Design analysis methods for Stirling engines

Authors

  • H. Snyman University of Cape Town
  • T.M. Harms
  • J.M. Strauss

DOI:

https://doi.org/10.17159/2413-3051/2008/v19i3a3329

Abstract

Worldwide attempts are being made to increase the use of our renewable energy sources as well as to use our current fossil fuel energy sources more effi-ciently. Waste heat recovery forms a substantial part of the latter and is the focus of this project. Stirling technology finds application in both the renewable energy sector and in waste heat recovery. Investigating the applicability of Stirling engines in the above-mentioned fields is relevant to develop more efficient external combustion units as well as to utilize our renewable energy sources. Developing a design analysis and synthesis tool capable of opti-mizing Stirling powered units forms the main objec-tive of this project. The methodology followed to achieve this, involved the application of three differ-ent methods of analysis, namely the method of Schmidt, the adiabatic analysis and the simple analysis based on a five volume approach. The Schmidt analysis is used to obtain the internal engine pressure which is a required input for the adiabatic analysis while the simple analysis intro-duces pumping losses and regenerator inefficien-cies. These methodologies are discussed briefly in this paper. Experimental verification of the analyti-cal data was carried out on a Heinrici Stirling engine and both the analytical data and the experi-mental data are presented here. Shortcomings of these methods of analysis are highlighted and an alternative approach to solve particular shortcom-ings is presented.

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Author Biography

H. Snyman, University of Cape Town

Energy Research Centre Snr Research Officer

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Published

2008-08-01

How to Cite

Snyman, H., Harms, T., & Strauss, J. (2008). Design analysis methods for Stirling engines. Journal of Energy in Southern Africa, 19(3), 4–19. https://doi.org/10.17159/2413-3051/2008/v19i3a3329