1 |
Numerical simulation of heat transfer coefficient around different immersed bodies in a fluidized bed containing Geldart B particles Fattahi M, Hosseini SH, Ahmadi G, Parvareh A International Journal of Heat and Mass Transfer, 141, 353, 2019 |
2 |
Tracking of particles using TFM in gas-solid fluidized beds Banaei M, Jegers J, Annaland MV, Kuipers JAM, Deen NG Advanced Powder Technology, 29(10), 2538, 2018 |
3 |
CHARACTERIZATION OF FLOW REGIMES IN FLUIDIZED BEDS BY INFORMATION ENTROPY ANALYSIS OF PRESSURE FLUCTUATIONS Wang JB, Zhong WQ, Zhang H Canadian Journal of Chemical Engineering, 95(3), 578, 2017 |
4 |
Effect of operating pressure on particle temperature distribution in a fluidized bed with heat production Li Z, Annaland MV, Kuipers JAM, Deen NG Chemical Engineering Science, 169, 299, 2017 |
5 |
Effect of operating pressure on particle temperature distribution in a fluidized bed with heat production Li Z, Annaland MV, Kuipers JAM, Deen NG Chemical Engineering Science, 169, 299, 2017 |
6 |
Effect of superficial gas velocity on the particle temperature distribution in a fluidized bed with heat production Li Z, Annaland MV, Kuipers JAM, Deen NG Chemical Engineering Science, 140, 279, 2016 |
7 |
Novel phenomenological discrete bubble model of freely bubbling dense gas-solid fluidized beds: Application to two-dimensional beds Movahedirad S, Dehkordi AM, Deen NG, Annaland MV, Kuipers JAM AIChE Journal, 58(11), 3306, 2012 |
8 |
Particle clusters and drag coefficients in gas-solid downer units Lanza A, Islam MA, de Lasa H Chemical Engineering Journal, 200, 439, 2012 |
9 |
Effect of thrust on supersonic gas jet penetration in gas-solid fluidized beds Cruz N, Briens C, Berruti F Powder Technology, 214(1), 38, 2011 |
10 |
Supersonic attrition nozzles in gas-solid fluidized beds Cruz N, Briens C, Berruti F Chemical Engineering and Processing, 49(3), 225, 2010 |