Plug-in hybrid: Difference between revisions
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The cost for electricity to power plug-in hybrids for [[All-electric range|all-electric operation]] has been estimated at less than one quarter of the cost of [[gasoline]].<ref name="hevctr">Frank, A., ''et al.,'' [http://www.team-fate.net/wordpress/?page_id=11 "What are Plug-In Hybrids?"] Team Fate ([[University of California, Davis]]) Retrieved August 7, 2007; [http://web.archive.org/web/20070213210902/http://www.team-fate.net/phev.html earlier version]</ref> Compared to conventional vehicles, PHEVs can reduce [[air pollution]], dependence on [[petroleum]], and [[greenhouse gas]] emissions that contribute to [[global warming]].<ref>{{Citation | url=http://geosci.uchicago.edu/~archer/reprints/archer.2005.fate_co2.pdf |format=PDF| first = David | last = Archer | title = Fate of fossil fuel {{chem|CO|2}} in geologic time | journal = [[Journal of Geophysical Research]] | volume = 110 | issue=C9 | pages=C09S05.1–C09S05.6 | year = 2005 | doi=10.1029/2004JC002625 | accessdate=2008-12-31}}</ref><ref name="Boschert07">{{Citation | last = Sherry Boschert | title = Plug-in Hybrids: The Cars that will Recharge America | year = 2006 | pages= | publisher = New Society Publishers, Gabriola Island, Canada| id = ISBN 978-0-86571-571-4}}</ref><ref name="HotFlat">{{Citation | last = [[Thomas L. Friedman]] | title = Hot, Flat, and Crowded | year = 2008 | pages= | publisher = Farrar, Strauss and Giroux, New York | id = ISBN 978-0-374-16685-4. ''See reviewed by [[CalCars]] founder [[Felix Kramer]] (September 9, 2008) [http://autos.groups.yahoo.com/group/calcars-news/auth?check=G&done=http%3A%2F%2Fautos%2Egroups%2Eyahoo%2Ecom%2Fgroup%2Fcalcars-news%2Fmessage%2F996 "T. Friedman's New Bestseller Hot, Flat & Crowded Touts Plug-Ins"]''}}</ref> Plug-in hybrids use no [[fossil fuel]] during their [[all-electric range]] if their batteries are charged from [[nuclear power|nuclear]] or [[renewable energy]] sources. Other benefits include improved national [[energy security]], fewer fill-ups at the [[filling station]], the convenience of home recharging, opportunities to provide [[emergency backup power]] in the home, and [[vehicle to grid]] applications.<ref name="cba">Simpson, A. (2006) [http://www.nrel.gov/docs/fy07osti/40485.pdf ''Cost-Benefit Analysis of Plug-in Hybrid Electric Vehicle Technology''] National Renewable Energy Laboratory conference report CP-540-40485 accessed January 7, 2009</ref> |
The cost for electricity to power plug-in hybrids for [[All-electric range|all-electric operation]] has been estimated at less than one quarter of the cost of [[gasoline]].<ref name="hevctr">Frank, A., ''et al.,'' [http://www.team-fate.net/wordpress/?page_id=11 "What are Plug-In Hybrids?"] Team Fate ([[University of California, Davis]]) Retrieved August 7, 2007; [http://web.archive.org/web/20070213210902/http://www.team-fate.net/phev.html earlier version]</ref> Compared to conventional vehicles, PHEVs can reduce [[air pollution]], dependence on [[petroleum]], and [[greenhouse gas]] emissions that contribute to [[global warming]].<ref>{{Citation | url=http://geosci.uchicago.edu/~archer/reprints/archer.2005.fate_co2.pdf |format=PDF| first = David | last = Archer | title = Fate of fossil fuel {{chem|CO|2}} in geologic time | journal = [[Journal of Geophysical Research]] | volume = 110 | issue=C9 | pages=C09S05.1–C09S05.6 | year = 2005 | doi=10.1029/2004JC002625 | accessdate=2008-12-31}}</ref><ref name="Boschert07">{{Citation | last = Sherry Boschert | title = Plug-in Hybrids: The Cars that will Recharge America | year = 2006 | pages= | publisher = New Society Publishers, Gabriola Island, Canada| id = ISBN 978-0-86571-571-4}}</ref><ref name="HotFlat">{{Citation | last = [[Thomas L. Friedman]] | title = Hot, Flat, and Crowded | year = 2008 | pages= | publisher = Farrar, Strauss and Giroux, New York | id = ISBN 978-0-374-16685-4. ''See reviewed by [[CalCars]] founder [[Felix Kramer]] (September 9, 2008) [http://autos.groups.yahoo.com/group/calcars-news/auth?check=G&done=http%3A%2F%2Fautos%2Egroups%2Eyahoo%2Ecom%2Fgroup%2Fcalcars-news%2Fmessage%2F996 "T. Friedman's New Bestseller Hot, Flat & Crowded Touts Plug-Ins"]''}}</ref> Plug-in hybrids use no [[fossil fuel]] during their [[all-electric range]] if their batteries are charged from [[nuclear power|nuclear]] or [[renewable energy]] sources. Other benefits include improved national [[energy security]], fewer fill-ups at the [[filling station]], the convenience of home recharging, opportunities to provide [[emergency backup power]] in the home, and [[vehicle to grid]] applications.<ref name="cba">Simpson, A. (2006) [http://www.nrel.gov/docs/fy07osti/40485.pdf ''Cost-Benefit Analysis of Plug-in Hybrid Electric Vehicle Technology''] National Renewable Energy Laboratory conference report CP-540-40485 accessed January 7, 2009</ref> |
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[[BYD Auto]]'s [[BYD F3DM|F3DM]] PHEV-68 (PHEV109km) [[hatchback]] began selling for 149,800 [[Chinese yuan|yuan]] (USD $22,000) on December 15, 2008 in China as the first [[mass production|production]] plug-in hybrid.<ref>Crippen, A. (December 15, 2008) [http://www.cnbc.com/id/28236421 "Warren Buffett's Electric Car Hits the Chinese Market, But Rollout Delayed For U.S. & Europe"] ''CNBC''. Retrieved December 2008.</ref><ref name=bwf3dm>Balfour, F. (December 15, 2008) [http://www.businessweek.com/globalbiz/content/dec2008/gb20081215_913780.htm "China's First Plug-In Hybrid Car Rolls Out"] ''Business Week''. Retrieved December 2008.</ref> [[Toyota]],<ref name = "toyota"/> [[General Motors]],<ref name="gm">General Motors (November 29, 2006) [http://www.gm.com/experience/technology/news/2006/hybrid_vue_plugin_113006.jsp "GM Announces Intention to Produce Plug-in Hybrid SUV"]. Retrieved January 8, 2009.</ref> [[Ford Motor Company|Ford]],<ref name="ford">Woodall, B. (July 10, 2007) [http://uk.reuters.com/article/motoringNews/idUKNOA02732820070710 "Ford sees plug-in hybrids in 5–10 years"] ''Reuters''. Retrieved July 27, 2007.</ref> California [[Startup company|startup]]s [[Fisker Automotive]]<ref name=karma /> and [[Aptera Motors]],<ref name=aptera /> and [[Volkswagen]]<ref name="vwgolf">Thompson (June 26, 2008) [http://www.forbes.com/afxnewslimited/feeds/afx/2008/06/26/afx5156904.html "VW starts testing electric cars, sees launching them by 2010"] (Forbes) accessed December 2009</ref> have announced their intention to introduce production PHEV automobiles. The PHEV-6 ( |
[[BYD Auto]]'s [[BYD F3DM|F3DM]] PHEV-68 (PHEV109km) [[hatchback]] began selling for 149,800 [[Chinese yuan|yuan]] (USD $22,000) on December 15, 2008 in China as the first [[mass production|production]] plug-in hybrid.<ref>Crippen, A. (December 15, 2008) [http://www.cnbc.com/id/28236421 "Warren Buffett's Electric Car Hits the Chinese Market, But Rollout Delayed For U.S. & Europe"] ''CNBC''. Retrieved December 2008.</ref><ref name=bwf3dm>Balfour, F. (December 15, 2008) [http://www.businessweek.com/globalbiz/content/dec2008/gb20081215_913780.htm "China's First Plug-In Hybrid Car Rolls Out"] ''Business Week''. Retrieved December 2008.</ref> [[Toyota]],<ref name = "toyota"/> [[General Motors]],<ref name="gm">General Motors (November 29, 2006) [http://www.gm.com/experience/technology/news/2006/hybrid_vue_plugin_113006.jsp "GM Announces Intention to Produce Plug-in Hybrid SUV"]. Retrieved January 8, 2009.</ref> [[Ford Motor Company|Ford]],<ref name="ford">Woodall, B. (July 10, 2007) [http://uk.reuters.com/article/motoringNews/idUKNOA02732820070710 "Ford sees plug-in hybrids in 5–10 years"] ''Reuters''. Retrieved July 27, 2007.</ref> California [[Startup company|startup]]s [[Fisker Automotive]]<ref name=karma /> and [[Aptera Motors]],<ref name=aptera /> and [[Volkswagen]]<ref name="vwgolf">Thompson (June 26, 2008) [http://www.forbes.com/afxnewslimited/feeds/afx/2008/06/26/afx5156904.html "VW starts testing electric cars, sees launching them by 2010"] (Forbes) accessed December 2009</ref> have announced their intention to introduce production PHEV automobiles. The PHEV-6 (PHEV9.7 km) [[Toyota Prius]] will be offered beginning with [[commercial fleet]]s in 2009.<ref name="toyota09">Ohnsman, A. (August 28, 2008) [http://www.bloomberg.com/apps/news?pid=20601101&sid=akRq_GCaGMRE&refer=japan "Toyota Plans Electric Car, Earlier Plug-In Prius Test"] ''Bloomberg''. Retrieved December 2008.</ref><ref>Environment News Service (December 15, 2008) [http://www.ens-newswire.com/ens/dec2008/2008-12-15-094.asp "Next Generation Plug-in Hybrid Car Tested in Florida"] ''ens-newswire.com''. Retrieved December 2008.</ref><ref>Strieber, A. (August 29, 2008) [http://wot.motortrend.com/6292833/according-to-lutz/gm-roundup-lutz-bullish-on-future-takes-a-dig-at-plug-in-prius/index.html "GM Roundup: Lutz bullish on future, takes a dig at plug-in Prius"] ''Motor Trend'.' Retrieved January 7, 2009.</ref> The luxury [[Fisker Karma]] PHEV-50 (PHEV80 km) [[sports car]] is slated for late 2009, and GM's PHEV-40 (PHEV64 km) [[Chevrolet Volt]] and [[Saturn Vue]] and the [[Volkswagen Golf]] PHEV-50 km plug-ins are expected in 2010.<ref name="reutnov">Woodall, B. (November 10, 2007) [http://uk.reuters.com/article/technologyNews/idUKN0937759520071110?sp=true "Toyota eyes the plug-in Prius"] ''Reuters'.' Retrieved November 9, 2007.</ref><ref name="gmwhen">Terlep, S. (August 10, 2007) [http://www.detnews.com/apps/pbcs.dll/article?AID=/20070810/AUTO01/708100342/1148 "GM races ahead with plug-in car"] ''The Detroit News'.' Retrieved September 6, 2007.</ref> [[Ford Motor Company|Ford]]'s PHEV-30 [[Ford Escape|Escape]] SUV is already being used in utility fleets, and due out to the general public in 2012.<ref>Phipps, J.L. (January 21, 2009) [http://www.investors.com/editorial/IBDArticles.asp?artsec=17&artnum=1&issue=20090121 "Ford's Plug-In Hybrid Offered Quiet Ride, Fueled By Electricity"] ''Investor's Business Daily''</ref><ref>Healey, J.R. (January 28, 2009) [http://www.usatoday.com/money/autos/reviews/healey/2008-01-24-ford-escape-plugin-hybrid_N.htm "Ford Escape plug-in prototype shows potential"] ''USA Today''</ref><ref>[http://www.edmunds.com/insideline/do/News/articleId=141406 "Ford Inks Deal for Plug-In Hybrid Batteries"] ''Edmunds'' (February 4, 2009)</ref> [[Aftermarket kit|Conversion kits]] and services are available to convert production model [[hybrid vehicle]]s to plug-ins.<ref name=NYTXH>Wald, M.L. (January 13, 2008) [http://www.nytimes.com/2008/01/13/automobiles/13ULTRA.html "Closing the Power Gap Between a Hybrid’s Supply and Demand,"] ''New York Times'.' Retrieved January 7, 2009.</ref><ref>Kahn, C. (April 7, 2008) [http://www.npr.org/templates/story/story.php?storyId=89424919 California Company Develops Plug-In Hybrid] ''National Public Radio'', accessed January 7, 2009, profiles [http://www.energycs.com/ EnergyCS], developing a Prius conversion service</ref> Most PHEVs on the road in the U.S. are conversions of 2004 or later Toyota Prius models, which have had plug-in charging added and their electric-only range extended. |
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Plug-in hybrid vehicles were included in the [[Energy Independence and Security Act of 2007]]. On October 3, 2008, the U.S. enacted the [[Energy Improvement and Extension Act of 2008]] as part of the bailout of the U.S. financial system. The law, as amended by the [[American Recovery and Reinvestment Act of 2009]], provides [[tax credit]]s for purchases of plug-in hybrid vehicles until less than a year after the first 200,000 per manufacturer are sold, worth $2,500 plus $417 for each kilowatt-hour of battery capacity over 4 kilowatt-hours, up to $7,500 for cars under 10,000 pounds (4,536 kg), or more for larger vehicles up to {{pounds|14000}}.<ref name=Schoenberger /><ref name=Vijayenthiran /> |
Plug-in hybrid vehicles were included in the [[Energy Independence and Security Act of 2007]]. On October 3, 2008, the U.S. enacted the [[Energy Improvement and Extension Act of 2008]] as part of the bailout of the U.S. financial system. The law, as amended by the [[American Recovery and Reinvestment Act of 2009]], provides [[tax credit]]s for purchases of plug-in hybrid vehicles until less than a year after the first 200,000 per manufacturer are sold, worth $2,500 plus $417 for each kilowatt-hour of battery capacity over 4 kilowatt-hours, up to $7,500 for cars under 10,000 pounds (4,536 kg), or more for larger vehicles up to {{pounds|14000}}.<ref name=Schoenberger /><ref name=Vijayenthiran /> |
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This distinguishes PHEVs from [[regular hybrid]] cars [[mass-market]]ed today, which do not use any electricity from the grid. |
This distinguishes PHEVs from [[regular hybrid]] cars [[mass-market]]ed today, which do not use any electricity from the grid. |
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The [[Institute of Electrical and Electronics Engineers]] (IEEE) defines PHEVs similarly, but also requires that the [[hybrid electric vehicle]] can drive at least ten miles (16 km) in [[all-electric mode]] (PHEV-10 |
The [[Institute of Electrical and Electronics Engineers]] (IEEE) defines PHEVs similarly, but also requires that the [[hybrid electric vehicle]] can drive at least ten miles (16 km) in [[all-electric mode]] (PHEV-10; PHEV16km), while consuming no [[gasoline]] or [[diesel]] fuel.<ref>[[IEEE]]-USA Board of Directors (June 15, 2007) [http://www.ieeeusa.org/policy/positions/PHEV0607.pdf "Plug-In Electric Hybrid Vehicles"] ''Position Statement'.' Retrieved October 3, 2007.</ref> |
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The [[California Air Resources Board]] uses the term "off-vehicle charge capable" (OVCC) to mean having the capability to charge a battery from an off-vehicle electric energy source that cannot be connected or coupled to the vehicle in any manner while the vehicle is being driven.<ref>California Air Resources Board (July 2008) [http://www.arb.ca.gov/msprog/zevprog/hevtest/071608aftermarketpartsdraftrev.pdf "California Certification and Installation Procedures for Off-Vehicle Charge Capable Conversion Systems for 2000 and Subsequent Model Year Hybrid Electric Vehicles"]. Retrieved January 8, 2009.</ref> |
The [[California Air Resources Board]] uses the term "off-vehicle charge capable" (OVCC) to mean having the capability to charge a battery from an off-vehicle electric energy source that cannot be connected or coupled to the vehicle in any manner while the vehicle is being driven.<ref>California Air Resources Board (July 2008) [http://www.arb.ca.gov/msprog/zevprog/hevtest/071608aftermarketpartsdraftrev.pdf "California Certification and Installation Procedures for Off-Vehicle Charge Capable Conversion Systems for 2000 and Subsequent Model Year Hybrid Electric Vehicles"]. Retrieved January 8, 2009.</ref> |
Revision as of 00:21, 5 May 2009
A plug-in hybrid electric vehicle (PHEV) is a hybrid vehicle with batteries that can be recharged by connecting a plug to an electric power source. It shares the characteristics of both traditional hybrid electric vehicles, having an electric motor and a internal combustion engine, and of battery electric vehicles, also having a plug to connect to the electric grid. Most PHEVs on the road today are passenger cars, but there are also PHEV versions of commercial passenger vans, utility trucks, school buses, motorcycles, scooters, and military vehicles. They are sometimes called grid-connected hybrids, gas-optional hybrids, or GO-HEVs.
The cost for electricity to power plug-in hybrids for all-electric operation has been estimated at less than one quarter of the cost of gasoline.[1] Compared to conventional vehicles, PHEVs can reduce air pollution, dependence on petroleum, and greenhouse gas emissions that contribute to global warming.[2][3][4] Plug-in hybrids use no fossil fuel during their all-electric range if their batteries are charged from nuclear or renewable energy sources. Other benefits include improved national energy security, fewer fill-ups at the filling station, the convenience of home recharging, opportunities to provide emergency backup power in the home, and vehicle to grid applications.[5]
BYD Auto's F3DM PHEV-68 (PHEV109km) hatchback began selling for 149,800 yuan (USD $22,000) on December 15, 2008 in China as the first production plug-in hybrid.[6][7] Toyota,[8] General Motors,[9] Ford,[10] California startups Fisker Automotive[11] and Aptera Motors,[12] and Volkswagen[13] have announced their intention to introduce production PHEV automobiles. The PHEV-6 (PHEV9.7 km) Toyota Prius will be offered beginning with commercial fleets in 2009.[14][15][16] The luxury Fisker Karma PHEV-50 (PHEV80 km) sports car is slated for late 2009, and GM's PHEV-40 (PHEV64 km) Chevrolet Volt and Saturn Vue and the Volkswagen Golf PHEV-50 km plug-ins are expected in 2010.[17][18] Ford's PHEV-30 Escape SUV is already being used in utility fleets, and due out to the general public in 2012.[19][20][21] Conversion kits and services are available to convert production model hybrid vehicles to plug-ins.[22][23] Most PHEVs on the road in the U.S. are conversions of 2004 or later Toyota Prius models, which have had plug-in charging added and their electric-only range extended.
Plug-in hybrid vehicles were included in the Energy Independence and Security Act of 2007. On October 3, 2008, the U.S. enacted the Energy Improvement and Extension Act of 2008 as part of the bailout of the U.S. financial system. The law, as amended by the American Recovery and Reinvestment Act of 2009, provides tax credits for purchases of plug-in hybrid vehicles until less than a year after the first 200,000 per manufacturer are sold, worth $2,500 plus $417 for each kilowatt-hour of battery capacity over 4 kilowatt-hours, up to $7,500 for cars under 10,000 pounds (4,536 kg), or more for larger vehicles up to Template:Pounds.[24][25]
Terminology
A plug-in hybrid's all-electric range is designated by PHEV-[miles] or PHEV[kilometers]km in which the number represents the distance the vehicle can travel on battery power alone. For example, a PHEV-20 can travel twenty miles (32 km) without using its internal combustion engine, so it may also be designated as a PHEV32km.[26]
The Energy Independence and Security Act of 2007 defines a plug-in electric drive vehicle as a vehicle that:
- draws motive power from a battery with a capacity of at least 4 kilowatt-hours;
- can be recharged from an external source of electricity for motive power; and
- is a light-, medium-, or heavy-duty motor vehicle or nonroad vehicle.
This distinguishes PHEVs from regular hybrid cars mass-marketed today, which do not use any electricity from the grid.
The Institute of Electrical and Electronics Engineers (IEEE) defines PHEVs similarly, but also requires that the hybrid electric vehicle can drive at least ten miles (16 km) in all-electric mode (PHEV-10; PHEV16km), while consuming no gasoline or diesel fuel.[27]
The California Air Resources Board uses the term "off-vehicle charge capable" (OVCC) to mean having the capability to charge a battery from an off-vehicle electric energy source that cannot be connected or coupled to the vehicle in any manner while the vehicle is being driven.[28]
History
Hybrid vehicles were produced as early as 1899 by Lohner-Porsche. Early hybrids could be charged from an external source before operation. However, the term "plug-in hybrid" has come to mean a hybrid vehicle that can be charged from a standard electrical wall socket. The July 1969 issue of Popular Science featured an article on the General Motors XP-883 plug-in hybrid. The concept commuter vehicle housed six 12-volt lead-acid batteries in the trunk area and a transverse-mounted DC electric motor turning a front-wheel drive.[29] The car could be plugged into a standard North American 120 volt AC outlet for recharging.
In 2003, Renault began selling the Elect'road, a plug-in series hybrid version of their popular Kangoo, in Europe. It was sold alongside Renault's "Electri'cité" electric-drive Kangoo battery electric van. The Elect'road had a 150 km (93 mi) range using a nickel-cadmium battery pack and a 500 cc (31 cu in), 16 kilowatt liquid-cooled gasoline "range-extender" engine. It powered two high voltage/high output/low volume alternators, each of which supplied up to 5.5 kW at 132 volts at 5000 rpm.[30] The operating speed of the internal combustion engine—and therefore the output delivered by the generators—varied according to demand. The fuel tank had a capacity of 10 litres (2.6 US gal; 2.2 imp gal) and was housed within the right rear wheel arch. The range extender function was activated by a switch on the dashboard. The on-board 3.5 kilowatt charger could charge a depleted battery pack to 95% charge in about four hours from a 240 volts supply.[31] Passenger compartment heating was powered by the battery pack as well as an auxiliary coolant circuit that was supplied by the range extender engine. After selling about 500 vehicles, primarily in France, Norway and the UK, at a price of about €25,000,[30] the Elect'road was redesigned in 2007.
In September 2004, the California Cars Initiative (CalCars) converted a 2004 Toyota Prius into a prototype of what it called the PRIUS+. With the addition of 130 kg (300 lb) of lead-acid batteries, the PRIUS+ achieved roughly double the fuel economy of a standard Prius and could make trips of up to 15 km (9 mi) using only electric power. The vehicle, which is owned by CalCars technical lead Ron Gremban, is used in daily driving, as well as a test bed for various improvements to the system.[32]
On July 18, 2006, Toyota announced that it "plans to develop a hybrid vehicle that will run locally on batteries charged by a household electrical outlet before switching over to a gasoline engine for longer hauls."[8] Toyota has said it plans to migrate to lithium-ion batteries in future hybrid models,[33] but not in the next-generation Prius, expected in fall 2008.[34] Lithium-ion batteries are expected to significantly improve fuel economy, and have a higher energy-to-weight ratio, but cost more to produce, and raise safety concerns due to high operating temperatures.[34]
On November 29, 2006, GM announced plans to introduce a production plug-in hybrid version of Saturn's Greenline Vue SUV with an all-electric range of 10 mi (16 km).[9] The model's sale is anticipated by fall 2009,[34] and GM announced in January 2007 that contracts had been awarded to two companies to design and test lithium-ion batteries for the vehicle.[35] GM has said that they plan on introducing plug-in and other hybrids "for the next several years".[9]
In January 2007, GM unveiled the Chevrolet Volt, which is expected to initially feature a plug-in capable, battery-dominant series hybrid architecture which they are calling E-Flex.[36] Future E-Flex plug-in hybrid vehicles may use gasoline, diesel, or hydrogen fuel cell power to supplement the vehicle's battery. General Motors envisions an eventual progression of E-Flex vehicles from plug-in hybrids to pure electric vehicles, as battery technology improves.[37] General Motors presented the Volt as a PHEV-40 that starts its engine when 40% of the battery charge remains, and which can achieve a fuel economy of Template:Mpg, even if the vehicle's batteries are not charged.[38]
On July 9, 2007, Ford Motor Company CEO Alan Mulally said he expects Ford to sell plug-in hybrids in five to ten years, the launch date depending on advances in lithium-ion battery technology. Ford will provide Southern California Edison with 20 Ford Escape Hybrid sport utility vehicles reconfigured to work as plug-ins by 2009, with the first by the end of 2007.[10] On July 25, Japan's Ministry of Land, Infrastructure and Transport certified Toyota's plug-in hybrid for use on public roads, making it the first automobile to attain such approval. Toyota plans to conduct road tests to verify its all-electric range. The plug-in Prius was said to have an all-electric range of 13 km (8 mi).[39] But later prototypes shown at the 2008 Paris Auto Show had an electric-only range of "just a little over six miles."[40]
On August 9, 2007, General Motors vice-president Robert Lutz announced that GM is on track for Chevrolet Volt road testing in 2008 and production to begin by 2010. Announcing an agreement with A123Systems, Lutz said GM would like to have their planned Saturn Vue plug-in on the roads by 2009.[18] The Volt has an all-electric range of 40 mi (64 km). On September 5, Quantum Technologies[41] and Fisker Coachbuild, LLC announced the launch of a joint venture in Fisker Automotive.[42] Fisker intends to build a US$ 80,000 luxury PHEV-50, the Fisker Karma, anticipated in late 2009.[11] In September, Aptera Motors announced their Typ-1 two-seater. They plan to produce both an electric 2e and a plug-in series hybrid 2h with a common three-wheeled, composite body design. As of May 2008, over two thousand pre-orders have been accepted, and production of the hybrid configuration is expected to begin in late 2009.[12]
On October 9, 2007, Chinese manufacturer BYD Automobile Company (which is owned by China's largest mobile phone battery maker) announced that it would be introducing a production PHEV-60 sedan in China in the second half of 2008. BYD exhibited it January 2008 at the North American International Auto Show in Detroit. Based on BYD's midsize F6 sedan, it uses Lithium Iron phosphate batterys - LiFeP04 - based batteries instead of lithium-ion, and can be recharged to 70% of capacity in just 10 minutes.[43]
In January 2008, a privately-run waiting list to purchase the Chevy Volt reached 10,000 members. The list, administered by Lyle Dennis, was started one year prior.[44] Dr. Yi Cui and colleagues at Stanford University's Department of Materials Science and Engineering[45] have discovered that silicon nanowires give rechargeable lithium ion batteries 10 times more charge.[46][47] On January 7, Bob Lutz, the Vice Chairman of General Motors said, "The electrification of the automobile is inevitable."[48] On January 14, Toyota announced they would start sales of lithium-ion battery PHEVs by 2010,[49][50] but later in the year Toyota indicated they would be offered to commercial fleets in 2009.[14]
On March 27, the California Air Resources Board modified their regulations, requiring automobile manufacturers to produce 58,000 plug-in hybrids during 2012 through 2014.[51] This requirement is an asked-for alternative to an earlier mandate to produce 25,000 pure zero emission vehicles, reducing that requirement to 5,000.[52] On June 26, Volkswagen announced that they would be introducing production plug-ins based on the Golf compact. Volkswagen uses the term 'TwinDrive' to denote a PHEV.[13] In September, Mazda was reported to be planning PHEVs.[53] On September 23, Chrysler announced that they had prototyped a plug-in Jeep Wrangler and a Chrysler Town and Country mini-van, both PHEV-40s with series powertrains, and an all-electric Dodge sports car, and said that one of the three vehicles would go in to production.[54][55][56][57]
On October 3, the U.S. enacted the Energy Improvement and Extension Act of 2008. The legislation provides tax credits for the purchase of plug-in hybrid vehicles worth $2,500 plus $417 for each kilowatt-hour of battery capacity over 4 kilowatt-hours, up to $7,500 for cars under 10,000 pounds, $10,000 for larger vehicles under 14,000 pounds, $12,500 for bigger trucks under 26,000 pounds, or $15,000 for larger trucks and equipment. The tax credit will be phased out two calendar quarters after the first 250,000 such vehicles are sold, down to 50% for the next six months and 25% for another half year after that.[24][25]
On December 15, BYD Auto's F3DM PHEV-60 hatchback began selling in China as the first production plug-in hybrid.[7][58] It costs the equivalent of USD $22,000 and has a all-electric range of 110 kilometres (68.4 mi).[59]
Technology
Powertrains
PHEVs are based on the same three basic powertrain architectures as conventional electric hybrids:[60]
Series hybrids (also called extended range electric vehicles (EREV)[61]) use an internal combustion engine (ICE) to turn a generator, which in turn supplies current to an electric motor, which then rotates the vehicle’s drive wheels. A battery or supercapacitor pack, or a combination of the two, can be used to store excess charge. Examples of series hybrids include the Renault Kangoo Elect'Road, Toyota's Japan-only Coaster light-duty passenger bus, Daimler AG's hybrid Orion bus, the Chevrolet Volt production car, the Opel Flextreme concept car, and many diesel-electric locomotives. With an appropriate balance of components this type can operate over a substantial distance with its full range of power without engaging the ICE. As is the case for other architectures, series hybrids can operate without recharging as long as there is liquid fuel in the tank.[62]
Parallel hybrids, such as Honda's Insight, Civic, and Accord hybrids, can simultaneously transmit power to their drive wheels from two distinct sources—for example, an internal combustion engine and a battery-powered electric drive. Although most parallel hybrids incorporate an electric motor between the vehicle's engine and transmission, a parallel hybrid can also use its engine to drive one of the vehicle's axles, while its electric motor drives the other axle and/or a generator used for recharging the batteries. (This type is called a road-coupled hybrid). The Audi Duo plug-in hybrid concept car is an example of this type of parallel hybrid architecture. Parallel hybrids can be programmed to use the electric motor to substitute for the ICE at lower power demands as well as to substantially increase the power available to a smaller ICE, both of which substantially increase fuel economy compared to a simple ICE vehicle.[63]
Series-parallel hybrids have the flexibility to operate in either series or parallel mode. Hybrid powertrains currently used by Ford, Lexus, Nissan, and Toyota, which some refer to as “series-parallel with power-split,” can operate in both series and parallel mode at the same time. As of 2007, most plug-in hybrid conversions of conventional hybrids utilize this architecture.[64]
Modes of operation
Regardless of its architecture, a plug-in hybrid may be capable of charge-depleting and charge-sustaining modes. Combinations of these two modes are termed blended mode or mixed-mode. These vehicles can be designed to drive for an extended range in all-electric mode, either at low speeds only or at all speeds. These modes manage the vehicle's battery discharge strategy, and their use has a direct effect on the size and type of battery required:[65]
Charge-depleting mode allows a fully charged PHEV to operate exclusively (or depending on the vehicle, almost exclusively, except during hard acceleration) on electric power until its battery state of charge is depleted to a predetermined level, at which time the vehicle's internal combustion engine or fuel cell will be engaged. This period is the vehicle's all-electric range. This is the only mode that a battery electric vehicle can operate in, hence their limited range.[66]
- Blended mode is a kind of charge-depleting mode. It is normally employed by vehicles which do not have enough electric power to sustain high speeds without the help of the internal combustion portion of the powertrain. A blended control strategy typically increases the distance from stored grid electricity compared to a charge-depleting strategy.[67] The Renault Kangoo and some Toyota Prius conversions are examples of vehicles that use this mode of operation. The Electri'cité and Elect'road versions of the Kangoo were charge-depleting battery electric vehicles: the Elect'road had a modest internal combustion engine which extended its range somewhat. Conversions of 2004 and later model Toyota Prius can only run without using the ICE at speeds of less than about 42 mph (68 km/h) due to the limits dictated by the vehicle's powertrain control software. However, at faster speeds electric power can still be used to displace gasoline, thus improving the fuel economy in blended mode and generally doubling the fuel efficiency.
Charge-sustaining mode is used by production hybrid vehicles (HEVs) today, and combines the operation of the vehicle's two power sources in such a manner that the vehicle is operating as efficiently as possible without allowing the battery state of charge to move outside a predetermined narrow band. Over the course of a trip in a HEV the state of charge may fluctuate but will have no net change.[68] The battery in a HEV can thus be thought of as an energy accumulator rather than a fuel storage device. Once a plug-in hybrid has exhausted its all-electric range in charge-depleting mode, it can switch into charge-sustaining mode automatically.
Mixed mode describes a trip in which a combination of the above modes are utilized.[69] For example, a PHEV-20 Prius conversion may begin a trip with 5 miles (8 km) of low speed charge-depleting, then get onto a freeway and operate in blended mode for 20 miles (32 km), using 10 miles (16 km) worth of all-electric range at twice the fuel economy. Finally the driver might exit the freeway and drive for another 5 miles (8 km) without the internal combustion engine until the full 20 miles (32 km) of all-electric range are exhausted. At this point the vehicle can revert back to a charge sustaining-mode for another 10 miles (16 km) until the final destination is reached. Such a trip would be considered a mixed mode, as multiple modes are employed in one trip. This contrasts with a charge-depleting trip which would be driven within the limits of a PHEV's all-electric range. Conversely, the portion of a trip which extends beyond the all-electric range of a PHEV would be driven primarily in charge-sustaining mode, as used by a conventional hybrid.
Electric power storage
PHEVs typically require deeper battery charging and discharging cycles than conventional hybrids. Because the number of full cycles influences battery life, this may be less than in traditional HEVs which do not deplete their batteries as fully. However, some authors argue that PHEVs will soon become standard in the automobile industry.[70] Design issues and trade-offs against battery life, capacity, heat dissipation, weight, costs, and safety need to be solved.[71] Advanced battery technology is under development, promising greater energy densities by both mass and volume,[72] and battery life expectancy is expected to increase.[73]
The cathodes of some early 2007 lithium-ion batteries are made from lithium-cobalt metal oxide. This material is expensive, and cells made with it can release oxygen if overcharged. If the cobalt is replaced with iron phosphates, the cells will not burn or release oxygen under any charge. The price premium for early 2007 conventional hybrids is about US$5000, some US$3000 of which is for their NiMH battery packs. At early 2007 gasoline and electricity prices, that would mean a break-even point after six to ten years of operation. The conventional hybrid premium could fall to US$2000 in five years, with US$1200 or more of that being cost of lithium-ion batteries, providing for a three-year payback. The payback period may be longer for plug-in hybrids, because of their larger, more expensive batteries.[74]
Nickel-metal hydride and lithium-ion batteries can be recycled; Toyota, for example, has a recycling program in place under which dealers are paid a US$200 credit for each battery returned.[75] However, plug-in hybrids typically use larger battery packs than comparable conventional hybrids, and thus require more resources. Pacific Gas and Electric Company (PG&E) has suggested that utilities could purchase used batteries for backup and load leveling purposes. They state that while these used batteries may be no longer usable in vehicles, their residual capacity still has significant value.[76] More recently, General Motors (GM) has said it has been "approached by utilities interested in using recycled Volt batteries as a power storage system, a secondary market that could bring down the cost of the Volt and other plug-in vehicles for consumers."[77]
Lithium iron phosphate (LFP) is a kind of cathode material of lithium iron phosphate batteries that is getting attention from the industry. Valence Technologies sells the only large format lithium iron phospate battery currently available. The most important merit of this battery type is safety and high-power. Lithium iron phosphate batteries are one of three major types in LFP family, the other two being nano-phosphate and nano-cocrystalline-olivine.
In France, Électricité de France (EDF) and Toyota are installing recharging points for PHEVs on roads, streets and parking lots.[78] EDF is also partnering with Elektromotive, Ltd.[79] to install 250 new charging points over six months from October 2007 in London and elsewhere in the UK.[80] Recharging points also can be installed for specific uses, as in taxi stands. Project Better Place began in October 2007 and is working with Renault on development of exchangeable batteries (battery swapping).[81]
Ultracapacitors (or "supercapacitors") are used in some plug-in hybrids, such as AFS Trinity's concept prototype, to store rapidly available energy with their high power density, in order to keep batteries within safe resistive heating limits and extend battery life.[22][82] The UltraBattery combines a supercapacitor and a battery in a single unit, creating a hybrid car battery that lasts longer, costs less and is more powerful than current technologies used in plug-in hybrid electric vehicles (PHEVs).[83]
The optimum battery size varies depending on whether the aim is to reduce oil consumption, running costs, or emissions, but a recent study[84] concluded that "The best choice of PHEV battery capacity depends critically on the distance that the vehicle will be driven between charges. Our results suggest that for urban driving conditions and frequent charges every 10 miles or less, a low-capacity PHEV sized with an AER (all electric range) of about 7 miles would be a robust choice for minimizing gasoline consumption, cost, and greenhouse gas emissions. For less frequent charging, every 20-100 miles, PHEVs release fewer GHGs, but HEVs are more cost effective. "
Conversions of production vehicles
Conversion of fossil fuel production vehicles
Retrofit electrification requires only one-fifth the energy required to build a new vehicle. There are several companies that are converting fossil fuel non-hybrid vehicles to plug-in hybrids:[85]
- ConVerdant Vehicles (New Hampshire)
- Efficient Drivetrains Inc (California)
- Electradrive (California)
- EV Power Systems (North Carolina)
- H-Line Conversions (Kansas)
- Hybrid Electric Vehicle Technologies (Illinois)
- Linc Volt (California)
- Partnerships One (New Jersey)
- Poulsen Hybrid (Connecticut
- Rapid Electric Vehicles (Vancouver)
- Re-Involt Hybrid Conversions (N. Carolina)
This section needs expansion. You can help by adding to it. (February 2009) |
Conversions of production hybrids
Aftermarket conversion of an existing production hybrid (a charge-maintaining hybrid) to a plug-in hybrid typically involves increasing the capacity of the vehicle's battery pack and adding an on-board AC-to-DC charger. Ideally, the vehicle's powertrain software would be reprogrammed to make full use of the battery pack's additional energy storage capacity and power output.
Many early plug-in hybrid electric vehicle conversions have been based on the 2004 or later model Toyota Prius.[86] Some of the systems have involved replacement of the vehicle's original NiMH battery pack and its electronic control unit. Others, such as Hymotion, the CalCars Prius+, and the PiPrius, piggyback an additional battery back onto the original battery pack, this is also referred to as Battery Range Extender Modules (BREMs).[87] Within the electric vehicle conversion community this has been referred to as a "hybrid battery pack configuration".[88] Early lead-acid battery conversions by CalCars demonstrated 10 miles (15 km) of EV-only and 20 miles (30 km) of double mileage blended mode range.[32]
EDrive Systems use Valence Technology Li-ion batteries and have a claimed 40 to 50 miles (64 to 80 km) of electric range.[89] Other companies offering plug-in conversions or kits for the Toyota Prius (some of them also for Ford Escape Hybrid) include Hymotion, Hybrids Plus Manzanita Micro and OEMtek BREEZ (PHEV-30).[90] AFS Trinity's XH-150 claims that it has created a functioning plug-in hybrid with a Template:Mile all-electric range and that it has solved the overheating problem that rapid acceleration can cause in PHEVs and extend battery life.[82][22]
The EAA-PHEV project was conceived by CalCars and the Electric Auto Association in October 2005 to accelerate efforts to document existing HEVs and their potential for conversion into PHEVs.[91] It includes a "conversion interest" page.[92] The Electric Auto Association-PHEV "Do-It-Yourself" Open Source community's primary focus is to provide conversion instructions to help guide experienced converters through the process, and to provide a common design that could demonstrate multiple battery technologies. Many members of organizations such as CalCars and the EAA as well as companies like Hybrids Plus, Hybrid Interfaces of Canada, and Manzanita Micro participate in the development of the project.
Plug-In Supply, Inc.[93] of Petaluma, California offers components and assemblies to build the Prius+, the plug-in conversion invented by CalCars.[94] Their lead-acid battery box assembly forms a complete install package, providing access to the spare tire and containing twenty 12 Volt lead-acid batteries and all high voltage components and control electronics. The "PbA Battery Box Assembly" is also available without batteries. It provides about Template:Mile of EV mode range.[95] Conversion time was reduced by Plug-In Supply to one day.
Oemtek offers a Valence powered lithium iron phosphate conversion that should provide Template:Mile of all-electric range.[96] The Motor Industry Research Association has announced a retrofit hybrid conversion kit that provides removable battery packs that plug into a wall outlet for charging.[97] Poulsen Hybrid[98] is developing a conversion kit that will add through-the-road plug-in hybrid capability to conventional vehicles by externally mounting electric motors onto 2 of the wheels.[99]
Advantages
Energy resilience and petroleum displacement
Each kilowatt hour of battery capacity in use will displace up to Template:Gallon of petroleum fuels per year (gasoline or diesel fuels).[100] Also, electricity is multi-sourced and, as a result, it gives the greatest degree of energy resilience.[101]
Fuel efficiency
Claimed fuel economy for PHEVs depends on the amount of driving between recharges. If no gasoline is used the MPG equivalent depends only on the efficiency of the electric system. A 120 km (70 mile) range PHEV-70 may annually require only about 25% as much gasoline as a similarly designed PHEV-0, depending on how it will be driven and the trips for which it will be used.[5] The furthest all-electric range in a PHEV planned for mass production is the PHEV-60 BYD F6e.
A further advantage of PHEVs is that they have potential to be even more efficient than conventional hybrids because a more limited use of the PHEV's internal combustion engine may allow the engine to be used at closer to its maximum efficiency. While a Prius is likely to convert fuel to motive energy on average at about 30% efficiency (well below the engine's 38% peak efficiency) the engine of a PHEV-70 would be likely to operate far more often near its peak efficiency because the batteries can serve the modest power needs at times when the combustion engine would be forced to run well below its peak efficiency.[66] The actual efficiency achieved depends on losses from electricity generation, inversion, battery charging/discharging, the motor controller and motor itself, the way a vehicle is used (its duty cycle), and the opportunities to recharge by connecting to the electrical grid.
The Society of Automotive Engineers (SAE) developed their recommended practice in 1999 for testing and reporting the fuel economy of hybrid vehicles and included language to address PHEVs. An SAE committee is currently working to review procedures for testing and reporting the fuel economy of PHEVs.[102] The Toronto Atmospheric Fund tested ten retrofitted plug-in hybrid vehicles that achieved an average of 5.8 litres per 100 kilometre or 40.6 miles per gallon over six months in 2008, which was considered below the technology's potential.[103]
In "real world" testing using normal drivers, some Prius PHEV conversions may not achieve much better fuel economy than HEVs. For example, a plug-in Prius fleet, each with a 30 mile all-electric range, averaged only 51 mpg in a 17,000 mile test in Seattle,[104] and similar results with the same kind of conversion battery models at Google.org. Moreover, the additional battery pack costs $10,000-11,000.[105][106]
Greenhouse gas emissions
Another advantage of PHEV adoption is a predicted reduction in carbon emissions. Increased drivetrain efficiency results in significant reduction of greenhouse gas emissions, even taking into account energy lost to inefficiency in the production and distribution of grid power and charging of batteries. A study by the American Council for an Energy Efficient Economy (ACEEE) predicts that, on average, a typical American driver is expected to achieve about a 15% reduction in net CO2 emissions compared to the driver of a regular hybrid, based on the 2005 distribution of power sources feeding the U.S. electrical grid.[107] The ACEEE study also predicts that in areas where more than 80% of grid-power comes from coal-burning power plants, local net CO2 emissions will increase,[107] while for PHEVs recharged in areas where the grid is fed by power sources with lower CO2 emissions than the current average, net CO2 emissions associated with PHEVs will decrease correspondingly.
A late 2008 study at Duke University suggests that for PHEV's to reduce greenhouse gas emissions more than hybrids a carbon pricing signal that encourages the development of low carbon power is needed.[108] The RAND Corporation also in 2008 studied the questions of a carbon tax, carbon cap and trade systems, increasing gasoline tax, and providing renewable energy subsidies under various economic conditions and vehicle type availabilities. RAND found that subsidies were able to provide a smoother transition to new energy sources, especially in the face of energy source price volatility, because subsidies can be structured according to relative costs between renewables and fossil fuel, while taxes and carbon trading schemes alone do not take relative prices of energy into account.[109]
A large-scale June 2007 joint study by the Electric Power Research Institute (EPRI) and the Natural Resources Defense Council (NRDC) similarly found that the introduction of PHEVs into America’s consumer vehicle fleet could achieve significant greenhouse gas emission reductions.[110] The EPRI-NRDC report estimates that, between 2010 and 2050, a shift toward PHEV use could reduce GHG emissions by 3.4 to 10.4 billion metric tons. The magnitude of these reductions would ultimately depend on the level of PHEV market penetration and the carbon intensity of the US electricity sector. In general, PHEVs can be viewed as an element in the "Pacala and Socolow wedges" approach which shows a way to stabilize CO2 emissions using a portfolio of existing techniques, including efficient vehicles.
GM Vice Chairman Bob Lutz has said the Chevy Volt will emit 40 grams of carbon dioxide per kilometer. That is well below the proposed European Union emission standards of 120–130 g/km.[111]
Martin Eberhard, who co-founded pure electric vehicle maker Tesla Motors, says "if you do the math, you´ll find that an electric car, even if you use coal to make electricity, produces less pollution per mile than burning gasoline in the best gasoline-powered car."[112] The Minnesota Pollution Control Agency found that if Minnesota's fleet of vehicles making lengthy trips were replaced by plug-in hybrids, CO2 emissions per vehicle would likely decrease. However, unless more than 40% of the electricity used to charge the vehicles were to come from non-polluting sources, replacing the vehicles with non plug-in hybrids would engender a larger decrease in CO2 emissions.[113] Plug-in hybrids use less fuel in all cases, and produce much less carbon dioxide in short commuter trips, which is how most vehicles are used. The difference is such that overall carbon emissions would decrease if all internal combustion vehicles were converted to plug-ins.[114]
Operating costs
A 2006 research estimate in California found that the operating costs of plug-ins charged at night was equivalent to US$0.75 per U.S. gallon (3.8 L) of gasoline.[1] The cost of electricity for a Prius PHEV is about US$0.03 per mile (US$0.019 per km), based on Template:KWh/mile and a cost of electricity of US$0.10 per kilowatt hour.[115][116] During 2008, government and industry researchers tried to determine the optimum all-electric range.[117]
Range anxiety elimination
PHEVs, compared with all-electric vehicles, are a method of eliminating "range anxiety" (as is the use of a generator trailer[118]), giving the confidence and peace of mind that the driver will not be stranded by a depleted battery.[119]
Smog
The Ontario Medical Association announced that smog is responsible for an estimated 9,500 premature deaths in its province every year.[120] Plug-in hybrids in emission-free electric mode may contribute to the reduction of smog.[103]
Vehicle-to-grid electricity
PHEVs and fully electric cars may allow for more efficient use of existing electric production capacity, much of which sits idle as operating reserve most of the time. This assumes that vehicles are charged primarily during off peak periods (i.e., at night), or equipped with technology to shut off charging during periods of peak demand. Another advantage of a plug-in vehicle is their potential ability to load balance or help the grid during peak loads. This is accomplished with vehicle to grid technology. By using excess battery capacity to send power back into the grid and then recharge during off peak times using cheaper power, such vehicles are actually advantageous to utilities as well as their owners. Even if such vehicles just led to an increase in the use of night time electricity they would even out electricity demand which is typically higher in the day time, and provide a greater return on capital for electricity infrastructure.[26]
In October 2005, five Toyota engineers and one Asian AW engineer published an IEEE technical paper detailing a Toyota-approved project to add vehicle-to-grid capability to a Toyota Prius.[121] Although the technical paper described "a method for generating voltage between respective lines of neutral points in the generator and motor of the THS-II (Toyota Hybrid System) to add a function for generating electricity", it did not state whether or not the experimental vehicle could be charged through the circuit, as well. However, the vehicle was featured in a Toyota Dream House, and a brochure for the exhibit stated that "the house can supply electricity to the battery packs of the vehicles via the stand in the middle of the garage", indicating that the vehicle may have been a plug-in hybrid.[122]
In November 2005, more than 50 leaders from public power utility companies across the United States met at the Los Angeles Department of Water and Power headquarters to discuss plug-in hybrid and vehicle-to-grid technology. The event, which was sponsored by the American Public Power Association, also provided an opportunity for association members to plan strategies that public power utility companies could use to promote plug-in hybrid technology. Greg Hanssen and Peter Nortman of EnergyCS[123] and EDrive[124] attended the two-day session, and during a break in the proceedings, made an impromptu display in the LADWP parking lot of their converted Prius plug-in hybrid.[125]
In September 2006, the California Air Resources Board held a Zero Emission Vehicle symposium that included several presentations on V2G technology.[126] In April 2007, Pacific Gas and Electric showcased a PHEV at the Silicon Valley Leadership Alternative Energy Solutions Summit with vehicle-to-grid capability, and demonstrated that it could be used as a source of emergency home power in the event of an electrical power failure.[127] Regulations intended to protect electricians against power other than from grid sources would need to be changed, or regulations requiring consumers to disconnect from the grid when connected to non-grid sources will be required before such backup power solutions would be feasible.[128]
Federal Energy Regulatory Commissioner Jon Wellinghoff coined the term "Cash-Back Hybrids" to describe payments to car owners for putting their batteries on the power grid. Batteries could also be offered in low-cost leasing or renting or by donation (including maintenance) to the car owners by the public utilities, in a vehicle-to-grid agreement.[129]
Disadvantages
Cost, weight, size, and disposal of batteries
Disadvantages of plug-in hybrids include the additional cost, weight, and size of a larger battery pack. The dual drive train may also require additional resources, but the total resource cost of hybrid vehicles is expected to continue to fall.[130]
General Motors may allow buyers of its Chevy Volt electric car to rent the vehicle's battery, offsetting some cost.[131] Also used PHEV batteries can be sold to electric utilities to be employed at electrical substations.[76][132] Not everyone will be able to lease or sell their battery packs, but the economics are changing with oil price increases since 2003.
Other companies are working on battery lease plans. Think Car USA plans to lease the batteries for its City electric car to go on sale next year. Project Better Place is trying to create a system for consumers to "subscribe" to a service that offers recharging stations and battery exchange.[133]
Lithium iron phosphate batteries from Valence Technologies[134] were used in the first plug-in hybrids from the California Cars Initiative[135] are providing a conversion for the Toyota Prius priced at $12,000. Hymotion also offers a conversion for USD $10,000 but their conversion is only 5KW where Oemtek's is 9KW.[136]
Electrical outlets outside garages
Many people living in apartments, condominiums, and townhouses do not have garages. With only on-street parking available, they will need access to electrical outlets to take advantage of all-electric operation. New electrical outlets near their places of residence, or in commercial or public parking lots or streets will need to be installed for them to gain the full advantage of PHEVs.[137]
Emissions shifted to electric plants
Increased pollution is expected to occur in some areas with the adoption of PHEVs, but most areas will experience a decrease.[114] A study by the ACEEE predicts that widespread PHEV use in heavily coal-dependent areas would result in an increase in local net sulfur dioxide and mercury emissions, given emissions levels from most coal plants currently supplying power to the grid.[138] Although clean coal technologies could create power plants which supply grid power from coal without emitting significant amounts of such pollutants, the higher cost of the application of these technologies may increase the price of coal-generated electricity. The net effect on pollution is dependent on the fuel source of the electrical grid (fossil or renewable, for example) and the pollution profile of the power plants themselves. Identifying, regulating and upgrading single point pollution source such as a power plant—or replacing a plant altogether—may also be more practical. From a human health perspective, shifting pollution away from large urban areas may be considered a significant advantage.[139]
Tiered rate structure for electric bills
Electric utility companies generally do not utilize flat rate pricing. For example, Pacific Gas and Electric (PG&E) normally charges $0.10 per kilowatt-hour (kWh) for the base tier, but additional tiers are priced as high as $0.30 per kWh to customers without electric vehicles.[140][141] Some utilities offer electric vehicle users a rate tariff that provides discounts for off-peak usage, such as overnight recharging. PG&E offers a special, discounted rate for plug-in and other electric vehicle customers, the "Experimental Time-of-Use Low Emission Vehicle rate."[142] That tariff gives people much cheaper rates if they charge at night, especially during the summer months.
The additional electrical utilization required to recharge the plug-in vehicles could push many households in areas that do not have off-peak tariffs into the higher priced tier and negate financial benefits.[143] Without an off-peak charging tariff, one study of a certain PHEV-20 model having an all-electric range of 20 miles, gasoline-fueled efficiency of 52.7 miles/gallon, and all-electric efficiency of 4 miles/kWh, found that household electricity customers who consumed 131%–200% of baseline electricity at $0.220 per kWh would see benefits if gasoline was priced above $2.89 (USD/gal); those that consumed 201%–300% of baseline electricity at $0.303 per kWh would only see benefits if gas was priced above $3.98; and households consuming over 300% of baseline electricity at $0.346 per kWh would only see benefits if gasoline was priced above $4.55 (USD/gal.)[144] Off-peak tariff rates can lower the break-even point. The PG&E tariff would change those break-even gasoline prices to USD $1.96, $3.17 and $3.80 per gallon, respectively, for the given PHEV and usage pattern in question.
Customers under such tariffs could see significant savings by being careful about when the vehicle was charged, for example, by using a timer to restrict charging to off-peak hours. Thus, an accurate comparison of the benefit requires each household to evaluate its current electrical usage tier and tariffs weighed against the cost of gasoline and the actual observed operational cost of electric mode vehicle operation.
Production and commercialization
Current production models
In December 2008, BYD Auto started selling the world's first mass-produced plug-in hybrid vehicle, the BYD F3DM, produced for the domestic Chinese market.
In the United States, the Toyota Prius can now be commercially converted (using aftermarket kits and tax incentives) to a plug-in hybrid by CalCars and a number of third-party companies.[145]
On a smaller scale, PHEVs have been sold as commercial passenger vans,[146] utility trucks,[147][148] general and school buses,[149][150] motorcycles,[151] scooters,[152] and military vehicles.[153] Hybrid Electric Vehicle Technologies, Inc converts diesel buses to plug-in hybrids, under contract for the Chicago Transit Authority. Fisher Coachworks is developing a plug-in hybrid, the Fisher GTB-40, which is expected to get about Template:Mpg to Template:Mpg, about twice the mileage of a regular hybrid electric bus.[154]
Future production
At least fourteen car companies of all sizes are exploring or planning to offer a plug-in,[155] including a modular kit car model (XR-3 Hybrid).[156] General Motors is planning to sell a PHEV version of the Saturn Vue SUV in 2010, and the Chevrolet Volt PHEV in 2011. The Envi division of Chrysler has announced five different electric models, with one expected to be for sale by 2010, and three by 2013.[157]
Government support and public deployment
It's spectacular what is being done now with plug-in hybrids
Plug-in hybrids were mentioned as an area of research in President George W. Bush's advanced energy initiative and mentioned in his 2007 State of the Union Address. Incentives for the development of PHEVs are included in the Energy Independence and Security Act of 2007.[158] The Energy Improvement and Extension Act of 2008, signed into law on October 3, 2008, grants a tax break of $2,500 to $7,500 per car for manufacturers of up to 250,000 plug-in hybrid vehicles. President Barack Obama's New Energy For America calls for deployment of 1 million plug-in hybrid vehicles by 2015,[159] and on March 19, 2009, he announced programs directing $2.4 billion to electric vehicle development.[160]
The American Recovery and Reinvestment Act of 2009[161] modifies the tax credits, including new one for plug-in electric drive conversion kits and for 2 or 3 wheel vehicles.[162] The ultimate total included in the Act that is going to PHEVs is over $6 billion.[163] However the production phase-out trigger is decreased from 250,000 to 200,000 units (but instead of one 250,000 units pot of money shared by all carmakers, 200,000 units sizable funds are created for every carmaker), credits for vehicles over Template:Pounds GVWR are eliminated (by redefining PHEVs to be less than this GVWR), and the maximum credit for vehicles between 10,000 and 14,000 lbs. GVWR is reduced from $10,000 to $7,500. The battery capacity window of 4-16 kWh is maintained, but vehicles between 4-5 kWh battery capacity only receive the minimum credit of $2,500.[164] The battery capacity shift may be an attempt to include the Chevy Volt while limiting the credit available to low all-electric range plug-in models of the Toyota Prius.
In March 2009, as part of the American Recovery and Reinvestment Act, the U.S. Department of Energy announced the release of two competitive solicitations for up to $2 billion in federal funding for competitively awarded cost-shared agreements for manufacturing of advanced batteries and related drive components as well as up to $400 million for transportation electrification demonstration and deployment projects. This announcement will also help meet the President Barack Obama's goal of putting one million plug-in hybrid vehicles on the road by 2015.[165]
Public deployments also include:
- USDOE's FreedomCAR. U.S. Department of Energy announced it would dole out $30 million in funding to three companies over three years to further the development of plug-in hybrids[166]
- USDOE announced the selection of Navistar Corporation for a cost-shared award of up to $10 million to develop, test, and deploy plug-in hybrid electric (PHEV) school buses. [167]
- DOE and Sweden have a MOU to advance market integration of plug-in hybrid vehicles[168]
- PHEV Research Center
- San Francisco Mayor Gavin Newsom, San Jose Mayor Chuck Reed and Oakland, California Mayor Ron Dellums announced a nine-step policy plan for transforming the Bay Area into the "Electric Vehicle (EV) Capital of the U.S."[169] and of the world [170] There are partnerships with Coulomb, Better Place and others are also advancing. The first charging stations went up in San Jose [170] (more information in Plug-in hybrids in California).
- Washington State PHEV Pilot Project[171]
- Texas Governor Rick Perry's proposal for a state $5,000 tax credit for PHEVs in "non-attainment" communities
- Seattle, that includes City's public fleet converted vehicles, the Port of Seattle, King County and the Puget Sound Clean Air Agency[172]
- City of Toronto[173]
- Gordon Brown said that renewables will supply 15 per cent of the UK's energy mix by 2020 and emphasised the role that electric and plug-in hybrid cars will play as part of the government's carbon reduction strategy.[174]
- The French government kicked in $550M and sponsors partnership by Électricité de France with Renault-Nissan and with PSA Peugeot Citroen.[175]
GM's roadmap for plug-in ready communities includes: consumer incentives to make this early technology more affordable; public and workplace charging infrastructure; consumer-friendly electricity rates and renewable electricity options; government and corporate vehicle purchases; supportive permitting and codes for vehicle charging; and other incentives such as high-occupancy-vehicle (HOV) lanes access[176]
Supportive organizations
Organizations that support plug-in hybrids include the World Wide Fund for Nature, its International Director General James Leape remarked, "the cars of the future ... should, increasingly, be powered by electricity."[177]
Also National Wildlife Federation has done a strong endorsement of PHEVs. [178]
CalCars[179] (with their PHEV news service and "What car makers are saying about PHEVs") is dedicated only to the PHEV and has proposed a Prepayment Plan, where buyers would pay $1,000 to reserve a plug-in car and the federal government would match each payment with $9,000, all of which would go to carmakers.[180] CalCars is also promoting public funds for conversion of internal combustion engines to plug-in vehicles.[181]
Other supportive organizations are Plug In America, the Alliance for Climate Protection, Friends of the Earth, the Rainforest Action Network, Rocky Mountain Institute (Project Get Ready),[182] the San Francisco Bay Area Council,[169] the Apollo Alliance, the Set America Free Coalition,[183] the Silicon Valley Leadership Group, the Plug-in Hybrid Development Consortium,[184] the Plug-in Hybrid Electric School Bus Project,[185] Plug-In Partners,[186] Advanced Vehicle Innovations,[187] and NC Public Power.[188]
Supportive celebrities
Battery technology
Some battery formats and chemistries (NiMH batteries) suitable for use in PHEVs are tightly patented and have not been licensed for use by PHEV manufacturers, thereby slowing the development of new models. In any case, other NiMH[citation needed] and lithium ion-based batteries can be used instead.
See also
- Advanced Technology Vehicles Manufacturing Loan Program
- Alternative fuel vehicle
- Automotive industry crisis of 2008
- CalCars
- Cleanova (a Kangoo derivative)
- Clean Energy Bank
- Electric transportation technology
- FreedomCAR
- Fuel economy-maximizing behaviors
- Funding Opportunity Announcement
- Genset trailer
- Glossary of automotive design
- Hybrid tax credit
- Hypercar
- Inductive charging
- Low-carbon fuel standard
- Low-energy vehicle
- Mitigation of global warming
- Paul Werbos
- Plug In America
- PHEV Center
References
- ^ a b Frank, A., et al., "What are Plug-In Hybrids?" Team Fate (University of California, Davis) Retrieved August 7, 2007; earlier version
- ^ Archer, David (2005), "Fate of fossil fuel CO
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{{cite web}}
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(help); Unknown parameter|dateformat=
ignored (help) - ^ Green Car Congress: EPRI, Ford and Eaton Developing Plug-in Hybrid Utility Trouble Truck. Retrieved April 23, 2007.
- ^ Odyne Corporation press release: Odyne Corp. Announces Exclusive Agreement with Dueco, Inc.
- ^ "Florida Plug-In Hybrid School Buses to Go into Service". Retrieved April 22, 2007.
- ^ UNEP news about plug-in school buses
- ^ Enertia Bike
- ^ Green Car Congress: Piaggio Launches Two Plug-In Hybrid Vespa Scooters. Retrieved April 28, 2007.
- ^ Signal - AFCEA's International Journal "Hybrid Vehicle Cruises for Battle". Retrieved April 23, 2007.
- ^ Hybrids by Fisher: Buses would double mpg. Retrieved August 18, 2008.
- ^ CalCars (2008) "How Carmakers are Responding to the Plug-In Hybrid Opportunity" calcars.org. Retrieved January 22, 2008.
- ^ XR3 Hybrid: Personal Mobility Vehicle (PMV) Automotive Prototype Project
- ^ "Innovation – ENVI". Chrysler LLC. 2008-09-22. Retrieved 2009-04-11.
- ^ Evarts, E. (January 11, 2008) "Charge! Fuel economy law promotes plug-in hybrids," Consumer Reports Cars Blog. Retrieved January 15, 2008.
- ^ "Barack Obama and Joe Biden: The Change We Need | New Energy for America". My.barackobama.com. 2008-06-22. Retrieved 2009-04-11.
- ^ President Obama Announces $2.4 Billion for Electric Vehicles
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- ^ "Conference Results: Stunning Expansion of Plug-In Tax Credits". Calcars.org. 2009-02-12. Retrieved 2009-04-11.
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- ^ ; see Part V on pages 212-219, of the signed bill text
- ^ "EERE News: President Obama Announces $2.4 Billion for Electric Vehicles". Apps1.eere.energy.gov. 2009-03-19. Retrieved 2009-04-11.
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- ^ Department of Energy and Sweden Sign MOU to Advance Market Integration of Plug-in Hybrid Vehicles
- ^ a b San Francisco Office of the Mayor (November 20, 2008) "Mayors Aim to Make San Francisco Bay Area the Electric Vehicle Capital of the U.S." sfgov.org
- ^ a b "SF Plug-In Vehicle Bonanza:Watch Video, Read About It". Calcars.org. Retrieved 2009-04-11.
- ^ Climate Change - What are we doing about it in Washington State? - Electrify Transportation
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- ^ City of Toronto: Fleet Services - Information on our Green vehicles
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- ^ Plug In Hybrid Electric Vehicle Consortium-PHEV Development
- ^ Plug-in Hybrid Electric School Bus
- ^ Plug-In Partners
- ^ PlugInCenter.com - Advanced Vehicle Initiative
- ^ NC Public Power Plug-In Hybrid Electric Vehicle
External links
- How Plug-In Hybrid Cars Work at HowStuffWorks
- U.S. Office of Energy Efficiency and Renewable Energy
- "Plugging into the Grid" by Joseph Romm and Peter Fox-Penner in the Progressive Policy Institute's March 2007 newsletter, explaining how PHEVs can help "break America's oil addiction and slow global warming"
- Energy Storage and Transportation - Idaho National Laboratory
Conferences and events
- Upcoming
- Hybridfest Green Drive Expo: July 18-19, 2009, Madison, Wisconsin
- Plug-in 2009: August 10-13, 2009, Long Beach, California
- The Business of Plugging In 2009: October 19-21, 2009, Detroit, Michigan
- Past
- Plug-In Electric Vehicles 2008 by The Brookings Institution and Google.org.
- HYBRIDFEST: July 19–20, 2008, Madison, WI
- Plug-in 2008: July 22–24, 2008, San Jose, California
- BEYOND OIL, Transforming Transportation:September 4–5, 2008, in Redmond, Washington. Fifth Annual Cascadia-Microsoft Conference on Transportation Technology, co-sponsored by Microsoft, the U.S. Department of Transportation, the Idaho National Laboratory, PEMCO, Washington DOT and the Puget Sound Clean Air Agency.
- TECHKNOWFORUM: Plug-In Hybrids & the Smart Grid: October 23, 2008, Ann Arbor, Michigan
News
- "High-tech vehicles growing more common in region: Plug-in cars give owners a real jolt of satisfaction" (Seattle Post-Intelligencer, September 9, 2008)
- "The Plug-in Revolution :A grand plan for America’s energy woes" (Washington Monthly, October 2008)
Video
- Boschert, S. (March 12, 2007) "Plug-In Hybrids" Corte Madera, California: fora.tv
- Ford Escape plug-in hybrid electric sport utility vehicle (Ford Environmental, January 5, 2008)
- New Chevy Volt exterior wind tunnel testing (April 2008)
- The Race For The Electric Car (60 Minutes, CBS News, October 6, 2008)
- Daimler VideoCast: The new Sprinter Plug-In-Hybrid commercial van (19 February 2009)