Bibliography And References

and system composed of a plurality of these machines. U.S. Patent 3 074 229, Jan. 22.

Bahcock, G. H. (1885). Substitutes for steam. Trans. Am. Sttc. mech. Ercgrs, 7, pp. 680-741.

Baiinice, G. D. and Howard, C. P. (1964). 'I*he etTeci of longitudinal heat conduction on periodic-flow heat-exchanger performance. ./. Engng Pwr. A86, pp. 105-120.

Baker. L.. Mamikausa. and Petrozzi, R. .1. (19641. Physical properties of nitrogen tctroxidc. Pubn. 870. Aerojet General Corp., Sacramento, Ca.

Balkan, S (l<}75). Thermal energy .storage systems for pollutant-free operation of automobiles. VDI Zeitshrifi, 117, pp. 422-429, (in German).

Barber. K. (1975). Introductory comments on Stirling engine program. Div. Transportation Energy Conservation, Automotive Power Systems Contractors Coordination Meeting, ERDA, Wash., D.C.

Barber, T. A. (1975). Should we "nave a new engine? An automobile power systems evaluation. Vol. 2, Technical Reports, Calif. Inst, of Tech., S.A.E. Spec. PubL, SP399, Sp400.

Barker, J. J. (1965). I lent transfer in packed beds. hid. & Engng Chan., 57 (4), PP. 43-51.

Baumgarijn'izr, A. R.. Johnston. R, P.. Martlni, W. R. and White, M. A. (1973). SnV/ing cycle machine ivif/t self-oscillating regenerator. U.S. Patent 27 567, reissued Jan. 23.

Bayley, F. J., Edwards, P. A. and Singh. P. O. (1961). The effect of flow pulsations on heat transfer by forced convection from a llal plate. Int. Hear transfer Con/., AS ME, Boulder, Colo., pp. 499-509.

and Rapley, C. (1965). Meat transfer and pressure loss characteristics of matrices for regenerative heat exchangers. ASME Paper no. 65-I-1T-35, Aug.

Bazinet, G. D., Eraser. R. J.. IIofi-man. L. C., Mf.kchr, S. D. and Rudnicki, M. (1971). Development and evaluation of a modified Stirling-cycle engine. Semi-annual report, Junc-Nov., Aerojet Liquid Rocket Co., Sacramento, Calif,

Beachem, C. D.. (ed.). (1977). Hydrogen damage. Ant. Soc. Metals. Metals Park. Ohio.

Biialu, W. T. (1969). Free-piston Stirling engines—some model tests and simulations. S.A.E. Paper No. 690203. Jan.

- - (1971). Stirling cycle type thermal device. U.S. Patent 3 552 120. Jan. 5.

-(1972). Sfirimg cycle-type thermal device servo pump. U.S. Patent 3 645 649.

--(1975). A Stirling hydrostatic drive for small vehicles. Proc. 10th LE.C.E.C., pp. 958-960, Newark. N.J.. Aug. 17-22.

— (1978). New developments in free-piston Stirling engines. Inst, of Gas Techh. Seminar Stirling-cycle Prime Movers, Chicago. III.. June.

- Gedeon, D. and Rankin, C. (1978). The optimization of Stirling-cycle machines, Proc. 13th I.E.C.E.C.. San Diego, Ca., Aug. 20-25.

Houses, W., Li wis, R. S. and Cheng, E. (1973). Free-piston Stirling engines—a progress report. S.A.E. Paper no. 730647.

-and Rankin, C F. (1975). A 100-watt Stirling electric generator lor solar or solid fuel heat sources. Proc. 10th I.E.C.E.C., pp. 1020-22. Newark. N.J., Aug. 17-22.

Raucm. .J. S. and Lewis, R. S. (1972). Free piston Stirling-engine-driven inertia compressor for gas-fired air conditioning. Proc. 2nd Conf. Nat. Gas lies, and Tech., Session III. paper no. 5, Washington, June 5-7.

---(1973). Design details and performance characteristics of some

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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