Fuel Prices

U.S. Gasoline and Diesel Fuel Prices, 06/16/08
Gasoline (Cents per Gallon)				Diesel Fuel (Cents per Gallon)
06/16/08		Change from		06/16/08		Change from
	Price	Week Ago	Year Ago		Price	Week Ago	Year Ago
U.S.	408.2	4.3	107.3	U.S.	469.2	0.0	188.7
East Coast	405.2	3.3	107.6	East Coast	475.2	0.9	195.2
New England	413.1	4.2	111.1	New England	485.3	1.9	197.6
Central Atlantic	410.3	4.5	108.9	Central Atlantic	487.4	-0.5	200.5
Lower Atlantic	399.0	2.1	105.6	Lower Atlantic	469.0	1.3	192.6
Midwest	399.7	1.5	101.3	Midwest	461.8	0.3	184.4
Gulf Coast	393.7	2.8	103.4	Gulf Coast	465.6	-0.2	190.3
Rocky Mountain	399.4	5.3	81.3	Rocky Mountain	468.5	-1.3	177.8
West Coast	445.2	12.7	126.4	West Coast	485.2	-2.2	189.4
California	458.8	15.5	135.2	California	496.9	-2.3	193.6

In the United States Gasoline is one of the major fuels consumed and the main product refined from crude oil. Consumption in 2007 was about 142 billion gallons. American's as a whole average about 390 million gallons per day . 61% of all the energy used for transportation

While gasoline is produced year-round, extra volumes are made and imported to meet higher demand in the summer. Gasoline is delivered from oil refineries mainly through pipelines to an extensive distribution chain serving about 167,500 retail gasoline stations in the United States.

Energy Information Administration

Honda's FCX Clarity -Hydrogen Fuel Celled

Honda's new zero-emission, hydrogen fuel celled FCX Clarity rolled off a Japanese production line and is headed to southern California, where Hollywood is already abuzz over the latest splash in green motoring.



The biggest obstacles standing in the way of wider adoption of fuel cell vehicles are cost and the dearth of hydrogen fuel stations. For the Clarity's release in California, Honda said it received 50,000 applications through its Web site but considered only buyers living near hydrogen fuel stations in Torrance, Santa Monica and Irvine.

Although Honda Motor Co. (HMC) was the first Japanese automaker to launch a gas-electric hybrid vehicle in the U.S. in 1999, it has been outpaced by the dominance of Toyota's (TM) popular Prius.

Toyota announced in May that it has sold more than 1 million Prius hybrids, while both the Honda Insight and the hybrid Accord have been discontinued due to poor sales.

The FCX Clarity is part of Honda's plan to keep pace with rivals in green technology. It also plans to launch a gas-electric hybrid-only model, as well as hybrid versions of the Civic, the sporty CR-Z and Fit subcompact.

The Fuel Cell

Fuel cells produce electricity that can be used as a clean alternative
to gasoline. The fuel cell stack in the FCX Clarity converts hydrogen
(H₂) and oxygen (O₂) into electricity.

FCX Clarity is powered by an electric motor. The car you drove to
work today is probably powered by an engine. The big
difference is that the motor in the FCX Clarity gets its
energy from electricity, instead of from gasoline like most
cars today. So while the FCX Clarity has the power of an engine,
it also offers the uniquely clean, quiet ride of a motor.

Auxiliary regenerated energy is supplied by a lithium-ion battery pack, increasing the vehicle’s efficiency and range.

All of the advanced components in the FCX Clarity have been fine-tuned for ultimate performance in this Zero-Emission Vehicle (ZEV) of the very near future.

Honda has developed a compact lithium-ion battery that serves as a supplemental power source in the FCX Clarity.

The FCX Clarity, which runs on hydrogen and electricity, emits only water and none of the gases believed to induce global warming. It is also two times more energy efficient than a gas-electric hybrid and three times that of a standard gasoline-powered car, the company says.

While electric vehicles are powered by a battery alone and must be plugged in to recharge, hybrid vehicles combine a gasoline-powered engine with an electric motor. You fill hybrid vehicles up with regular gasoline and they do not need to be plugged in. A fuel cell vehicle does not need to be plugged in to recharge and it does not use gasoline.

Fuel cell vehicles are powered by electricity generated onboard by combining hydrogen with oxygen by the fuel cell stack. From tank to wheel, the FCX Clarity is twice as efficient as a hybrid-electric vehicle and three times more efficient than a conventional gasoline vehicle.

Today, automakers are more concerned than ever about finding solutions to the problems of air quality and climate change, and Honda is leading the way. The California Air Resources Board (CARB) has a Web site with information about various incentives and initiatives in this important area: http://www.driveclean.ca.gov/en/gv/home/index.asp

Honda.com

Plug In Vehicles

What is a plug-in hybrid electric vehicle?

Schematic of a Plug-in Hybrid Vehicle (Source: National Renewable Energy Laboratory)

Plug-in hybrid electric vehicles (PHEVs) can be charged with electricity like pure electric vehicles and run under engine power like hybrid electric vehicles. The combination offers increased driving range with potentially large fuel and cost savings, emissions reductions, and other benefits.

Plug-in hybrid electric vehicles currently do not qualify as alternative fuel vehicles under the Energy Policy Act of 1992. However, they do qualify for incentives.


Like hybrid electric vehicles, PHEVs are powered by two energy sources—an energy conversion unit (such as an internal combustion engine or fuel cell) and an energy storage device (usually batteries). The energy conversion unit can be powered by gasoline, diesel, compressed natural gas, hydrogen, or other fuels. The batteries can be charged by plugging into a standard 110-volt electrical outlet—a capability conventional hybrid electric vehicles do not have—in addition to being charged by the energy conversion unit when needed. Plug-in hybrid electric vehicles have a larger battery pack than conventional hybrid electric vehicles.


Electricity typically costs much less than gasoline or diesel fuels. Because PHEVs use electric power much of the time, and the batteries are recharged by plugging into the electrical grid, they can significantly reduce fuel use and costs.

Plug-in hybrid electric vehicles are highly efficient—requiring little petroleum-based fuel to drive—and can use electricity derived from domestic fossil fuel, nuclear, and renewable sources. PHEVs also could be designed to use renewable and domestically produced alternative fuels instead of gasoline or diesel, further reducing U.S. reliance on imported petroleum.
Protecting Public Health and the Environment




Drivers can achieve 100+ MPG in a with a plug-in hybrid (PHEV). A PHEV is essentially a regular hybrid with an extension cord. You can fill it up at the gas station, and you can plug it in to any 120-volt outlet. It's like having a second fuel tank that you always use first -- only you fill up at home, from a regular outlet, at an equivalent cost of under $1/gallon.

You don't have to plug it in. But when you do, your car essentially becomes an electric vehicle with a gas-tank backup. So you'll have a cleaner, cheaper, quieter car for your local travel, and the gas tank is always there should you need to drive longer distances.


* If your driving is mostly local, you'd almost never need to gas-up.
* Lifetime service costs are lower for a vehicle that is mainly electric.
* A PHEV can provide power to an entire home in the case of an outage; A fleet of PHEVs could power critical systems during emergencies.



Only PHEVs and battery EVs get cleaner as they get older - because the electric grid gets cleaner every decade.

PHEVs Are Cheaper to Run and Cheaper to Maintain .With a PHEV, your electric local travel drops to as little as 2-4 cents/mile.
We say above that you can fill up your "electric tank" for less than $1/gallon.

PHEVs are meant to plug-in at night. In many areas of the country, overnight power is available at a lower cost. PHEVs will generally recharge at night using excess power from plants that can't shut down completely -- so they don't add to the peak load.


Plug-ins cost more mainly because batteries are expensive. But battery technology is improving steadily (especially lithium-ion, with nano-technology versions also looking promising), and in large quantities current options are acceptable.

EERE-Us Department of Energy

Compare The 2008 Hybrid Cars

Carbon Footprint (tons/yr of CO2) Air Pollution Score All states except CA and NE states Annual Fuel Cost Model city hwy Toyota Prius 4 cyl, 1.5 L, Automatic (variable gear ratios), HEV, Regular 4.0 48 city 45 hwy $1282 Honda Civic Hybrid 4 cyl, 1.3 L, Automatic (variable gear ratios), HEV, Regular 4.4 40 city 45 hwy $1407 Nissan Altima Hybrid 4 cyl, 2.5 L, Automatic (variable gear ratios), HEV, Regular 5.4 NA 35 city 33 hwy $1738 Ford Escape Hybrid FWD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 5.7 34 city 30 hwy $1850 Mazda Tribute Hybrid 2WD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 5.7 34 city 30 hwy $1850 Mercury Mariner Hybrid FWD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 5.7 34 city 30 hwy $1850 Toyota Camry Hybrid 4 cyl, 2.4 L, Automatic (variable gear ratios), HEV, Regular 5.4 33 city 34 hwy $1738 Ford Escape Hybrid 4WD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 6.6 29 city 27 hwy $2110 Mazda Tribute Hybrid 4WD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 6.6 29 city 27 hwy $2110 Mercury Mariner Hybrid 4WD 4 cyl, 2.3 L, Automatic (variable gear ratios), Regular 6.6 29 city 27 hwy $2110 Toyota Highlander Hybrid 4WD 6 cyl, 3.3 L, Automatic (variable gear ratios), HEV, Regular 7.1 27 city 25 hwy $2275 Lexus RX 400h 2WD 6 cyl, 3.3 L, Automatic (variable gear ratios), HEV, Premium 7.3 27 city 24 hwy $2496 Lexus RX 400h 4WD 6 cyl, 3.3 L, Automatic (variable gear ratios), HEV, Premium 7.3 26 city 24 hwy $2496 Saturn Vue Hybrid 4 cyl, 2.4 L, Automatic 4-spd, Regular 6.6 25 city 32 hwy $2110 Chevrolet Malibu Hybrid 4 cyl, 2.4 L, Automatic 4-spd, Regular 6.8 24 city 32 hwy $2187 Saturn Aura Hybrid 4 cyl, 2.4 L, Automatic 4-spd, Regular 6.8 24 city 32 hwy $2187 Lexus GS 450h 6 cyl, 3.5 L, Automatic (S6), HEV, Premium 8.0 22 city 25 hwy $2714 Chevrolet Tahoe Hybrid 2WD 8 cyl, 6 L, Automatic (variable gear ratios), Regular 8.7 21 city 22 hwy $2813 GMC Yukon 1500 Hybrid 2WD 8 cyl, 6 L, Automatic (variable gear ratios), Regular 8.7 21 city 22 hwy $2813 Lexus LS 600h L 8 cyl, 5 L, Automatic (S8), HEV, Premium 8.7 20 city 22 hwy $2970 Chevrolet Tahoe Hybrid 4WD 8 cyl, 6 L, Automatic (variable gear ratios), Regular 9.2 20 city 20 hwy $2955 GMC Yukon 1500 Hybrid 4WD 8 cyl, 6 L, Automatic (variable gear ratios), Regular 9.2 20 city 20 hwy $2955

* Based on 45% highway driving, 55% city driving, 15000 annual miles and the price of fuel used by the vehicle. You may customize these values to reflect the price of fuel in your area and your own driving patterns. The carbon footprint measures greenhouse gas emissions expressed in CO2 equivalents. The estimates presented here are "full fuel-cycle estimates" and include the three major greenhouse gases emitted by motor vehicles: carbon dioxide, nitrous oxide, and methane. Full fuel-cycle estimates consider all steps in the use of a fuel, from production and refining to distribution and final use. Vehicle manufacture is excluded. (U.S. Department of Energy, GREET Model 1.7, Argonne National Laboratory)