Open Access Article Originally Published: September 21, 2005
Reprinted from the October/November 2005 issue of Mother Earth News, which
features several articles on hybrids and green cars.
I am riding in a customized 2005 Toyota Prius traveling just under 35 mph, and the central display console shows we’re getting 99.9 miles per gallon. We’re actually doing much better than that, but the Prius’ mileage monitor can’t display anything more than three digits.
We are, in fact, getting better than 160 mpg as we roll along, powered only by the Prius’ electric motor and a custom battery pack wedged unobtrusively below the trunk deck. This gasoline-electric hybrid looks like any one of about 200,000 Priuses on U.S. roads, but with one historically significant difference: It is one of only a few in the world to be converted into an electric plug-in hybrid. The first was modified by The California Cars Initiative, a northern California nonprofit organization, and then came two others with better batteries by Peter Nortman and Greg Hanssen of Energy CS, a small research-and-development firm in Monrovia, Calif.
Better Batteries and Less Gasoline
Carmakers such as Ford, Honda — and especially Toyota — have gone to great lengths to reassure the public that, unlike earlier battery-only electric cars, they don’t have to plug hybrids in; the batteries recharge while you drive. But equip a hybrid with larger batteries that you can recharge from the grid overnight for pennies, and surprising things start to happen. While a standard 2004 or newer Prius averages about 50 mpg in real-world driving conditions, plug-in hybrids can deliver three times that — or more — for short distances, and at least double that mileage for longer distances.
As most Prius owners know — and the Escape Hybrid from Ford has a similar feature — you can drive the car for short distances at slow speeds on its electric motor and battery pack alone; typically a mile or so. The gasoline engine only provides power when the control computer determines the nickel metal hydride battery needs recharging, or when you accelerate briskly or beyond neighborhood driving speeds.
What Nortman and Hanssen did was replace the standard 1.3-kilowatt-hour (kWh) battery with a 9-kWh lithium-ion battery pack from Valence Technology in Austin, Texas. Some nifty computer code hacking to the battery management system and a larger onboard charger enables these modified Priuses to run more efficiently — up to 60 miles almost exclusively on electric power, driving at lower speeds. After that, the car reverts back and operates like a standard Prius. But unlike the factory model, the Energy CS conversions can be plugged into a household 110-volt, 60-cycle outlet, which recharges the larger battery pack from the local power grid.
Coal Considerations
The concept of electric plug-in hybrids has been around for about a decade. Andy Frank and his students at the University of California at Davis have built a number of prototypes based on sedans and sport utility vehicles. Electric companies are attracted to the idea because it would enable them to sell more of their surplus overnight power. Carmakers, which have started to shift their position on this issue lately, historically have tended to denigrate both electric cars and the plug-in hybrid concept as contributing to global warming. They point out that most utilities currently generate electricity from coal, and because gasoline burns cleaner than coal, the argument is that a shift to electric cars would generate more air pollution, not lessen it.
But it turns out that this argument is not correct. Plug-in hybrids actually will contribute less climate-altering carbon dioxide (CO2) than gasoline. Here’s why: A conventional gas vehicle releases about 24 pounds of CO2 and travels about 24 miles on 1 gallon of gas. It would take about 6 pounds of coal, creating just 12 pounds of CO2, to produce enough electricity to travel the same distance in a plug-in hybrid. What’s more, not all our electricity comes from coal; roughly 30 percent of the grid electricity that would be used by plug-ins comes from non-CO2-producing or CO2-neutral sources, including nuclear and hydroelectric plants, biomass and renewables such as wind and solar energy. This means that plug-ins would produce only about 8 pounds of CO2, or about one-third as much as a conventional 24-mpg gasoline engine. Burning coal gives off other pollutants, including mercury, particulates and sulfur, but these either are captured, or soon will be captured, using advances in technology at newer power plants.
What’s the payoff to you? Assume your utility charges you 5 cents per kilowatt-hour (kWh) for off-peak usage between 11 p.m. and 7 a.m. Let’s also assume you drive a plug-in hybrid that operates on electric power alone for about 25 miles, requiring 6 kWh of energy to recharge its batteries. To travel 25 miles in an average car, you’ll pay more than $2 in gas, and in some areas, closer to $3. To travel the same distance in a plug-in hybrid would cost you only 30 cents, or about one-tenth of a conventional car. If you drive only 25 miles a day, your trip will cost just pennies, and your visits to the gas station will be few and far between.
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Reader Comments
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14 comments so far...
22-Sep-2005
9701
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The amount of CO2 released from a pound of coal is taken from two separate sources PLC, Inc (1.96 lbs/kwh) and Oak Ridge Nat'l Labs (2.04 lbs/kwh). http://www.seen.org/pages/db/method.shtml
One pound of coal generates -- depending on the efficiency of the plant -- approximately 1.4 kwh of electricity. So, for simplicity's sake, I assumed that 1 lb of coal generates 2 pounds of CO2. We can niggle over whether it should be 2.7-2.8 lbs of CO2 per pound of coal, but even assuming the higher number, we're talking about 17.13 pounds of CO2 for a 24 mile trip... IF the power grid were 100% coal-fired, which it isn't. Only 70% is fossil fuel-fired (coal/natural gas/oil). So that means, at the very most, we're still generating only 11.99 lbs of CO2 for a 24 mile trip. And if the EV or PHEV gets better than 250 watts/mile, which is entirely possible, this number will go down even more. At the very worst, we'll still cut CO2 emissions in half!
Posted by: Bill Moore
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22-Sep-2005
9700
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The very first Prius conversion in the US was done at Ovonic Battery Co. Spearheaded by Stan Ovshinsky and a young engineer Ivan Menjak. This young man came from one of the teams that worked there Hearts out on the Hybred Challange.
Posted by: Lin Higley
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26-Sep-2005
9810
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Concerning Bill’s 250 Wh (watt hours) per mile. Here are some real numbers for the 2004 Prius & its energy consumption. First let’s start with a set of environmental variables so that we can really compare apples to apples and then let’s look at energy used at different speeds under those environmental variables.
Temperature: 87º F
Elevation: 400’ above sea level
Humidity: 67%
Barometer: 30.03 in/hg
Load: 350 lbs (driver & gear)
Auto AC: On
Climate Control: 72 º F
Winds: 5 MPH
Wind Dir: 235 º (tail wind/crosswind – slightly detrimental)
Fuel: 114,500 BTU (avg Summer Blend)
kWh: 33.5568 (energy available per gallon/US)
RRR: .001144 Road Rolling Resistance (smooth asphalt roads)
TRR: .007 Tire Rolling Resistance
Cd: .26 Aerodynamic Coefficient of Drag
FA: 2.16 Frontal Area in meters squared
cwCd: 1.4e-5 (crosswind correction for Cd)
cwFA: 8.5e-5 (crosswind correction for FA)
MPH Wh/mile % Aero Drag
40 157.5 27.3%
45 193.6 28.6%
50 201.4 34.4%
55 213.6 39.6%
60 225.5 45.0%
65 243.4 49.4%
70 260.4 53.9%
75 278.9 58.0%
80 298.6 62.0%
As you can see, Bill is being quite fair in his 250 Wh/mile estimation above as it falls somewhere in between 65-70 MPH with the applied real-world variables including a slightly detrimental crosswind/tailwind.
Having posted here before, I know the above data will be pretty badly scrambled so I have put a more legible copy at the following URL.
http://privatenrg.com
Posted by: Wayne Brown
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26-Sep-2005
9819
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I understand that Toshiba has come out with a new battery with multiple times current charge holding ability and quickcharge ability with the battery not significantly deterioting after the 1st 1000 charges. Sounds like this may be a potential for electric autos in the future. This may jump start the plug in electric vehicles as one charge could get the same distance as a tank of gas.
Posted by: Larry Preman
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26-Sep-2005
9820
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Look at this site for potential for auto bateries
http://www.fool.com/News/mft/2005/mft05041421.htm
Posted by: La Preman
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26-Sep-2005
9821
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Bill, this is a repeat of a message above in attempt to bring some order to the data; if it doesn’t work, please feel free to delete it --- Thanks --- Wayne----------
----------------------------------------------------------------------------------------------------------
Concerning Bill’s 250 Wh (watt hours) per mile. Here are some real numbers for the 2004 Prius & its energy consumption. First let’s start with a set of environmental variables so that we can really compare apples to apples and then let’s look at energy used at different speeds under those environmental variables.---------------------------------------------------------------------------------------------
Temperature: 87º F-------------------------------------------------------------------------------
Elevation: 400’ above sea level-----------------------------------------------------------------
Humidity: 67%---------------------------------------------------------------------------------------
Barometer: 30.03 in/hg----------------------------------------------------------------------------
Load: 350 lbs (driver & gear)--------------------------------------------------------------------
Auto AC: On-----------------------------------------------------------------------------------------
Climate Control: 72 º F----------------------------------------------------------------------------
Winds: 5 MPH---------------------------------------------------------------------------------------
Wind Dir: 235 º (tail wind/crosswind – slightly detrimental)------------------------------
Fuel: 114,500 BTU (avg Summer Blend)-----------------------------------------------------
kWh: 33.5568 (energy available per gallon/US)--------------------------------------------
RRR: .001144 Road Rolling Resistance (smooth asphalt roads)----------------------
TRR: .007 Tire Rolling Resistance-------------------------------------------------------------
Cd: .26 Aerodynamic Coefficient of Drag----------------------------------------------------
FA: 2.16 Frontal Area in meters squared-----------------------------------------------------
cwCd: 1.4e-5 (crosswind correction for Cd)-------------------------------------------------
cwFA: 8.5e-5 (crosswind correction for FA)-----------------------------------------------------------------------------------------------------------------------------------------------------------
MPH-------- Wh/mile---------% Aero Drag------------------------------------------------------
40-------------157.5--------------- 27.3%----------------------------------------------------------
45-------------193.6--------------- 28.6%----------------------------------------------------------
50-------------201.4--------------- 34.4%----------------------------------------------------------
55-------------213.6--------------- 39.6%----------------------------------------------------------
60-------------225.5--------------- 45.0%----------------------------------------------------------
65------------ 243.4--------------- 49.4%----------------------------------------------------------
70------------ 260.4--------------- 53.9%----------------------------------------------------------
75------------ 278.9--------------- 58.0%----------------------------------------------------------
80------------ 298.6--------------- 62.0%----------------------------------------------------------
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As you can see, Bill is being quite fair in his 250 Wh/mile estimation above as it falls somewhere in between 65-70 MPH with the applied real-world variables including a slightly detrimental crosswind/tailwind. If the above data is badly scrambled there is a more legible copy at the following URL: http://privatenrg.com
Posted by: Wayne Brown
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27-Sep-2005
9834
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Nicetable. This is a very usefull table. We shuld have seen more of those tables. On ALL cars.
Something i find irritating, is on real HEV (plug-ins), with a series configuration, is that they are presented as EV with range extender. But what is more interesting, is the speed that the car can sustain after the battery is depleted. Eg. the Kango HEV's generator have I heard can keep a speed of 75km/h, this is a speed I am satisfied with..I do not need higher average speed over the course of an 100km ( the ZEV range of the kango car )
| MPH | Wh/mile | % Aero Drag |
|---|
| 40 | 157.5 | 27.3% |
| 45 | 193.6 | 28.6% |
| 50 | 201.4 | 34.4% |
| 55 | 213.6 | 39.6% |
| 60 | 225.5 | 45.0% |
| 65 | 243.4 | 49.4% |
| 70 | 260.4 | 53.9% |
| 75 | 278.9 | 58.0% |
| 80 | 298.6 | 62.0% |
Posted by: Michael Eric Menk
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06-Nov-2005
10757
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i don't know anything but the table with mph Wh/mile and % aero resistance looks fishy...look at the change in each column from one mph to the next. also you seem to go from 2 lbs coal/kwh in one sentence to 1.4 kwh per pound in the next. shouldn't that be .5 kwh per pound (just going by the arithmetic)?
not impossible that i am missing something here.
i was looking for some information that would compare the environmental cost of plug in vs hybrid vs good gas engine for low speed shopping type trips. i would guess that here is where the plug in would show a real benefit, but perhaps not enough of one (at the same speeds) to justify a dedicated second car for such short slow trips.
Posted by: d coberly
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21-Sep-2005
9679
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It is nice to see that more and more people are getting involved in hybrid technology and trying to make the earth better for younger generations. Great article. Look forward to seeing more of these hybrids plug ins in the future.
Posted by: John Lanc
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21-Sep-2005
9682
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Very interesting article and being the owner of a Prius 2004, I am excited with all the possibilities in the future. I hope Toyota and all the other brands will be more interested in producing plug-in cars in the near future.
Posted by: Henrique Teixeira
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21-Sep-2005
9683
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I hope most people reading this article realize that to achieve the 160mpg or even 50mpg with a Hybrid will require them to change their driving habits and use of the vehicle. No jack rabbit starts, no A/C use, no driving down the highway at 70mph, no towing or exceeding weight limits, etc. Hybrids have their place, but most people can only afford a multipurpose vehicle and the Hybrid is not it if they want the promised fuel economy.
Posted by: Leroy A.
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21-Sep-2005
9688
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I would love to have a plug in hybrid but the battery cost is a little high for me currently and I can't go anywhere in So. Cal. under 35MPH. Those barriers will be overcome, but until then I love my Prius and use it as a multipurpose vehicle for solo commute, hauling the family on the weekends etc. I drive the same as always, 80MPH on the highway and jackrabit around town. I still get 40+MPG. Bottom line, wether you change your habits or not Hybrids are easier on the environment and the pocketbook.
Posted by: Michael Hart
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22-Sep-2005
9690
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I do not understand how 6 pounds of coal (C, at. weight 12) can combine with O2 (mol. weight 32) to create just 12 pounds of CO2 (mol. weight 44). Shouldn't the true figure be 22 pounds of CO2?
Still, it beats 24 pounds CO2 from petrol and coal fired electricity generation is a worst case scenario.
Posted by: Thomas Lankester
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22-Sep-2005
9699
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California's AQMD posted the cost breakdown for their plug-in hybrid demonstration project at http://www.aqmd.gov/hb/2005/05056a.html. Total is close to $600,000, which I think is a bargain.
Posted by: Bill Moore
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