Department of Mechanical Engineering, SDITS, Khandwa, M.P., India
*email: shreekant30@hotmail.com
Online published on 9 March, 2017.
Inthisstudy, analysisof thefirstandsecondlawofthermodynamicsiscarriedoutfor compression process of a vapor compressionrefrigeration cycle using the properties of refrigerant R 134a, a refrigerant with 0.055 ODP compared to ODP value of R11 an another traditional refrigerants containingchlorine as 1. The study was carried out with the starting point as the exit of an evaporator assuming that the refrigerant leaves the evaporator as saturated vapour and compressed to some superheated temperature. Various values of changein exergy during the compression process calculated for various temperatures beyond saturation temperature at the elevated pressure ie in the superheated vapour region at different pressures and plotted to built a mathematical model to calculate either one by just knowing the value of the other. A relationship is established between the degree of superheat at the end of the compression to the exergy destruction at various pressures during entire compression process.
Refrigerant, Exergy, degree of superheat, R134a, thermodynamicanalysis