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dc.contributor.advisorVan Eldik, Martin
dc.contributor.authorGhyoot, Christiaan Jacob
dc.date.accessioned2013-11-19T08:27:20Z
dc.date.available2013-11-19T08:27:20Z
dc.date.issued2013
dc.identifier.urihttp://hdl.handle.net/10394/9511
dc.descriptionThesis (MIng (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2013
dc.description.abstractSasol Limited experiences extremely high particulate fouling rates inside shell-and-tube heat exchangers that utilize process cooling water. The water and foulants are obtained from various natural and process sources and have irregular fluid properties. The fouling eventually obstructs flow on the shell side of the heat exchanger to such an extent that the tube bundles have to be replaced every nine months. Sasol requested that certain aspects of this issue be addressed. To better understand the problem, the effects of various tube and baffle configurations on the sedimentation rate in a shell-and-tube heat exchanger were numerically investigated. Single-segmental, double-segmental and disc-and-doughnut baffle configurations, in combination with square and rotated triangular tube configurations, were simulated by using the CFD software package, STAR-CCM+. In total, six configurations were investigated. The solution methodology was divided into two parts. Firstly, steady-state solutions of the six configurations were used to identify the best performing model in terms of large areas with high velocity flow. The results identified both single-segmental baffle configurations to have the best performance. Secondly, transient multiphase simulations were conducted to investigate the sedimentation characteristics of the two single-segmental baffle configurations. It was established that the current state of available technology cannot adequately solve the detailed simulations in a reasonable amount of time and results could only be obtained for a time period of a few seconds. By simulating the flow fields for various geometries in steady-state conditions, many of the observations and findings of literature were verified. The single-segmental baffle configurations have higher pressure drops than double-segmental and disc-and-doughnut configurations. In similar fashion, the rotated triangular tube configuration has a higher pressure drop than the square arrangement. The single-segmental configurations have on average higher flow velocities and reduced cross-flow mass flow fractions. It was concluded from this study that the single-segmental baffle with rotated triangular tube configuration had the best steady-state performance. Some results were extracted from the transient multiphase simulations. The transient multiphase flow simulation of the single-segmental baffle configurations showed larger concentrations of stagnant sediment for the rotated triangular tube configuration versus larger concentrations of suspended/flowing sediment in the square tube configuration. This result was offset by the observation that the downstream movement of sediment was quicker for the rotated triangular tube configuration. No definitive results could be obtained, but from the available results, it can be concluded that the configuration currently implemented at Sasol is best suited to handle sedimentation. This needs to be verified in future studies by using advanced computational resources and experimental results.en_US
dc.language.isoenen_US
dc.publisherNorth-West University
dc.subjectShell-and-tube heat exchangeren_US
dc.subjectSTHEen_US
dc.subjectNumerical modellingen_US
dc.subjectCFDen_US
dc.subjectSedimentationen_US
dc.subjectRealizable k-εen_US
dc.subjectMultiphaseen_US
dc.subjectSingle-segmentalen_US
dc.subjectDouble-segmentalen_US
dc.subjectDisc-and-doughnuten_US
dc.titleThe modelling of particle build up in shell–and–tube heat exchangers due to process cooling wateren
dc.typeThesisen_US
dc.description.thesistypeMastersen_US


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