Research Article Open Access

Heat Transfer and Effectiveness Analysis of a Cross-Flow Heat Exchanger for Potential Energy Recovery Applications in Hot-Humid Climate

A.R.S. Masitah1, Mardiana I Ahmad1 and Y.M. Yatim1
  • 1 Universiti Sains Malaysia, Malaysia

Abstract

This paper presents heat transfer and effectiveness analysis based on a physical model of a cross-flow heat exchanger. Using the model, the transferred heat and effectiveness (ε) in terms of temperature and NTU-method are calculated for both hot and cold streams. From the analyses, it is found that as air velocity increases, the transferred heat through heat transfer plates increases. In contrary, when air velocity decreases, the effectiveness increases. Further, as the air temperature of hot exhaust stream increases, both the transferred heat and effectiveness decrease. The study suggests that the calculated results provide benchmark data to evaluate and predict the performance of heat exchanger for energy recovery application.

Energy Research Journal
Volume 6 No. 1, 2015, 7-14

DOI: https://doi.org/10.3844/erjsp.2015.7.14

Submitted On: 9 December 2014 Published On: 15 May 2015

How to Cite: Masitah, A., Ahmad, M. I. & Yatim, Y. (2015). Heat Transfer and Effectiveness Analysis of a Cross-Flow Heat Exchanger for Potential Energy Recovery Applications in Hot-Humid Climate. Energy Research Journal, 6(1), 7-14. https://doi.org/10.3844/erjsp.2015.7.14

  • 6,311 Views
  • 18,877 Downloads
  • 10 Citations

Download

Keywords

  • Heat Exchanger
  • Heat Transfer
  • Effectiveness
  • NTU
  • Energy Recovery