California's experience with fuel methanol holds lessons for infrastructure development efforts for other alternative fuels and suggests strategic approaches for developing future infrastructure to serve dedicated vehicles: Some combinations of these strategies will be most effective, requiring the development of alternative fueling infrastructure in concert with vehicle technologies to bring both to market. Fuel flexibility has been proposed as a mechanism to avoid the “chicken and egg” paradox confronting alternative transportation fuels in an established transportation marketplace. Despite its successes, this strategy has not resolved the lack of a retail fuel infrastructure that hinders the market penetration of technologies that are reliant on dedicated fuel use.“Dedicated fuel” technologies include fuel cell powered vehicles (FCVs) and methanol ULEVs, which require pure supplies of fuel (e.g., hydrogen, methane and/or methanol). The full advantages afforded by alternative fuels may depend upon dedicated and optimized engines/vehicles. Developers of FCVs have identified M100 as an energy carrier for these next-generation propulsion technologies. A development trajectory leads from today's M85 fuel flexible ICE vehicles to dedicated M100 ICEs, and ultimately to M100-fueled FCVs.
Transitional Strategies for Alternative Fuel Supply Infrastructure: Moving from Fuel Flexible to Dedicated Vehicles
Sae Technical Papers
1995 SAE International Fall Fuels and Lubricants Meeting and Exhibition ; 1995
01.10.1995
Aufsatz (Konferenz)
Englisch
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