Please use this identifier to cite or link to this item: https://doi.org/10.1080/01457632.2012.753821
DC FieldValue
dc.titleHeat transfer in coiled square tubes for laminar flow of slurry of microencapsulated phase change material
dc.contributor.authorKurnia, J.C.
dc.contributor.authorSasmito, A.P.
dc.contributor.authorJangam, S.V.
dc.contributor.authorMujumdar, A.S.
dc.date.accessioned2014-06-19T05:35:52Z
dc.date.available2014-06-19T05:35:52Z
dc.date.issued2013-09-26
dc.identifier.citationKurnia, J.C., Sasmito, A.P., Jangam, S.V., Mujumdar, A.S. (2013-09-26). Heat transfer in coiled square tubes for laminar flow of slurry of microencapsulated phase change material. Heat Transfer Engineering 34 (11-12) : 994-1007. ScholarBank@NUS Repository. https://doi.org/10.1080/01457632.2012.753821
dc.identifier.issn01457632
dc.identifier.urihttp://scholarbank.nus.edu.sg/handle/10635/73500
dc.description.abstractPassive heat transfer enhancement using a slurry of microencapsulated phase-change material (MEPCM) flowing in a laminar regime through a coiled duct of square cross section was evaluated. The phase-change material is n-octadecane. The flow behavior and heat transfer performance of water and MEPCM suspensions in various configurations (conical spiral, in-plane spiral, and helical spiral) of coiled tubes of square cross section was investigated. The results are compared with those for water as the base fluid flowing through a straight tube. A computational fluid dynamics (CFD) approach is used to simulate the laminar flow of water with MEPCM suspension in these geometries. The liquid suspension properties are expressed as functions of the volumetric concentration of MEPCM particles and the temperature. Improved heat transfer performance was obtained as the concentration of MEPCM suspension increased from 1 to 10%. However, the overall performance in terms of the pumping power consumed for unit heat transferred worsened. © 2013 Copyright Taylor and Francis Group, LLC.
dc.description.urihttp://libproxy1.nus.edu.sg/login?url=http://dx.doi.org/10.1080/01457632.2012.753821
dc.sourceScopus
dc.typeConference Paper
dc.contributor.departmentMECHANICAL ENGINEERING
dc.contributor.departmentCHEMICAL & BIOMOLECULAR ENGINEERING
dc.description.doi10.1080/01457632.2012.753821
dc.description.sourcetitleHeat Transfer Engineering
dc.description.volume34
dc.description.issue11-12
dc.description.page994-1007
dc.description.codenHTEND
dc.identifier.isiut000327791700014
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