Analysis of Heat Transfer Coefficient of Shell and Tube on Heat Exchanger Using Heat Transfer Research Inch (HTRI) Software

Alif Gita Arumsari; Petrus Junake Ginting

doi:10.55927/fjsr.v2i5.4271

Authors

Alif Gita Arumsari Chemical Engineering, Al-Kamal Institute of Science and Technology, Jakarta
Petrus Junake Ginting Chemical Engineering, Al-Kamal Institute of Science and Technology, Jakarta

DOI:

https://doi.org/10.55927/fjsr.v2i5.4271

Keywords:

Heat Exchanger, Heat Transfer, Shell and Tube, Software

Abstract

The heat transfer process in the industrial world is the most important thing to pay attention to, especially in industrial equipment that works at high temperatures, one of the heat exchangers commonly used in the industrial world is a heat exchanger which is used to exchange heat between fluids of different temperatures. Therefore, it is necessary to pay attention to the performance of the heat exchanger. In the shell and tube type heat exchanger, apart from using baffles which aim to direct the flow on the shell side, it also aims to increase the rate of heat transfer that occurs between the working fluids by causing flow turbulence on the shell side. The results of this study are to obtain the heat transfer that occurs in the shell and tube in the heat exchanger, and to obtain the total heat transfer coefficient

Downloads

Download data is not yet available.

References

Anggareza., & Djatmiko. 2013. Performance Simulation of Shell and Tube Type Heat Exchanger with Double Segmental Baffles Against Helical Baffles. November 10th Institute of Technology. Surabaya.

Bizzy, Setiadi. 2013. Calculation Study of Shell and Tube Type Heat Exchanger with Heat Transfer Research Inc (HTRI) Program. Sriwijaya University. Palembang.

Burmawi., Mulyadi., & Angga. 2021. Performance Analysis of a Shell and Tube Type Heat Exchanger Using Water as a Hot and Cold Fluid. Bung Hatta University. Padang.

Light, 2021. Analysis of Shell and Tube Type Heat Exchanger with Single Pass System. Jakarta Muhammadiyah University. Jakarta.

Gede, Tahdid, & Chandra. 2019. Shell and Tube Type Heat Exchanger Prototype in terms of Baffle Distance and Hot Air Mass Flow Rate. Sriwijaya State Polytechnic. Palembang.

Kreith, Frank & Prijono, Arko, 1994. Principles of Heat Transfer