Polymer heat exchangers-history, opportunities, and challenges

Juan Gabriel Cevallos; Arthur E. Bergles; Avram Bar-Cohen; Peter Rodgers; Satyandra K. Gupta

doi:10.1080/01457632.2012.663654

Polymer heat exchangers-history, opportunities, and challenges

Juan Gabriel Cevallos, Arthur E. Bergles, Avram Bar-Cohen, Peter Rodgers, Satyandra K. Gupta

University of Maryland

Research output: Contribution to journal › Review article › peer-review

104 Scopus citations

Abstract

For the past 40 years considerable attention has been devoted to the innovation, characterization, and implementation of polymer heat exchanger technology, driven by the corrosion resistance, low density, low cost, and ease of manufacture of many polymeric materials. Moreover, new polymer composites, with higher impact and yield strengths, higher temperature limits, and higher thermal conductivities, promise to bridge the performance gap that exists between polymers and corrosion-resistant metals. This paper begins by reviewing the history of polymer heat exchangers and the technical limitations that have motivated much of the research on this technology. The notable developments that have taken place in the last decade and primary potential applications for polymer heat exchangers are then discussed, including solar water heaters, heat recovery systems, and seawater heat exchangers, in particular, for the desalination industry. The paper closes with a review of compact polymer heat exchangers, with millimeter-sized passages, and thoughts on future applications of this most promising technology.

Original language	British English
Pages (from-to)	1075-1093
Number of pages	19
Journal	Heat Transfer Engineering
Volume	33
Issue number	13
DOIs	https://doi.org/10.1080/01457632.2012.663654
State	Published - 1 Oct 2012

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10.1080/01457632.2012.663654

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title = "Polymer heat exchangers-history, opportunities, and challenges",

abstract = "For the past 40 years considerable attention has been devoted to the innovation, characterization, and implementation of polymer heat exchanger technology, driven by the corrosion resistance, low density, low cost, and ease of manufacture of many polymeric materials. Moreover, new polymer composites, with higher impact and yield strengths, higher temperature limits, and higher thermal conductivities, promise to bridge the performance gap that exists between polymers and corrosion-resistant metals. This paper begins by reviewing the history of polymer heat exchangers and the technical limitations that have motivated much of the research on this technology. The notable developments that have taken place in the last decade and primary potential applications for polymer heat exchangers are then discussed, including solar water heaters, heat recovery systems, and seawater heat exchangers, in particular, for the desalination industry. The paper closes with a review of compact polymer heat exchangers, with millimeter-sized passages, and thoughts on future applications of this most promising technology.",

author = "Cevallos, {Juan Gabriel} and Bergles, {Arthur E.} and Avram Bar-Cohen and Peter Rodgers and Gupta, {Satyandra K.}",

note = "Funding Information: This research was initiated by the Energy Education and Research Collaboration (EERC) between the University of Maryland and The Petroleum Institute. The authors thank Abu Dhabi National Oil Company (ADNOC) and its international partners for their generous financial support.",

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AU - Bar-Cohen, Avram

AU - Rodgers, Peter

AU - Gupta, Satyandra K.

N1 - Funding Information: This research was initiated by the Energy Education and Research Collaboration (EERC) between the University of Maryland and The Petroleum Institute. The authors thank Abu Dhabi National Oil Company (ADNOC) and its international partners for their generous financial support.

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N2 - For the past 40 years considerable attention has been devoted to the innovation, characterization, and implementation of polymer heat exchanger technology, driven by the corrosion resistance, low density, low cost, and ease of manufacture of many polymeric materials. Moreover, new polymer composites, with higher impact and yield strengths, higher temperature limits, and higher thermal conductivities, promise to bridge the performance gap that exists between polymers and corrosion-resistant metals. This paper begins by reviewing the history of polymer heat exchangers and the technical limitations that have motivated much of the research on this technology. The notable developments that have taken place in the last decade and primary potential applications for polymer heat exchangers are then discussed, including solar water heaters, heat recovery systems, and seawater heat exchangers, in particular, for the desalination industry. The paper closes with a review of compact polymer heat exchangers, with millimeter-sized passages, and thoughts on future applications of this most promising technology.

AB - For the past 40 years considerable attention has been devoted to the innovation, characterization, and implementation of polymer heat exchanger technology, driven by the corrosion resistance, low density, low cost, and ease of manufacture of many polymeric materials. Moreover, new polymer composites, with higher impact and yield strengths, higher temperature limits, and higher thermal conductivities, promise to bridge the performance gap that exists between polymers and corrosion-resistant metals. This paper begins by reviewing the history of polymer heat exchangers and the technical limitations that have motivated much of the research on this technology. The notable developments that have taken place in the last decade and primary potential applications for polymer heat exchangers are then discussed, including solar water heaters, heat recovery systems, and seawater heat exchangers, in particular, for the desalination industry. The paper closes with a review of compact polymer heat exchangers, with millimeter-sized passages, and thoughts on future applications of this most promising technology.

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Polymer heat exchangers-history, opportunities, and challenges

Abstract

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