| 1 |
General correlation for maximum heat transfer to surfaces submerged in gas-fluidized beds
Shah MM
Chemical Engineering Science, 185, 127, 2018 |
| 2 |
Two-phase heat transfer model of a beam-down gas-solid fluidized bed solar particle receiver
Briongos JV, Gomez-Hernandez J, Gonzalez-Gomez PA, Serrano D
Solar Energy, 171, 740, 2018 |
| 3 |
A study of heat transfer in fluidized beds using an integrated DIA/PIV/IR technique
Patil AV, Peters EAJF, Sutkar VS, Deen NG, Kuipers JAM
Chemical Engineering Journal, 259, 90, 2015 |
| 4 |
Comparison of CFD-DEM heat transfer simulations with infrared/visual measurements
Patil AV, Peters EAJF, Kuipers JAM
Chemical Engineering Journal, 277, 388, 2015 |
| 5 |
Characteristics of a Pressurized Gas-Solid Magnetically Fluidized Bed
Zhang JL, Feng ZY, Jia XQ, Xu SQ, Li W, Du MY
Chemical Engineering & Technology, 36(2), 241, 2013 |
| 6 |
Prevention of crystallization fouling during eutectic freeze crystallization in fluidized bed heat exchangers
Pronk P, Ferreira CAI, Witkamp GJ
Chemical Engineering and Processing, 47(12), 2140, 2008 |
| 7 |
A single particle model for surface-to-bed heat transfer in fluidized beds
Di Natale F, Lancia A, Nigro R
Powder Technology, 187(1), 68, 2008 |
| 8 |
Reduction of the volatile matter evolution rate from a plastic pellet during bubbling fluidized bed pyrolysis by using porous bed material
Winaya INS, Shimizu T
Chemical Engineering & Technology, 30(8), 1003, 2007 |
| 9 |
Validation of the use of heat transfer models in liquid/solid fluidized beds for ice slurry generation (vol 46, pg 3683, 2003)
Pronk P, Meewisse JW, Ferreira CAI
International Journal of Heat and Mass Transfer, 48(16), 3478, 2005 |
| 10 |
Validation of the use of heat transfer models in liquid/solid fluidized beds for ice slurry generation
Meewisse JW, Ferreira CAI
International Journal of Heat and Mass Transfer, 46(19), 3683, 2003 |
