1 |
Prediction of defluidization behavior using particle apparent viscosity An Z, Wang H, Zhang Y Korean Journal of Chemical Engineering, 39(10), 2875, 2022 |
2 |
Integrated modeling methodology for ash agglomeration in poly-disperse fluidized beds using particle population framework Khadilkar AB, Kennedy JR, Rozelle PL, Pisupati SV Powder Technology, 384, 368, 2021 |
3 |
Experimental study on defluidization behaviours and its influence factors during gas switching fluidization Lu HF, Cao JK, Macri D, Guo XL, Liu HF, Gong X Powder Technology, 380, 106, 2021 |
4 |
Analysis of Transient Defluidization Due to Gas Adsorption on Fluidized Particles Kai T, Taira Y, Nakazato T Journal of Chemical Engineering of Japan, 53(1), 10, 2020 |
5 |
Study on the influence of different carrier gases on the fluidization properties of glass bead and FCC powders Jin Y, Lu HF, Guo XL, Gong X Powder Technology, 376, 468, 2020 |
6 |
Coupling relationship of fluidization behavior, reaction and particle structure of Ni/MgO catalyst toward fluidized CO methanation Li J, Wang H, Zhu QS, Lia HZ Chemical Engineering Journal, 357, 298, 2019 |
7 |
Fluidization dynamics of cohesive Geldart B particles. Part II: Pressure fluctuation analysis Ma JL, van Ommen JR, Liu DY, Mudde RF, Chen XP, Pan SY, Liang C Chemical Engineering Journal, 368, 627, 2019 |
8 |
Impact of sodium salts on agglomeration in a laboratory fluidized bed Sevonius C, Yrjas P, Lindberg D, Hupa L Fuel, 245, 305, 2019 |
9 |
Application of microwave tomography to investigation the wet gas-solids flow hydrodynamic characteristics in a fluidized bed Che HQ, Wang HG, Ye JM, Yang WQ, Wu ZP Chemical Engineering Science, 180, 20, 2018 |
10 |
Defluidization of the oxygen carrier ilmenite - Laboratory experiments with potassium salts Zevenhoven M, Sevonius C, Salminen P, Lindberg D, Brink A, Yrjas P, Hupa L Energy, 148, 930, 2018 |