Angelino, G. and Moroni, V., Perspectives for waste heat recovery by means of organic fluid cycles, ASME Paper 72-WA/Pwr-2, 1973.

Craig, P., The Capstone turbogenerator as an alternate power source, SAE 970202, 1997.

Friedman, D., Light commercial Brayton/Rankine conditioning system, IECEC 779030, 1977.

McDonald, C. F., Low cost recuperator concept for microturbine applications, ASME Trans., 2000, submitted.

Morgan, D. T. and David, J. P., High efficiency gas turbine/organic Rankine cycle combined power plant, ASME Paper 74-GT-35, 1974.

Rodgers, C., Performance development history — 10 kW turboalternator, SAE 740849, 1974.

Rodgers, C., Experiments with a low specific speed partial emission centrifugal compressor, ASME Paper 89-GT-1, 1989.

Rodgers, C., Low cost fuel system for a gas turbine, U.S. Patent 5,048,298, 1991.

Rodgers, C., Small (10-200 kW) turbogenerator design considerations, ASME Transactions, 1993.

Rodgers, C., Thermo economics of small 50 kW microturbine, ASME Paper 97-GT-260, 1997.

Stone, A. and Eberhardt, J. P., Part load fuel consumption problem of open cycle gas turbines, ASME Paper 589A, 1962.

Solar Stirling Engine Basics Explained

Solar Stirling Engine Basics Explained

The solar Stirling engine is progressively becoming a viable alternative to solar panels for its higher efficiency. Stirling engines might be the best way to harvest the power provided by the sun. This is an easy-to-understand explanation of how Stirling engines work, the different types, and why they are more efficient than steam engines.

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