Title: Effect of atmospheric temperature on exergy efficiency and destruction of a typical residential split air conditioning system

Authors: M. Bilgili; A. Ozbek; A. Yasar; E. Simsek; B. Sahin

Addresses: Department of Mechanical Engineering, Ceyhan Engineering Faulty, Cukurova University, P.O. Box 01950, Adana, Turkey ' Department of Mechanical Engineering, Ceyhan Engineering Faulty, Cukurova University, P.O. Box 01950, Adana, Turkey ' Department of Mechanical Engineering, Ceyhan Engineering Faulty, Cukurova University, P.O. Box 01950, Adana, Turkey ' Adana Vocational School of Higher Education, Cukurova University, P.O. Box 01160, Adana, Turkey ' Department of Mechanical Engineering, Engineering and Architecture Faculty, Cukurova University

Abstract: This work presents an experimental investigation on energy and exergy performance characteristics of a typical residential split air conditioning system. Analyses are performed for different atmospheric temperatures. On the basis of experimental data coefficient of performances (COP), exergy efficiencies (ψ) and exergy destructions (Ėxdest) of whole system and its each subunits are evaluated. The results also demonstrate that the atmospheric temperature (Tatm) rise affects the system performance as well as its performance of components substantially. The values of Ėxdest in the compressor and capillary tube increase with an increase of Tatm but the values of Ėxdest in the condenser and evaporator decrease with an increase of Tatm. When Tatm is risen from 20°C to 46°C; it is determined that power consumption (Ẇcomp) and Ėxdest of the air conditioning system are enhanced by 47.1% and 24.5%, respectively, but ψ is reduced by 38.8%.

Keywords: atmospheric temperature; exergy destruction; exergy efficiency; split type air conditioning; air temperature; residential air conditioning; coefficient of performance; COP; energy consumption.

DOI: 10.1504/IJEX.2016.076679

International Journal of Exergy, 2016 Vol.20 No.1, pp.66 - 84

Received: 10 Jan 2015
Accepted: 23 May 2015

Published online: 20 May 2016 *

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