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Lattice Boltzmann Method for Investigation of Thermal Induced Phase Change of Crude Oil Wax
thesis
posted on 2017-10-01, 23:03 authored by YIP YAO HONGOffshore drilling platforms strive to keep crude oil warm to avoid undesirable wax formation under cold subsea temperatures. This research involves mesoscopic physics (lattice Boltzmann method - LBM) and its application in thermal management as mitigation technique against paraffin wax formation in stored crude oil, a solution which may save billions of dollars yearly to the petroleum industry. Major highlights in this thesis includes development of an in-house double-population LBM algorithm coupled with MRT and VCA techniques, thermal energy storage fins prolong wax formation by 94%, and melting of wax is enhanced by 13% using solely convective flow dynamics reconstruction.
History
Campus location
MalaysiaPrincipal supervisor
Foo Ji JinnAdditional supervisor 1
Soh Ai KahYear of Award
2017Department, School or Centre
School of Engineering (Monash University Malaysia)Course
Doctor of PhilosophyDegree Type
DOCTORATEFaculty
Faculty of EngineeringUsage metrics
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Keywords
Lattice Boltzmann methodCrude oil paraffin waxSolid-liquid phase changeNatural convective phase changeThermal energy storageSolidificationMeltingParaffin wax mitigationHeat conductionOptimizationTransient heat transfer modelingMesoscopic physics modelingConvective flow dynamics manipulationConvective flow dynamics restructuringComputational Fluid DynamicsChemical Engineering not elsewhere classifiedMechanical EngineeringComputational Heat TransferSimulation and Modelling
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