Study of Cross Flow Regenerative Evaporative Air Cooler

R. M. Dahekar, Bhavik D. Talware, Harshal S. Gourikar, Kunal D. Lalzare, Nitin H. Doye
Journal of Thermal and Fluid Science
Volume 2: Issue 2, July 2021, pp 73-76

Author's Information
Bhavik D. Talware2 
Corresponding Author
2Student, Department of Mechanical Engineering, Govindrao Wanjari Collage of Engineering and Technology, Nagpur, India, India
bhaviktalware31@gmail.com

 R. M. Dahekar1
1Assistant Professor, Department of Mechanical Engineering, Govindrao Wanjari Collage of Engineering and Technology, Nagpur, India


Harshal S. Gourikar2, Kunal D. Lalzare2, Nitin H. Doye2
2Student, Department of Mechanical Engineering, Govindrao Wanjari Collage of Engineering and Technology, Nagpur, India

Technical Article -- Peer Reviewed
Published online – 22 July 2021

Open Access article under Creative Commons License

Cite this article – R. M. Dahekar, Bhavik D. Talware, Harshal S. Gourikar, Kunal D. Lalzare, Nitin H. Doye “Study of Cross Flow Regenerative Evaporative Air Cooler”, Journal of Thermal and Fluid Science, RAME Publishers, vol. 2, issue 2, pp. 73-76, July 2021.
https://doi.org/10.26706/jtfs.2.3.20210704

Abstract:-
The paper presents actual data regarding the indirect evaporative cooling (IEC). This cooling technology is promising to develop within the close to future because of its terribly low energy consumption and high potency in it vary of applications. The review is presenting in details: theory, operating principles, flow and construction. The IEC instrumentality and technology is appropriate in several air-con applications: industrial, industrial, residential or knowledge centers. The IEC technology is totally environmentally friendly and has terribly low heating impact. The only disadvantage of IEC is that the water consumption.
Index Terms:-
Indirect evaporative cooling (IEC), Direct evaporative cooling (DEC), Regenerative evaporative cooling, cooling effectiveness, Performance test Evaporative water flow rate..
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