300 miles per gallon car.

[danwilson]

Who thinks it will ever happen.

http://www.sustainer.org/dhm_archive/index.php?display_article=vn560supercared

A Thousand Miles Per Gallon

A year ago, with considerable fanfare, President Clinton entered into an agreement with the Big Three U.S. automakers to develop within ten years cars that can double or triple the 30 miles per gallon that the average new American car gets now. In fact many auto companies have had for years demonstration models that get 60-100 miles to the gallon.

Even 100 mpg is nothing, though, compared to what is possible. I used to listen with amazement when engineers claimed they could get 120-130 mpg. Then my friend Amory Lovins, the energy-efficiency guru of Rocky Mountain Institute, turned his attention from saving electricity to saving gas.

Amory started talking about 150 miles per gallon. That number crept up to 200. Now he's confident of 300 mpg, he's done calculations that yield 600, and on his expansive days, he stuns his own staff by mentioning 1000. One thousand miles per gallon of gas! OK, maybe only 600, or 300. Ten times what we get now, as a conservative estimate! And he's not talking puny jazzed-up bicycles, or hi-tech jewels made of rare metals. He's talking safe, peppy, comfortable, quiet, beautiful, affordable family cars.

They are, however, a wholly different kind of car.

In today's most efficient cars, only 15-20 percent of the energy in the gas gets to the wheels. Only about 2 percent actually moves the driver; the rest hauls the ton of metal around the driver. Because of that ton of metal, engines have to be enormous. The key to the Supercar is to make it 1) much lighter and 2) much more aerodynamic, which would then allow it to have 3) a much smaller, more efficient engine.

The lightness comes from getting rid of the steel. The Supercar will be made of composite materials -- carbon-fiber, fiberglas, and plastic specially designed to absorb far more crash energy per pound than metal. You've watched these materials at work if you've ever seen an Indy-500 driver hit a wall at 200 mph and walk away. Race cars are made of carbon-fiber. This material can be reclaimed and recycled, by the way, and it doesn't rust.

It's surprising how much can still be gained from better aerodynamics, given how old that idea is. Lovins estimates that cars could be made two to six times as slippery as they are now (in terms of energy lost to air drag) by, for instance, reducing the frontal area and making the underside as smooth as the top.

A lighter, sleeker car can have a lighter suspension and needs to carry less fuel. It puts less weight on the tires, so it loses less energy to road friction. It needs a much smaller engine.

The Supercar engine will be "hybrid-electric." That does not mean toting around heavy batteries and plugging in every night. (Electric cars, labelled "zero-emission vehicles" in California, are in fact "elsewhere-emission vehicles," because they draw from coal-burning or nuclear power plants somewhere.) Instead, the hybrid-electric car will carry fuel to make its own electricity on board. It will recapture about 70 percent of the energy lost in braking by means of a small battery or a flywheel, which can deliver extra push for acceleration and hill-climbing. Says Lovins, "With its power so boosted, the engine needs to handle only the average load, not the peak load, so it can shrink to about a tenth the normal size. It would run very near its optimal point, doubling its efficiency, and turn off whenever it's not needed."

Such an engine could run on any fuel, from gasoline or natural gas to solar-generated hydrogen.

Except for that last bit about hydrogen, none of these ideas -- composite body, advanced aerodynamics, hybrid-electric engine -- is impossibly futuristic. Each one is already in use somewhere. What's new is putting them together to reap their reinforcing benefits. The combination will revolutionize the automobile industry.

Lovins envisions assembly plants that mold lightweight, easy-to-handle car pieces, combining in one step 10-100 parts that now have to be pounded out of steel and welded together. The pieces wouldn't have to be painted (the most expensive and polluting step in current car-making) because the color could be added in the mold. The molds would be simpler and far less expensive than tool-steel dies. It would take weeks or months, not years, to change a design. Factories could be small and widely distributed. Lovins imagines buying a car the way he now buys a home computer, out of a catalog, or after a demonstration of all the options, choosing a model and color, and having the car delivered to his door two days later, freshly turned out in a local plant.

There's no reason why that assembly plant need be part of a multinational megacompany. The Supercar could open the industry to newcomers and competitiveness even more than the advent of the Honda and the Hyundai did.

If you think the purpose of life is to maximize the GNP, you might see the Supercar as a disaster. It would certainly downsize the car-making, petroleum, and steel industries. If, however, you understand that the GNP is the cost we pay to lead life, you'll rejoice. There can be nothing wrong with using less oil and steel, generating less pollution, mining and drilling less wilderness, transporting less material, being less dependent on imports, and not having to defend the Persian Gulf.

No new technology solves every problem. Supercars won't unclog traffic jams or reduce the need to cover the land with asphalt. If that's what we want, we'll have to do some even more advanced thinking. (Lovins says Rocky Mountain Institute is working on it.)

[bigpoppanils]

VW showed a 282mpg concept about 3 years ago. VW looked into mass production of it, but killed the program when the Phaeton and Bugatti Veyron programs went over budget.

VW's Lupo turbodiesel gets 80mpg on the highway. GM and VW recently showed diesel-electric hybrid concepts which averaged around 90mpg.

[danwilson]

The VW that was 282mpg.

Was this a hybrid car, or a 100 percent gas car.

[danwilson]

Just found my answer.

http://www.smirkingchimp.com/viewtopic.php?topic=5193&forum=4

Almost every automaker at the recent Tokyo Motor Show displayed good

hybrid-electric prototypes, some getting more than 100 mpg. Volkswagen already sells Europeans a 78-mpg, four-seat nonhybrid subcompact and plans a two-seat city car for 2003 that will get 235 mpg (not a typo; VW is even testing a diesel version that gets the equivalent of 282 mpg). When cars are so fuel-frugal, powering them with fuel cells becomes a near-term option using current technology."

[bigpoppanils]

The VW that was 282mpg.

Was this a hybrid car, or a 100 percent gas car.

not a hybrid.

turbodiesel.