A PARALLEL THERMAL LATTICE BOLTZMANN MODEL WITH FLUX LIMITERS FOR MICROSCALE FLOW
2008 ◽
Vol 19
(12)
◽
pp. 1847-1861
◽
Keyword(s):
We propose a thermal lattice Boltzmann model to study gaseous flow in microcavities. The model relies on the use of a finite difference scheme to solve the set of evolution equations. By adopting diffuse reflection boundary conditions to deal with flows in the slip regime, we study the micro-Couette flow in order to select the best numerical scheme in terms of accuracy. The scheme based on flux limiters is then used to simulate a micro-lid-driven cavity flow by using an efficient and parallel implementation. The numerical results are in very good agreement with the available results recovered with different methods.
2009 ◽
Vol 228
(17)
◽
pp. 6107-6118
◽
2020 ◽
Vol 8
(1)
◽
pp. 81-91
◽
2019 ◽
Vol 195
◽
pp. 737-747
◽
2007 ◽
Vol 31
(7)
◽
pp. 620-627
2002 ◽
Vol 68
(672)
◽
pp. 2186-2194
◽
Keyword(s):
2011 ◽
Vol 38
(4_5)
◽
pp. 201-207
◽
Keyword(s):
2013 ◽
Vol 65
◽
pp. 374-380
◽
Keyword(s):
2014 ◽
Vol 25
(10)
◽
pp. 1450046
◽