A 2nd order regenerator model including flow dispersion and bypass losses [heat engines]

Author

Kuehl, Hans-Detlev ; Schulz, Siegfried

Author_Institution

Inst. of Thermodynamics, Dortmund Univ., Germany

Volume

2

fYear

1996

fDate

11-16 Aug 1996

Firstpage

1343

Abstract

The reliability of second order computer codes for the the simulation of regenerative cycles, such as the Stirling or the Vuilleumier cycle, is strongly dependent on the quality of the models that are used to describe the various losses. Particularly, the thermal regenerator losses can severely affect the performance, and so an accurate modeling of these is essential in order to obtain realistic results. Nevertheless most present approaches are based on the assumption of a strictly one-dimensional, ideal plug flow. In this paper, this theory is reviewed, and it is suggested to additionally include losses due to both microscopic and macroscopic flow inhomogenities. For this purpose, simplified equations are derived, which can easily be handled in a second order code

Keywords

Stirling engines; engineering computing; heat losses; thermal analysis; thermodynamics; Stirling cycle; Vuilleumier cycle; heat engines; macroscopic flow inhomogenities; microscopic flow inhomogenities; modelling accuracy; performance; regenerative cycles; second order computer codes reliability; simplified equations; thermal regenerator losses; Computational modeling; Computer simulation; Equations; Isothermal processes; Microscopy; Numerical models; Performance loss; Plugs; Temperature; Thermodynamics;

fLanguage

English

Publisher

ieee

Conference_Titel

Energy Conversion Engineering Conference, 1996. IECEC 96., Proceedings of the 31st Intersociety

Conference_Location

Washington, DC

ISSN

1089-3547

Print_ISBN

0-7803-3547-3

Type

conf

DOI

10.1109/IECEC.1996.553911

Filename

553911