Author(s): Jorwar Hrushikesh Dilip, Kharat Sunanda Bhavrao

Email(s): jorwarhrushikesh@gmail.com

DOI: 10.52711/2321-581X.2024.00002   

Address: Jorwar Hrushikesh Dilip1, Kharat Sunanda Bhavrao2
1Student of Mechanical Engineering, SND College of Engineering and Research Centre Yeola, India.
2Student of Nandkumar Shinde College of Pharmacy Vaijapur, India.
*Corresponding Author

Published In:   Volume - 15,      Issue - 1,     Year - 2024


ABSTRACT:
This paper consists of the detail design process of a cooling coil which is used in Evaporator of VARC System for given cooling load. The process consists of designing a part using the calculation and various other parameters. The stability of long-term materials is becoming increasingly important as the demand for air conditioning systems in commercial and residential applications grows. Because of temperature variations and heat flow, materials in air conditioning systems can fail, reducing the cooling effect of the system. Low thermal transitions through the coil's material cause a significant amount of heat to be wasted in the evaporator coil, which lowers the system's overall efficiency. This paper outlines the methodology used to choose the right material for the evaporator coil in an air conditioning system using the CES Granta design software. Based on design and functional requirements, nickel-chromium alloys, pure titanium, copper, low alloy steel, cast iron, and pure titanium are the candidates that made the shortlist for evaporator coils. The best candidates are low alloy steel, titanium, and stainless steel.


Cite this article:
Jorwar Hrushikesh Dilip, Kharat Sunanda Bhavrao. Design and Manufacturing of Air Conditioning Coil. Research Journal of Engineering and Technology. 2024; 15(1):7-2. doi: 10.52711/2321-581X.2024.00002

Cite(Electronic):
Jorwar Hrushikesh Dilip, Kharat Sunanda Bhavrao. Design and Manufacturing of Air Conditioning Coil. Research Journal of Engineering and Technology. 2024; 15(1):7-2. doi: 10.52711/2321-581X.2024.00002   Available on: https://ijersonline.org/AbstractView.aspx?PID=2024-15-1-2


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1.    Wiqas Alam et al. Methodology of Material Selection for Evaporator Coil in Air Conditioning System.   International Journal of Engineering Works. 2020; 7(4): 217-220.
2.    K. Kalyani Radha et al. Development of A chest Freezer – optimum design of an Evaporator coil. International Journal of Automotive and Mechanical Engineering (IJAME). 2012; 5: 597-611.
3.    Faizan Ahmed et al. Efficiency enhancement of an air-conditioner utilizing nanofluids: An experimental study, Published by Elsevier Ltd. 2021; 7: 575-583.
4.    Abhijeet Samal. Design of Evaporator Cooling Coil for Cooling Load. International Journal of Engineering Research & Technology (IJERT). 2021; 10(11).
5.    J. Poliakine et al. Design and manufacturing of high inductance planar coils for small scale sensing applications, Published by Elsevier Ltd. 2016; 168: 1127 – 1130.
6.    Wufeng Jin et al. Experimental study of factors affecting the performance of a semi enclosed outdoor air-conditioning Unit, Ors. Published by Elsevier. 2015; 121: 1713–1720.
7.    Reddy, G. Peasant, and Navneet Gupta. Material selection for microelectronic heat sinks: an application of the Ashby approach. Materials and Design. 2010; 31(1): 113-117.
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9.    Shanteahwar.I. Kumbhar et al. A Review paper on Experimental Investigation for Air Conditioning Condenser to Increase the Heat Transfer Rate by Varying the Tube Arrangement. IJIES. 2019; 4(10).
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