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Cop Enhancement of Vapour Compression Refrigeration System
Author(s) -
B Sairamakrishna,
T Gopala Rao,
N Rama Krishna
Publication year - 2021
Publication title -
indian journal of production and thermal engineering (ijpte)
Language(s) - English
Resource type - Journals
ISSN - 2582-8029
DOI - 10.54105/ijpte.b2004.061221
Subject(s) - nozzle , gas compressor , thermal expansion valve , refrigeration , diffuser (optics) , condenser (optics) , refrigerant , inlet , materials science , coefficient of performance , vapor compression refrigeration , evaporator , mechanics , pressure drop , tube (container) , mechanical engineering , thermodynamics , engineering , composite material , physics , optics , light source
This experimental investigation exemplifies the design and testing of diffuser at compressor inlet and nozzle at condenser outlet in vapour compression refrigeration system with the help of R134a refrigerant. The diffuser with divergence angle of 12°,14° and the nozzle with convergent angle 12°,14° are designed for same inlet and outlet diameters. Initially diffusers are tested at compressor inlet diffuser is used with inlet diameter equal to exit tube diameter of evaporator and outlet tube diameter is equal to suction tube diameter of the compressor. Diffuser helps to increases the pressure of the refrigerant before entering the compressor it will be helps to reduces the compression work and achieve higher performance of the vapour compression refrigeration system. Then nozzles are testing at condenser outlet, whereas nozzle inlet diameter equal to discharging tube diameter of condenser and outlet diameter equal to inlet diameter of expansion valve. Additional pressure drop in the nozzle helped to achieve higher performance of the vapour compression refrigeration system. The system is analyzes using the first and second laws of thermodynamics, to determine the refrigerating effect, the compressor work input, coefficient of performance (COP).

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