Show simple item record Wang, Shuang Ming Doering, JC 2007-09-07T13:00:31Z 2007-09-07T13:00:31Z 2007-03-29T13:00:31Z
dc.identifier.citation 0315-1468; CAN J CIVIL ENG, 2007, vol.34, no.2, pp.210-218. en
dc.description.abstract A mathematical model to simulate the supercooling process and frazil ice evolution in a counter-rotating flume was developed. It considers the effect of frazil ice thermal growth while neglecting several complicated physical processes such as secondary nucleation, flocculation, and (or) break up. The supercooling process, vertical distribution of flow turbulence parameters, and frazil ice number concentration were simulated, as well the variation of the mean size of frazil ice during the supercooling process was modeled. The simulation results from this model show good agreement with experimental data. en
dc.format.extent 162558 bytes
dc.format.mimetype application/pdf
dc.language.iso en_US
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dc.subject frazil ice en
dc.subject numerical models en
dc.subject supercooling en
dc.subject counter-rotating flume en
dc.subject turbulence en
dc.title Development of a mathematical model of frazil ice evolution based on laboratory tests using a counter-rotating flume en
dc.status Peer reviewed en

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