1 |
Transient buoyancy-opposed double diffusive convection of micropolar fluids in a square enclosure Jena SK, Malla LK, Mahapatra SK, Chamkha AJ International Journal of Heat and Mass Transfer, 81, 681, 2015 |
2 |
THE EFFECT OF VARIABLE THERMAL CONDUCTIVITY ON MICRO-POLAR FLUID FLOW BY CHEBYSHEV COLLOCATION METHOD Elgazery NS, Elazem NYA Chemical Engineering Communications, 197(3), 400, 2010 |
3 |
Inverse grand-canonical Monte Carlo investigation of the activity coefficient of polar fluids Lamperski S, Gorniak R Fluid Phase Equilibria, 295(2), 255, 2010 |
4 |
Adsorption of polar and non-polar fluids in carbon nanotube bundles: Computer simulation and experimental studies Wongkoblap A, Do DD, Wang K Journal of Colloid and Interface Science, 331(1), 65, 2009 |
5 |
Nematic liquid crystals and ordered micropolar fluids Lhuillier D, Rey AD Journal of Non-Newtonian Fluid Mechanics, 120(1-3), 169, 2004 |
6 |
Application of density functional theory for predicting the surface tension of pure polar and associating fluids Lu JF, Fu D, Liu JC, Li YG Fluid Phase Equilibria, 194, 755, 2002 |
7 |
Comprehensive study of the vapour-liquid equilibria of the pure two-centre Lennard-Jones plus pointquadrupole fluid Stoll J, Vrabec J, Hasse H, Fischer J Fluid Phase Equilibria, 179(1-2), 339, 2001 |
8 |
A theoretical equation of state for real quadrupolar fluids Benavides AL, Guevara Y, Estrada-Alexanders AF Journal of Chemical Thermodynamics, 32(8), 945, 2000 |