| 1 |
An experimental investigation on jamming and critical orifice size in the discharge of a two-dimensional silo with curved hopper
Liu HR, Han YL, Jia FG, Xiao YW, Chen HQ, Bai SG, Zhao HW
Advanced Powder Technology, 32(1), 88, 2021 |
| 2 |
Experimental investigation on air bubble dynamics during fine powder discharge in a silo
Sheng LT, Hsiau SS, Wen CY
Advanced Powder Technology, 32(1), 106, 2021 |
| 3 |
Numerical simulation of electric fi eld in cylindrical silo based on non -uniform electrostatic charge distribution caused by particle segregation
Zhou Q, Liang C, Hu JW, Chen XP, Ma JL
Powder Technology, 383, 336, 2021 |
| 4 |
Experimental study on vertical stress distribution underneath granular silos
Liu YY, Zhang DL, Dai BB, Su J, Li YR, Yeung AT
Powder Technology, 381, 601, 2021 |
| 5 |
Effect of particle segregation on non-uniform electrostatic charge distribution in cylindrical silo during loading binary particles with size ratio of 2.5:1 centrally
Zhou Q, Liang C, Hu JW, Chen XP, Liu DY, Ma JL
Powder Technology, 378, 772, 2021 |
| 6 |
Modelling of shear zones during quasi-static granular silo flow using material point method (MPM)
Krzyzanowski J, Tejchman J, Solowski W, Wojcik M
Powder Technology, 378, 538, 2021 |
| 7 |
Optimised curved hoppers with maximum mass discharge rate - an experimental study
Huang XJ, Zheng QJ, Yu AB, Yan WY
Powder Technology, 377, 350, 2021 |
| 8 |
Wall normal stress characteristics in an experimental coal silo
An HQ, Wang X, Fang XH, Liu Z, Liang C
Powder Technology, 377, 657, 2021 |
| 9 |
Study on electric field distribution in cylindrical metal silo considering particle segregation
Zhou Q, Liang C, Lu DF, Hu JW, Chen XP, Liu DY, Ma JL
Advanced Powder Technology, 31(1), 241, 2020 |
| 10 |
Mixing experiments in 3D-printed silos; the role of wall friction and flow correcting inserts
Fullard LA, Godfrey AJR, Manaf MF, Davies CE, Cliff A, Fukuoka M
Advanced Powder Technology, 31(5), 1915, 2020 |
