Performance Enhancement of the Refrigeration System by Adding Capacitor and Replacing Refrigerant- Experimental Study-Reference-Cited by-同舟云学术

Performance Enhancement of the Refrigeration System by Adding Capacitor and Replacing Refrigerant- Experimental Study

Published:2022-02-28 Issue:3 Volume:11 Page:76-79
ISSN:2249-8958
Container-title:International Journal of Engineering and Advanced Technology
language:
Short-container-title:IJEAT

Author:

Harun-Or-Rashid Dr. Mohammad, ,Ashraf Mohammad Ishtiak,Khan Md. Shayel, ,

Abstract

Manufacturing process and performance analysis of a non-frost refrigeration system are presented in this paper. Main objectives of this research were to suggest better refrigerant as well as propose a technique for further reduction of the power consumption of the system. Performance of the refrigeration system was evaluated for Tetra-fluoro-ethane and Isobutene refrigerant. From the experiment, it is found that, coefficient of performance of the system with Isobutene is better than the coefficient of performance with Tetra-fluoro-ethane. Not only that, Tetra-fluoro-ethane is higher global warming refrigerant than Isobutene. In addition, in this paper, it is shown that, if capacitor is added to the electric circuit then power consumption of the system is dramatically decreased. To reduce the power consumption of the system, capacitors of different micro-farad were added and optimum one was selected through experiment. Maximum coefficient of performance was found for Isobutene with 10μF capacitor. In case of Isobutene, 47.736% energy was saved. Hence, it is proposed to add a capacitor to the circuit and use Isobutene rather than Tetra-fluoro-ethane as refrigerant for better performance of the system.

Publisher

Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP

Subject

Computer Science Applications,General Engineering,Environmental Engineering

Reference23 articles.

1. M. Abuzar Qureshi and Shikkha Bhatt, "Comparative analysis of COP using R134a and R600a refrigerant in domestic refrigerator at steady state condition," International Journal of Science and Research, vol. 3, ISSN: 2319-7064, 2014.

2. G. Maruthi Prasad Yadav et. al., "Experimental Analysis of Vapor Compression Refrigeration System with Liquid Line Suction Line Heat Exchanger by Using R-134a and R-404a," International Journal of Scientific Research and Management Studies, 1, 382-395, ISSN: 23493771.

3. Panda D. et al., "Experimental performance analysis of refrigerant in refrigeration system," International Journal of Engineering Studies and Technical Approach, 2, pp 150-155, 2016.

4. Ramesh P. Sah et al., "Analysis of vapor compression refrigeration system with refrigerants R-134a, R-143a, R-152a, R-290 and R-32," International Journal of Innovative Research and Development, 3, pp1-5, 2014.

5. K. Nagalakshmi1 and G. Marurhiprasad Yadav, "The design and performance analysis of refrigeration system using R-12 and R-134a Refrigerants," International Journal of Engineering Research and Applications, 4, pp638-643, 2014.