Efficiency Improvement of Miniaturized Heat Exchangers

Iris Gerken,Jürgen J Brandner,Thomas Wetzel

doi:10.3390/fluids6010025

Iris Gerken, Jürgen J Brandner + Show 1 more

Open Access

https://doi.org/10.3390/fluids6010025

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Abstract

Micro heat exchangers have been revealed to be efficient devices for improved heat transfer due to short heat transfer distances and increased surface-to-volume ratios. Further augmentation of the heat transfer behaviour within microstructured devices can be achieved with heat transfer enhancement techniques, and more precisely for this study, with passive enhancement techniques. Pin fin geometries influence the flow path and, therefore, were chosen as the option for further improvement of the heat transfer performance. The augmentation of heat transfer with micro heat exchangers was performed with the consideration of an improved heat transfer behaviour, and with additional pressure losses due to the change of flow path (pin fin geometries). To capture the impact of the heat transfer, as well as the impact of additional pressure losses, an assessment method should be considered. The overall exergy loss method can be applied to micro heat exchangers, and serves as a simple assessment for characterization. Experimental investigations with micro heat exchanger structures were performed to evaluate the assessment method and its importance. The heat transfer enhancement was experimentally investigated with microstructured pin fin geometries to understand the impact on pressure loss behaviour with air.

Highlights

Energy efficiency with respect to thermal management is an important factor in many areas of industry and technology
Micro heat exchangers are generally characterized by small characteristic dimensions, below 0.001 m, which is the reason for their high heat transfer capabilities
The present study focuses on passive techniques of heat transfer enhancement with microstructure designs disturbing linear flow paths by adding local perturbances

Summary

Introduction

Energy efficiency with respect to thermal management is an important factor in many areas of industry and technology. The continuous demand for heat transfer enhancement in the last decades was addressed by, amongst other techniques, the development of micro heat exchangers. Micro heat exchangers provide an efficient and flexible tool, depending on the technical application. In 1981 Tuckerman and Pease [1] were amongst the first researchers to perform heat transfer with microstructures. They showed that micro heat exchangers are efficient devices for improved heat transfer due to several reasons, amongst which are short heat transfer distances and increased surface-to-volume ratios. The performance of miniaturized heat exchangers in terms of heat transfer is superior to macroscopic devices [2,3,4]

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