The impact of base metal on the thermal-hydraulic performance of metal foam heat exchanger for cooling and dehumidification applications

Kashif Nawaz, Anthony M. Jacobi

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

In the wake of utilization of novel materials in various thermal applications open cell metal foams have received attention due to their inherent properties such as large surface area to volume ratio and higher thermal conductivity. Additionally, complex tetradecahedron structure promotes mixing and makes them a good candidate for heat transfer applications. In this paper, a relative comparison has been made between the thermalhydraulic performance of aluminum and copper metal foam heat exchangers with the same geometry under dry and wet operating conditions. Heat exchanger consisting of round tube with annular layer of metal foam have been considered. Experiments have been conducted using a closed-loop wind tunnel to measure the heat transfer performance and pressure drop. The impact of base metal (aluminum and copper) on the heat transfer rate has been evaluated at varying air flow rates and upstream relative humidity. It has been found that due to similar geometry (flow depth, face area, pore size) both aluminum and copper foam samples have comparable pressure drop under dry conditions. However, the pressure gradient was noticeably different for two samples under wet operating conditions. An obvious difference in heat transfer rate for aluminum and copper metal foam heat exchangers was observed under both dry and wet operating conditions. The findings have been explained in terms of the impact of the thermal conductivity of base metal and condensate retention.

Original languageEnglish
Title of host publicationHeat Transfer Equipment; Heat Transfer in Multiphase Systems; Heat Transfer Under Extreme Conditions; Nanoscale Transport Phenomena; Theory and Fundamental Research in Heat Transfer; Thermophysical Properties; Transport Phenomena in Materials Processing and Manufacturing
PublisherAmerican Society of Mechanical Engineers
ISBN (Electronic)9780791857892
DOIs
StatePublished - 2017
EventASME 2017 Heat Transfer Summer Conference, HT 2017 - Bellevue, United States
Duration: Jul 9 2017Jul 12 2017

Publication series

NameASME 2017 Heat Transfer Summer Conference, HT 2017
Volume2

Conference

ConferenceASME 2017 Heat Transfer Summer Conference, HT 2017
Country/TerritoryUnited States
CityBellevue
Period07/9/1707/12/17

Funding

Authors acknowledge support provided by the Air Conditioning and Refrigeration Center (ACRC, an NSF-founded Industry-University Cooperative Research Center).

FundersFunder number
Air Conditioning and Refrigeration Center
NSF-founded Industry-University Cooperative Research Center

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