| 1 |
A novel technique for residence time distribution (RTD) measurements in solids unit operations
Kiadehi AD, Leturia M, Otaola F, Ould-Dris A, Saleh K
Advanced Powder Technology, 32(2), 611, 2021 |
| 2 |
Working diagrams to identify the operating range of a bubbling fluidized bed reactor for theCO(2)methanation
Martin-del-Campo J, Kopyscinski J
Canadian Journal of Chemical Engineering, 99(3), 803, 2021 |
| 3 |
Multiphase Particle in Cell Simulations of Fluidized Beds: Studies on Bubble Rise Velocity and Minimum Fluidization Velocity
Pal K, Theuerkauf J
Chemie Ingenieur Technik, 93(1-2), 237, 2021 |
| 4 |
Fast pyrolysis of pitch pine biomass in a bubbling fluidized-bed reactor for bio-oil production
Tran QK, Le ML, Ly HV, Woo HC, Kim JS, Kim SS
Journal of Industrial and Engineering Chemistry, 98, 168, 2021 |
| 5 |
Particle-scale study of gas-solid flows in a bubbling fluidised bed: Effect of drag force and collision models
Wang TY, Wang S, Shen YS
Powder Technology, 384, 353, 2021 |
| 6 |
Reduction in minimum fluidization velocity and minimum bubbling velocity in gas-solid fluidized beds due to vibration
McLaren CP, Metzger JP, Boyce CM, Muller CR
Powder Technology, 382, 566, 2021 |
| 7 |
Flow behavior and heat transfer in bubbling fluidized-bed with immersed heat exchange tubes for CO2 methanation
Ngo SI, Lim YI, Lee D, Seo MW
Powder Technology, 380, 462, 2021 |
| 8 |
Verification and validation of the DDPM-EMMS model for numerical simulations of bubbling, turbulent and circulating fluidized beds
Adnan M, Sun J, Ahmad N, Wei JJ
Powder Technology, 379, 69, 2021 |
| 9 |
Scale-up effects of the flow structure in bubbling and turbulent fluidized beds
Wei XY, Liu JS, Zhu J
Powder Technology, 379, 223, 2021 |
| 10 |
Comparative analysis of numerically derived drag models for development of bed expansion ratio correlation in a bubbling fluidized bed
Bin Rashid TA, Zhu LT, Luo ZH
Advanced Powder Technology, 31(7), 2723, 2020 |
