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原文传递 Hydrogen as a zero-emission, high-efficiency fuel: Uniqueness, experiments and simulations

题名：	Hydrogen as a zero-emission, high-efficiency fuel: Uniqueness, experiments and simulations
作者：	Johnson, N.L.;
关键词：	33 ADVANCED PROPULSION SYSTEMS ;08 HYDROGEN FUEL; INTERNAL COMBUSTION ENGINES; FUEL SUBSTITUTION; HYDROGEN; COMBUSTION; K CODES; COMPUTERIZED SIMULATION
摘要：	The planned use of hydrogen as the energy carrier of the future introduces new challenges and opportunities, especially to the engine design community. Hydrogen is a bio-friendly fuel that can be produced from renewable resources and has no carbon dioxide combustion products; and in a properly designed ICE, almost zero NO{sub x} and hydrocarbon emissions can be achieved. Because of the unique properties of hydrogen combustion - in particular the highly wrinkled nature of the laminar flame front due to the preferential diffusion instability - modeling approaches for hydrocarbon gaseous fuels are not generally applicable to hydrogen combustion. This paper reports on the current progress to develop an engine design capability based on the KIVA family of codes for hydrogen-fueled, spark-ignited engines in support of the National Hydrogen Program. A turbulent combustion model, based on a modified eddy-turnover model in conjunction with an intake flow valve model, is found to describe well the efficiency and NO{sub x} emissions for an experimental engine over a wide range of ignition timings. The NO{sub x} emissions of this engine satisfy the Equivalent Zero Vehicle (EZEV) standard established by the California Resource Board.
总页数：	12p
报告类型：	科技报告