1 |
A perspective on electrostatics in gas-solid fluidized beds: Challenges and future research needs Fotovat F, Bi XTT, Grace JR Powder Technology, 329, 65, 2018 |
2 |
Particle Entrainment from Gas-Solid Fluidized Beds: Conductive vs. Dielectric Fines Fotovat F, Grace JR, Bi XT AIChE Journal, 63(4), 1194, 2017 |
3 |
Synthesis and preliminary gas permeation studies of a tubular NaA zeolite membrane (NZM) Xu N, Lee SM, Kim SS, Li AW, Lim CJ, Fotovat F, Schaadt A, Grace JR Chemical Engineering Communications, 204(10), 1157, 2017 |
4 |
Impact of column material on electrostatics and entrainment of particles from gas-solid fluidized beds Fotovat F, Gill K, Grace JR, Bi XTT Chemical Engineering Science, 167, 120, 2017 |
5 |
Impact of column material on electrostatics and entrainment of particles from gas-solid fluidized beds Fotovat F, Gill K, Grace JR, Bi XTT Chemical Engineering Science, 167, 120, 2017 |
6 |
Electrostatics in gas-solid fluidized beds: A review Fotovat F, Bi XTT, Grace JR Chemical Engineering Science, 173, 303, 2017 |
7 |
The relationship between fluidized bed electrostatics and entrainment Fotovat F, Alsmari TA, Grace JR, Bi XTT Powder Technology, 316, 157, 2017 |
8 |
Characterization of the upward motion of an object immersed in a bubbling fluidized bed of fine particles Fotovat F, Chaouki J Chemical Engineering Journal, 280, 26, 2015 |
9 |
Sand-assisted fluidization of large cylindrical and spherical biomass particles: Experiments and simulation Fotovat F, Ansart R, Hemati M, Simonin O, Chaouki J Chemical Engineering Science, 126, 543, 2015 |
10 |
A CPFD model for a bubbly biomass-sand fluidized bed Fotovat F, Abbasi A, Spiteri RJ, de Lasa H, Chaouki J Powder Technology, 275, 39, 2015 |