| 1 |
Capillary forces on wet particles with a liquid bridge transition from convex to concave
Xiao F, Jing JQ, Kuang SB, Yang L, Yu AB
Powder Technology, 363, 59, 2020 |
| 2 |
Discrete element analysis of normal elastic impact of wet particles
Zhang L, Wu CY
Powder Technology, 362, 628, 2020 |
| 3 |
DEM study of size segregation of wet particles under vertical vibration
Zhao LL, Li YW, Yang XD, Jiao Y, Hou QF
Advanced Powder Technology, 30(7), 1386, 2019 |
| 4 |
Collision dynamics of wet particles: Comparison of literature models to new experiments
Buck B, Heinrich S
Advanced Powder Technology, 30(12), 3241, 2019 |
| 5 |
Experimental study on mixing behaviors of wet particles in a bubbling fluidized bed
Xu HB, Zhong WQ, Shao YJ, Yu AB
Powder Technology, 340, 26, 2018 |
| 6 |
DEM numerical investigation of wet particle flow behaviors in multiple-spout fluidized beds
Tang TQ, He YR, Tai T, Wen DS
Chemical Engineering Science, 172, 79, 2017 |
| 7 |
Investigation of interstitial fluid effect on the hydrodynamics of granular in liquid-solid fluidized beds with CFD-DEM
Liu GD, Yu F, Wang S, Liao PW, Zhang WR, Han B, Lu HL
Powder Technology, 322, 353, 2017 |
| 8 |
Contact force model including the liquid-bridge force for wet-particle simulation using the discrete element method
Tsunazawa Y, Fujihashi D, Fukui S, Sakai M, Tokoro C
Advanced Powder Technology, 27(2), 652, 2016 |
| 9 |
A Model to Predict Liquid Bridge Formation Between Wet Particles Based on Direct Numerical Simulations
Wu MQ, Radl S, Khinast JG
AIChE Journal, 62(6), 1877, 2016 |
| 10 |
Investigation on wet particle flow behavior in a riser using LES-DEM coupling approach
Tang TQ, He YR, Ren AX, Zhao YH
Powder Technology, 304, 164, 2016 |
