ibm.com/ibm/ideasfromibm/us/electriccars/20090928/index.shtml"

And, since 1 kwh/kg = 3.6 MJ/kg is approximately the energy density of TNT, the military may be interested in that technology as well.
 
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  • #8
Frame Dragger said:
Of course the funny unsaid point is that without chainging underlying energy infrastructure, an electric car is a switch from gasoline to (mostly) coal. *sigh*
Not mostly. The US electric system is less than half coal powered. In smog prone areas like California, there is very little coal power and there an EV replacement of the gasoline fleet would be huge emissions advantage. EV pollution benefits are at least substantial everywhere, and huge in urban areas. The sole exception is that EV's might bring on increased SOx emissions from running coal plants harder. Finally, given EV's we then at least have the option of improving/eliminating emissions by eventually replacing harmful emissions power plants.
 
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  • #9
joelupchurch said:
IBM is working on a project to create a car battery with a 500 mile range using Lithium-Air technology. I figure once we have a battery technology that can store 1 KWh/Kg, then it is a whole new ball game for electric cars.

http://www.ibm.com/ibm/ideasfromibm/us/electriccars/20090928/index.shtml"

hamster143 said:
And, since 1 kwh/kg = 3.6 MJ/kg is approximately the energy density of TNT, the military may be interested in that technology as well.
The energy-density is high, but an inherent problem with http://en.wikipedia.org/wiki/Zinc_air" [Broken] battery technology brought on by the required diffusion of air into the battery is the specific power which is at least 3-4x less than current lithium ion batteries. Note that TNT for instance doesn't have any problem with power density.
 
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  • #10
junglebeast said:
The EV1 was produced in 1996 and could get up to 150 miles on a single charge,

"The NiMH batteries, rated at 77 amp-hours (26.4 kWh) at 343 volts, gave the cars a range of 75 to 150 miles (120 to 240 km) per charge, more than twice what the original Gen I cars could muster."

http://en.wikipedia.org/wiki/General_Motors_EV1

The Volt was produced in 2010 and could get up to 40 miles on a single charge,

http://en.wikipedia.org/wiki/Chevrolet_Volt

What's the deal with this? Why the huge step backward?
The combined range of the Volt is 4-500 miles, and it can refuel and be ready to go again in 5 minutes at the gas pump, versus the 12 or more hours required for the old EV1. And I doubt the 25kWh EV1 could do any more than 120 miles at highway speeds on its best day.

Other advantages:
o The 25kWh of NiMH batteries weighs 2-3X that of equivalent Li Ion, so that the (estimated) 750kg EV1 battery pack would weigh 250kg with today's Li Ion.
o EV1 batteries would have lasted only 3-5 years (500 to 100 cycles). Volt battery should do 10 years.
 
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  • #11
mheslep said:
Not mostly. The US electric system is less than half coal powered. In smog prone areas like California, there is very little coal power and there an EV replacement of the gasoline fleet would be huge emissions advantage. EV pollution benefits are at least substantial everywhere, and huge in urban areas. The sole exception is that EV's might bring on increased SOx emissions from running coal plants harder. Finally, given EV's we then at least have the option of improving/eliminating emissions by eventually replacing harmful emissions power plants.

Agreed, but we have no rapid capacity to "fire up" wind-farms and doing that with hydroelectric power is purely regional. Nuclear generally runs at safe capacity, so your point that coal fired plants will definitely have to take on the load. I'm not going to be a happy bunny until we start going for genIII-IV nuclear reactors (pebble-beds and such) instead of coal, and/or commit to extracting Hydrogen using improved methods that don't require burning coal.

However... we have a LOT of coal easy to hand, and a strong coal lobby. SOx, Mecury, etc... it could get ugly. Keep in mind that firing coal is a LOT dirtier than gasoline (yes, I'm ignoring the refinement process) in terms of particulate matter AND unwanted chemical emissions.

You're right however... it gives us an option. EDIT: Oh, and how about new gen supercapacitors? Rapid charge rate, high load, no wear due to charge/discharge cycle. Yes, the materials and tech have a ways to go, but it would be a far better option than NiMH, Li-ion/air, Vanadium, etc.
 
  • #12
mheslep said:
The energy-density is high, but an inherent problem with http://en.wikipedia.org/wiki/Zinc_air" [Broken] battery technology brought on by the required diffusion of air into the battery is the specific power which is at least 3-4x less than current lithium ion batteries. Note that TNT for instance doesn't have any problem with power density.

...And they are interested. In fact, such batteries are being considered on some warships to store and use power from the onboard nuclear plant for use in weapon applications such as a rail-gun.
 
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  • #13
Frame Dragger said:
Agreed, but we have no rapid capacity to "fire up" wind-farms and doing that with hydroelectric power is purely regional.Nuclear generally runs at safe capacity, so your point that coal fired plants will definitely have to take on the load.
Natural gas plants can (and do) fire up quickly.
Frame Dragger said:
However... we have a LOT of coal easy to hand, and a strong coal lobby.
US also has ample natural gas.
Frame Dragger said:
SOx, Mecury, etc... it could get ugly. Keep in mind that firing coal is a LOT dirtier than gasoline (yes, I'm ignoring the refinement process) in terms of particulate matter AND unwanted chemical emissions.
Pick your poison, but in general - no. Yes coal puts out more SOx, a little more particulate*, mercury, and radioactivity. Between the two, gasoline puts out more NOx, nearly all the CO, organics like benzene, gasoline vapor directly into the air, and noise, assuming the car is modern and tuned. Then that comparison is valid only if one is standing right next to both a tailpipe and a coal plant stack; generally populations lie around vehicles, not coal power plants. If EVs replaces ICE, then in the areas where the vast majority of the people actually reside it is no contest across the board: gasoline is much worse. Again this assumes EVs are sourced on all coal power, and they won't be.
Frame Dragger said:
EDIT: Oh, and how about new gen supercapacitors? Rapid charge rate, high load, no wear due to charge/discharge cycle. Yes, the materials and tech have a ways to go, but it would be a far better option than NiMH, Li-ion/air, Vanadium, etc.
Only as a mix w/ chemical batteries: Double layer caps have high temperature degradation problems, low energy density.

*Edit: unless we're talking about diesel.
 
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  • #14
Frame Dragger said:
...And they are interested. In fact, such batteries are being considered on some warships to store and use power from the onboard nuclear plant for use in weapon applications such as a rail-gun.
And for catapults. Not metal air though.
 
  • #15
mheslep said:
Natural gas plants can (and do) fire up quickly.
US also has ample natural gas.
Pick your poison, but in general - no. Yes coal puts out more SOx, a little more particulate, mercury, and radioactivity. Between the two, gasoline puts out more NOx, nearly all the CO, organics like benzene, gasoline vapor directly into the air, and noise, assuming the car is modern and tuned. Then that comparison is valid only if one is standing right next to both a tailpipe and a coal plant stack; generally populations lie around vehicles, not coal power plants. If EVs replaces ICE, then in the areas where the vast majority of the people actually reside it is no contest across the board: gasoline is much worse. Again this assumes EVs are sourced on all coal power, and they won't be.
Only as a mix w/ chemical batteries: Double layer caps have high temperature degradation problems, low energy density.

The impact of cars vs. industry in terms of carbon emission is negligable. The rest of the emisssion from cars do exist, but in trace quantities compared to SOx in particular. There are also the 75% elevated cancer rates in areas with coal fired plants, something that has never been matched by saaaay, people living near freeways.

As for LNG/NG... the process of GETTING it, refining it (and use of byproducts), and finally transporting it have a fairly hefty environmental impact. We need to overhaul our power grid, build a LOT of nuclear plants, and then work our way to fusion (for the grid) and hydrogen fuel cells (for vehicles). It would probably take at least 50 years to follow that course, and yes, a complete switch to electric power in some areas would be great. Unfortunately, if everyone wanted an electric car today, and could get one, our power supply couldn't meet the demand (but as you pointed out that can change rapidly), but more importantly our power grid would fry.

Ironic... an overhaul of the power grid, massive building of NG and Nuclear fired plants, and a renewed, but measured approach to developing sustainable Dueterium/Tritium fusion and a Hydrogen economy over the next half-full century... would be an enormous expense, but it would be the TRUE "New Deal" of this century. It'll never happen.
 
  • #16
Frame Dragger said:
The impact of cars vs. industry in terms of carbon emission is negligable. The rest of the emisssion from cars do exist, but in trace quantities compared to SOx in particular. There are also the 75% elevated cancer rates in areas with coal fired plants, something that has never been matched by saaaay, people living near freeways.
Then you're not looking, as that is mostly nonsense. The non CO2 emissions from gasoline, including SOx, are not 'trace' in comparison to coal. Both coal and petroleum combustion cause tens of thousands of actuarial deaths per year. Googling:
http://www.epa.gov/OMS/retrofit/documents/420f03022.pdf
http://www.ncbi.nlm.nih.gov/pubmed/7689578
http://journals.lww.com/joem/Citati...of_Atmospheric_Contamination_on_Cancer.5.aspx

Frame Dragger said:
As for LNG/NG... the process of GETTING it, refining it (and use of byproducts), and finally transporting it have a fairly hefty environmental impact.
Still better than coal. Much better.

Frame Dragger said:
Unfortunately, if everyone wanted an electric car today, and could get one, our power supply couldn't meet the demand
Almost everyone - http://www.sciencedaily.com/releases/2006/12/061211221149.htm" on today's grid.
 
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  • #17
Let be really clear... the traces I was speaking of was NOT CO2. I'm also not arguing FOR petroleum.

Second, your 84% figure is based on one article, and one study, AND that assumes those vehicles are hybrids with 33 mile range batteries ALL being recharged at night. In a 220 million vehicle economy that is an absurd notion.

By the way, of that 84% how much would be NG/Coal, and how would that compare to Petroleum (which is still going to be used in vast quantities in military and industrial proceses)? You're looking at this in a hyper-idealized fashion, and while there might be the idle generation capacity, there is no WAY that current plants could run at full tilt 24/7.

If 84% plug in at night, do you have any idea what that would do? There is little to no storage capacity in the grid so idling capacity is UNUSED, not purely wasted... although to keep any given plant fired does take some waste on off hours.

The number of obvious holes in that study makes it about as useful as a model of a bullet that ignores gravity and friction.
 
  • #18
Frame Dragger said:
Let be really clear... the traces I was speaking of was NOT CO2.
Neither was I.

Frame Dragger said:
I'm also not arguing FOR petroleum.
I understand. You have been continuing to argue from the beginning that EVs are about the same as gasoline powered vehicles regarding harmful pollution - that switching to EVs wouldn't make much difference. That's wrong.

Frame Dragger said:
Second, your 84% figure is based on one article, and one study, AND that assumes those vehicles are hybrids with 33 mile range batteries ALL being recharged at night. In a 220 million vehicle economy that is an absurd notion.
Versus your assertion, that the grid would 'fry', which is based on no sources at all.

Here's the original PNNL report;
http://energytech.pnl.gov/publications/pdf/PHEV_Feasibility_Analysis_Part1.pdf
it has the percentage of grid information though it is mainly about emissions. If you are interested, comment directly on it. There's similar findings from the EPRI which google will reveal.
 
  • #19
mheslep said:
Neither was I.

I understand. You have been continuing to argue from the beginning that EVs are about the same as gasoline powered vehicles regarding harmful pollution - that switching to EVs wouldn't make much difference. That's wrong.

Versus your assertion, that the grid would 'fry', which is based on no sources at all.

Here's the original PNNL report;
http://energytech.pnl.gov/publications/pdf/PHEV_Feasibility_Analysis_Part1.pdf
it has the percentage of grid information though it is mainly about emissions. If you are interested, comment directly on it. There's similar findings from the EPRI which google will reveal.

You're being very selective in your counterpoints, focusing on nitpicky issues and then wanting me to google ****.

Answer this honestly: What do you know about the age of current coal, NG, and Nuclear power plants, their retrofits, and how truly dated our energy infrastructure is? Do you understand the difference between potential to generate power, and the ability to transmit and transform (locally) that power? If you want to get into a dry and technical discussion about this, I'd really love to see some indication beyond a google search that you're familiar with these issues.
 
  • #20
Frame Dragger said:
You're being very selective in your counterpoints, focusing on nitpicky issues and then wanting me to google ****.

Answer this honestly: What do you know about the age of current coal, NG, and Nuclear power plants, their retrofits, and how truly dated our energy infrastructure is?
A great deal. The startup date and seasonal operating capacity of every power plant in the US is all public information.
http://www.eia.doe.gov/cneaf/electricity/page/capacity/existingunits2005.xls

Do you understand the difference between potential to generate power, and the ability to transmit and transform (locally) that power? If you want to get into a dry and technical discussion about this, I'd really love to see some indication beyond a google search that you're familiar with these issues.
I understand the fundamentals of this issue quite well. You seem to be under the impression that through EVs on the grid will increase the peak load. No, if they're charged at night, that need not happen. The US system has more than 100GW(e) of slop in it from when it is running peak load in the day and at night. Running the same loads through the lines at night that they experience during the day will not degrade them noticeably. Finding downtime for maintenance is somewhat of an issue, but many gas peaking plants for instance are only running 20-30% capacity to accommodate.
 
  • #21
mheslep said:
A great deal. The startup date and seasonal operating capacity of every power plant in the US is all public information.
http://www.eia.doe.gov/cneaf/electricity/page/capacity/existingunits2005.xls

I understand the fundamentals of this issue quite well. You seem to be under the impression that through EVs on the grid will increase the peak load. No, if they're charged at night, that need not happen. The US system has more than 100GW(e) of slop in it from when it is running peak load in the day and at night. Running the same loads through the lines at night that they experience during the day will not degrade them noticeably. Finding downtime for maintenance is somewhat of an issue, but many gas peaking plants for instance are only running 20-30% capacity to accommodate.

And now... trying to achieve 60% capacity we've an explosion in CT. What a shock.

Edit: http://www.topix.com/forum/city/beckley-wv/TGMOHBVTIP1ELIGIL
 
  • #22
Frame Dragger said:
And now... trying to achieve 60% capacity we've an explosion in CT. What a shock.

Edit: http://www.topix.com/forum/city/beckley-wv/TGMOHBVTIP1ELIGIL
A tragedy, looks like several people may have been killed. The plant had 60% efficiency, not capacity, two completely different things. The plant was new, not yet in active service.
 
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  • #23
mheslep said:
A tragedy, looks like several people may have been killed. The plant had 60% efficiency, not capacity, two completely different things. The plant was new, not yet in active service.

A tragedy indeed, and you're right about efficiency vs. capacity. Of course, it's the efficiency that I'm concerned about, and that overheats turbines and requires the pressures that can lead to such a devestating rupture/explosion. Then again, they were purging a line, so it may be that this is unrelated to any point of the plant's operational capacity. I wonder though...

We're going to need a lot of new plants with high efficiency if NG is the way to go. Nuclear may be ugly if done improperly, but it's a LOT safer unless you're Russia. Mining Uranium is also far less detrimental than extracting a similar amount of energy density in fuel to fire a gas plant.

Coal we agree on; dirty and dangerous.

EDIT: At least 5 killed, but the untold tragedy will be the people with concussive injuries at a distance. They may never know why neurological issues appear in a decade or so.
 
  • #24
Frame Dragger said:
Coal we agree on; dirty and dangerous.

EDIT: At least 5 killed, but the untold tragedy will be the people with concussive injuries at a distance. They may never know why neurological issues appear in a decade or so.

I'd like to know more about that if you love to shed some light on the neurological issues-past and present
 
  • #25
Dolphiney said:
I'd like to know more about that if you love to shed some light on the neurological issues-past and present

I'd be happy to discuss the newest thinking on concussive injuries; a good friend of mine does some work for the US Army and this is his particular speciality alongside psychopharm. That said, I'm sure that such which be outside of the 'range' of this thread. I'll give a couple of links, and be brief, otherwise a new thread or PM would be best.

It would seem that concussive injuries from shockwaves (in air, from explosives) have an effect on basic neurological functions. The issue with the research is that most of the candidates for study have been exposed to multiple psychological traumas, so figuring out which are strictly a result of blast injuries is difficult.

The basics however are simple. A blast wave literally shakes your brain as it does the rest of you, and the brain is ill-equipped to handle impact against the skull from a blast of many hundreds (or in the case of a wartime HE, thousands) of fps. There is a mechanical injury of the brain impacting the skull, but also a poorly understood mechanism by which neurons in effected areas die, and surrounding neurons undergo apoptosis (they die by their own 'hand).

There seems to be damage to some of the cappilaries which supply blood for a time, which doubtless doesn't help. Finally, there is a mechanism by which people in the vicinity (a hundreds of yards for a few hundred lbs of High Explosive, not sure for this blast as no data is out that is reliable yet) seem prone to developing symtoms you'd expect from someone who'd undergone several ('bad', but not 'major') concussions. The people who felt their windows rattle 20 miles away are fine of course, but people who may have narrowly escaped external injury, and even hearing loss could be devestated by that initial blast. Why the delay in appearance of symptoms in some cases? Well, I have my opinions, and others their, but I'm ashamed to say that few credible studies have been done with modern techniques.

Sports industries don't want to inform people of the real risk of boxing, or football. The military doesn't want 30% of its deployed force to realize that even if they come home intact, they may not have the mind they left with. So... people talked of shell-shock, drug abuse, psychological issues...

But not, in our modern army, the cases are too numerous. In the conflicts in Afghanistan and Iraq, the widespread use of IEDs has tragically provided us all with many many many examples that can't be ignored.

The influx of air after seems to do some fairly nasty damage as well. :/

If you want to know more, some general research into Traumatic Brain Injury (TBI) should do it for you, including the various symptoms which are well documented. If you want it technical and sometimes hypothetical I'll do a little looking through my JAMA archives, and see if I can get in touch with my friend. He's at Fort Drum now, but he's a civilian employee, so he is usually easy to reach.
 
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  • #26
Thank you
Yes , I do need to know more
 
  • #27
Hey guys - maybe move posts (24,25,26) to another thread (copy, delete and paste)?
 
  • #28
mheslep said:
Hey guys - maybe move posts (24,25,26) to another thread (copy, delete and paste)?

Why?
 
  • #29
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  • #30
its too bad they can't make a cheap (<$5k) electric car with a range of about 60 miles-

--I can see a lot of people buying a second or a third car just for local driving as most people's trips are only about 25-30 miles in cars.
 
  • #31
rewebster said:
its too bad they can't make a cheap (<$5k) electric car with a range of about 60 miles-

--I can see a lot of people buying a second or a third car just for local driving as most people's trips are only about 25-30 miles in cars.
India's gasoline Tata Nano is $2500
http://jalopnik.com/343003/the-2500-tata-nano-unveiled-in-india
I expect they could get together with some of the neighborhood EV people and do it for $5k ($3k batteries=60 miles)
 
  • #32
mheslep said:
The topic of this thread is Electric Car Range. Those post are discussing TBI, etc. I wander off myself all the time, never the less the rules are

https://www.physicsforums.com/showthread.php?t=5374"

The safety and feasability of producing energy to power electric cars is essential to reasonable discussion of their range. One of the newest high yield plants 'blowing up' seems relevant given that the discussion has ranged (rimshot) to the means of producing power to charge batteries.

I agree that a page or two dedicated to the issue of the plant explosion would be too much, but we're talking about 3 posts. Then also, this thread had been dead for 8 days without your input, so why bring it back to life, JUST to complain about a forum technicality?

This thread will probably be locked now, instead of just dying naturally. So sad. :cry:
 
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  • #33
Frame Dragger said:
The safety and feasability of producing energy to power electric cars is essential to reasonable discussion of their range. One of the newest high yield plants 'blowing up' seems relevant given that the discussion has ranged (rimshot) to the means of producing power to charge batteries.
Ok, sure.

I agree that a page or two dedicated to the issue of the plant explosion would be too much, but we're talking about 3 posts. Then also, this thread had been dead for 8 days without your input, so why bring it back to life, JUST to complain about a forum technicality?
Because I hoped to improve things for future threads FD, and give this thread a chance of continuing a pace.
 

1. What is the difference in range between the EV1 and Volt electric cars?

The EV1 has a range of approximately 70-100 miles on a single charge, while the Volt has a range of approximately 53 miles on electric power alone. However, the Volt also has a gasoline engine that can extend its range up to 420 miles.

2. Which electric car has a longer range, the EV1 or the Volt?

The EV1 has a longer range than the Volt on electric power alone, but the Volt has a longer overall range due to its gasoline engine.

3. How do the EV1 and Volt compare in terms of charging time?

The EV1 takes approximately 6 hours to fully charge, while the Volt takes approximately 10 hours to fully charge. However, both cars can be charged faster using a level 3 DC fast charger.

4. Can the EV1 and Volt be charged at home?

Yes, both the EV1 and Volt can be charged at home using a standard 120-volt outlet. However, using a level 2 charger (240-volt outlet) will significantly reduce charging time.

5. Are there any differences in the driving experience between the EV1 and Volt?

Both cars offer a smooth and quiet driving experience, but the Volt has a more powerful acceleration due to its larger battery and gasoline engine. The EV1 also has a regenerative braking system, which can help extend its range.

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