Parametric Analysis of MEMS – Based Heat Exchanger with Different Test Fluids
Nusrat J. Chhanda *
Department of Mechanical Engineering, Bangladesh University of Engineering and Technology, Bangladesh.
Muhannad Mustafa
Department of Mechanical Engineering, Bangladesh University of Engineering and Technology, Bangladesh.
Maglub Al Nur
Department of Mechanical Engineering, Bangladesh University of Engineering and Technology, Bangladesh.
*Author to whom correspondence should be addressed.
Abstract
The latest generations of micro-scale systems are becoming more challenging to fit into designs. These chips are squeezing into smaller and smaller spaces with very little place for heat to escape. Therefore, MEMS heat exchanger has become popular in many practical applications although improvement of heat transfer characteristics is a key issue for the users as well as researchers. In the present study it is suggested that instead of using conventional working fluids, the micro sized hot structures can be cooled with an effective coolant which can be a good substitute of the conventional fluids. Ammonia has shown the highest outlet mean temperature during the study. The analysis is conducted using commercial finite element package to determine outlet mean temperature that is then used for further calculation of effectiveness, heat transfer coefficient and friction factor.
Keywords: MEMS heat exchanger, working fluids, friction factor, effectiveness