论文信息 - Thermoacoustic engines and refrigerators

Thermoacoustic engines and refrigerators

This report is a transcript of a practice lecture given in preparation for a review lecture on the operation of thermoacoustic engines and refrigerators. The author begins by a brief review of the thermodynamic principles underlying the operation of thermoacoustic engines and refrigerators. Remember from thermodynamics class that there are two kinds of heat engines, the heat engine or the prime mover which produces work from heat, and the refrigerator or heat pump that uses work to pump heat. The device operates between two thermal reservoirs at temperatures T{sub hot} and T{sub cold}. In the heat engine, heat flows into the device from the reservoir at T{sub hot}, produces work, and delivers waste heat into the reservoir at T{sub cold}. In the refrigerator, work flows into the device, lifting heat Q{sub cold} from reservoir at T{sub cold} and rejecting waste heat into the reservoir at T{sub hot}.

Gregory W. Swift | G. Swift

[1] Anthony A. Atchley. Standing wave analysis of a thermoacoustic prime mover below onset of self‐oscillation , 1992 .

[2] R. Radebaugh,et al. Etched foil regenerator , 1996 .

[3] Steven L. Garrett,et al. Thermoacoustic Refrigerator for Space Applications , 1993 .

[4] K. T. Feldman,et al. A STUDY OF HEAT-GENERATED PRESSURE OSCILLATIONS IN A CLOSED END PIPE (Thesis) , 1965 .

[5] Gregory W. Swift,et al. Liquid‐sodium thermoacoustic engine , 1988 .

[6] G. W. Swift,et al. Characterization of 350 Hz Thermoacoustic Driven Orifice Pulse Tube Refrigerator with Measurements of the Phase of the Mass Flow and Pressure , 1996 .

[7] Gregory W. Swift,et al. DESIGN ENVIRONMENT FOR LOW-AMPLITUDE THERMOACOUSTIC ENGINES , 1994 .

[8] Gregory W. Swift,et al. Analysis and performance of a large thermoacoustic engine , 1992 .

[9] Peter H. Ceperley,et al. Gain and efficiency of a short traveling wave heat engine , 1984 .

[10] Peter H. Ceperley,et al. A pistonless Stirling engine—The traveling wave heat engine , 1979 .

[11] Gregory W. Swift,et al. Similitude in thermoacoustics , 1993 .

[12] G. W. Swift,et al. Thermoacoustics in pin‐array stacks , 1993 .

[13] Richard Raspet,et al. General formulation of thermoacoustics for stacks having arbitrarily shaped pore cross sections , 1990 .