论文信息 - Power and efficiency limits for internal combustion engines via methods of finite‐time thermodynamics

Power and efficiency limits for internal combustion engines via methods of finite‐time thermodynamics

Analytical expressions for the upper bounds of power and efficiency of an internal combustion engine are obtained taking into account finite rate of heat exchange with the environment and nonzero entropy production due to chemical reactions. Recommendations of theoretically possible ways of improving internal combustion engines are presented.

R. Stephen Berry | R. Berry | V. Orlov | Vladimir N. Orlov

[1] Orlov,et al. Power output from an irreversible heat engine with a nonuniform working fluid. , 1990, Physical review. A, Atomic, molecular, and optical physics.

[2] Péter Érdi,et al. Mathematical models of chemical reactions , 1989 .

[3] Bjarne Andresen,et al. Thermodynamics in finite time: A chemically driven engine , 1980 .

[4] Karl Heinz Hoffmann,et al. Optimal paths for thermodynamic systems: The ideal diesel cycle , 1982 .