NUMERICAL SIMULATION OF FLOWS PAST A ROTATIONAL CIRCULAR CYLINDER BY TAYLOR-SERIES-EXPANSION AND LEAST SQUARES-BASED LATTICE BOLTZMANN METHOD
2005 ◽
Vol 16
(11)
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pp. 1753-1770
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Keyword(s):
An explicit Taylor series expansion and least square-based lattice Boltzmann method (TLLBM) is used to simulate the two-dimensional unsteady viscous incompressible flows. TLLBM is based on the well-known Taylor series expansion and the least square optimization. It has no limitation on mesh structure and lattice model. Its marching in time is accurate. Therefore, it is very suitable for simulation of time dependent problems. Numerical experiments are performed for simulation of flows past a rotational circular cylinder. Good agreement is achieved between the present results and available data in the literature.
2002 ◽
Vol 13
(06)
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pp. 719-738
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2003 ◽
Vol 188
(1)
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pp. 176-193
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2005 ◽
Vol 5
(1/2)
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pp. 27
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2003 ◽
Vol 14
(07)
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pp. 925-944
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2003 ◽
Vol 17
(01n02)
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pp. 161-164
2003 ◽
Vol 17
(01n02)
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pp. 165-168
2002 ◽
Vol 13
(10)
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pp. 1399-1414
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2006 ◽
Vol 42
(10)
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pp. 2474-2476
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