Thermodynamic modeling of reciprocating chillers
- 15 March 1994
- journal article
- conference paper
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 75 (6) , 2769-2774
- https://doi.org/10.1063/1.356215
Abstract
A simple model for predicting the performance of reciprocating chillers is developed. The basic irreversibilities that mitigate against fast and slow cooling rates are accounted for. The model proposed here is consistent with real performance data for 30 chillers that span a range of cooling rates from 30 to 1300 kW and, with adjustable parameters that characterize a particular chiller, is shown to be capable of reproducing actual performance data to within better than experimental uncertainty.This publication has 9 references indexed in Scilit:
- Power and Refrigeration Plants for Minimum Heat Exchanger InventoryJournal of Energy Resources Technology, 1993
- General performance characteristics of real heat enginesJournal of Applied Physics, 1992
- Performance of a Carnot refrigerator at maximum cooling powerJournal of Physics A: General Physics, 1990
- A class of irreversible Carnot refrigeration cycles with a general heat transfer lawJournal of Physics D: Applied Physics, 1990
- Theory of heat transfer-irreversible refrigeration plantsInternational Journal of Heat and Mass Transfer, 1989
- Equivalent combined systems of three-heat-source heat pumpsThe Journal of Chemical Physics, 1989
- An optimal endoreversible three-heat-source refrigeratorJournal of Applied Physics, 1989
- Optimal performance of an endoreversible-combined refrigeration cycleJournal of Applied Physics, 1988
- Thermodynamics in finite time: extremals for imperfect heat enginesThe Journal of Chemical Physics, 1977