| 1 |
Prediction of bubble terminal velocity in surfactant aqueous solutions
Zheng KX, Li C, Yan XK, Zhang HJ, Wang LJ
Canadian Journal of Chemical Engineering, 98(2), 607, 2020 |
| 2 |
Particle tracking velocimetry of porous sphere settling under gravity: Preparation of the model porous particle and measurement of drag coefficients
Ma L, Xu SL, Li X, Guo Q, Gao DY, Ding Y, Ye M, Liu ZM
Powder Technology, 360, 241, 2020 |
| 3 |
On the basic hydrodynamics of inverse liquid-solid circulating fluidized bed downer
Sang L, Nan T, Jaberi A, Zhu J
Powder Technology, 365, 74, 2020 |
| 4 |
Impact of collisions between fine and coarse particles on the terminal velocity of coarse particles
Zarzycki R, Wlodarczyk R, Kobylecki R, Bis Z
Powder Technology, 363, 181, 2020 |
| 5 |
A new explicit equation for the terminal velocity of a settling sphere
Goossens WRA
Powder Technology, 362, 54, 2020 |
| 6 |
Prediction of terminal velocity of fractal aggregates with IBM-LBM method
Guan L, Yuan ZL, Moghtaderi B, Peng ZB, Evans GM, Gu CH, Doroodchi E
Powder Technology, 361, 1060, 2020 |
| 7 |
Hydrodynamic characteristics and model of fluidized bed reactor with immobilised cells on activated carbon for biohydrogen production
Jamali NS, Jahim JM, O-Thong S, Jehlee A
International Journal of Hydrogen Energy, 44(18), 9256, 2019 |
| 8 |
Review of the empirical correlations for the drag coefficient of rigid spheres
Goossens WRA
Powder Technology, 352, 350, 2019 |
| 9 |
Effect of surface electrical charge on microbubbles' terminal velocity and gas holdup
Perez-Garibay R, Bueno-Tokunaga A, Estrada-Ruiz RH, Camacho-Ortegon LF
Minerals Engineering, 119, 166, 2018 |
| 10 |
Usefulness of multi-solids pneumatic transport bed data for evaluation and validation of binary solids computational simulation models
Liu WM, Bi XTT, Zhu QS, Li HZ
Powder Technology, 327, 70, 2018 |
