Experimental Comparative Analysis of Overall Heat Transfer Coefficient in Counter-Flow Heat Exchanger by using Helical Ribs-Reference-Cited by-同舟云学术

Experimental Comparative Analysis of Overall Heat Transfer Coefficient in Counter-Flow Heat Exchanger by using Helical Ribs

Published:2021-09-01 Issue: Volume: Page:42-53
ISSN:2394-4099
Container-title:International Journal of Scientific Research in Science, Engineering and Technology
language:en
Short-container-title:IJSRSET

Author:

Kumar Ankesh¹,Singh Ajay²,Mishra Parag³

Affiliation:

1. PG Scholar Department of Mechanical Engineering, Radharaman Institute of Technology and Science, Bhopal, Madhya Pradesh. India

2. Professor and Head Department of Mechanical Engineering, Radharaman Institute of Technology and Science, Bhopal, Madhya Pradesh. India ,

3. Associate Professor, Department of Mechanical Engineering, Radharaman Institute of Technology and Science, Bhopal, Madhya Pradesh. India

Abstract

More performance or reduced the size of heat exchanger can be achieved by heat transfer enhancement technique. Tube helical ribs have been used as one of the passive heat transfer enhancement technique and are most widely used tube in a several heat transfer process. The results of the heat transfer characteristics in horizontal double pipe with helical ribs are presented. Six test section with different characteristics parameters of helical rib depth 1.0mm, 1.25mm, 1.5mm and helical rib pitch 4mm, 6mm, 8mm, are tested. Cold water and hot water are used as the working fluids in the shell side and tube side respectively. Experiments are performed under the condition of mass flow rate varying from 0.030 to 0.130kg/s for cold water and 0.040 to 0.140kg/s for hot water respectively. The inlet cold and hot water temperature are between 28- 300C and between 68-710C respectively. The results obtained from the tubes with helical ribs are compared with those without helical ribs. It is found that the helical ribs have a significant effect on the heat transfer coefficient and the heat transfer increases with the helical rib pitches and depth. Based on fitting the experimental data, on- isothermal correlations of the heat transfer coefficient and friction factor are proposed.

Publisher

Technoscience Academy

Subject

General Medicine

Reference29 articles.

1. R.K. Ali, K.M. Elshazlyet. al. Experimental investigation on the hydrothermal performance of a double pipe heat exchanger using helical tape insert” International Journal of Thermal Sciences, Vol.124, pp.497-507,2018.

2. Sunil Shinde, UmeshChavan. Numerical and experimental analysis on shell side thermo-hydraulic performance of shell and tube heat exchanger with continuous helical FRP baffles” Thermal Science and Engineering Progress, Vol.5, pp. 158- 171,2018.

3. Juan Du ,Yuxiang Hong et. al. Laminar thermal and fluid flow characteristics in tubes with sinusoidal ribs” International Journal of Heat and Mass Transfer, Vol.120, pp.635-651,2018.

4. Wen-Tao Ji, Anthony M. Jacobi et. al. Summary and evaluation on the heat transfer enhancement techniques of gas laminar and turbulent pipe flow” International Journal of Heat and Mass Transfer, Vol.111, pp.467-483,2017.

5. AbdallaGomaa, M.A. Halimet. al. Enhancement of cooling characteristics and optimization of a triple concentric-tube heat exchanger with inserted ribs” International Journal of thermal science, Vol.120, pp.106-120,2017.