1 |
Experimental and CFD investigation of power consumption in a dual Rushton turbine stirred tank Taghavi M, Zadghaffari R, Moghaddas J, Moghaddas Y Chemical Engineering Research & Design, 89(3A), 280, 2011 |
2 |
Investigation of Fluid Flow in a Dual Rushton Impeller Stirred Tank Using Particle Image Velocimetry Pan CM, Min J, Liu XH, Gao ZM Chinese Journal of Chemical Engineering, 16(5), 693, 2008 |
3 |
Particle Image Velocimetry Study of Turbulence Characteristics in a Vessel Agitated by a Dual Rushton Impeller Liu XH, Bao YY, Li ZP, Gao ZM, John MS Chinese Journal of Chemical Engineering, 16(5), 700, 2008 |
4 |
Large eddy simulation of flow fields in vessels stirred by dual rushton impeller agitators Li ZP, Gao ZM, Smith JM, Thorpe RB Journal of Chemical Engineering of Japan, 40(8), 684, 2007 |
5 |
Simulation of flows in stirred vessels agitated by dual Rushton impellers using computational snapshot approach Deshpande VR, Ranade VV Chemical Engineering Communications, 190(2), 236, 2003 |
6 |
CFD study of homogenization with dual Rushton turbines -Comparison with experimental results part II: The multiple reference frame Bujalski W, Jaworski Z, Nienow AW Chemical Engineering Research & Design, 80(1), 97, 2002 |
7 |
CFD study of homogenization with dual Rushton turbines -Comparison with experimental results part I: Initial studies Jaworski Z, Bujalski W, Otomo N, Nienow AW Chemical Engineering Research & Design, 78(3), 327, 2000 |
8 |
Gas-filled cavity structures and local void fraction distribution in vessel with dual-impellers Bombac A, Zun I Chemical Engineering Science, 55(15), 2995, 2000 |