| 1 |
Five-lump kinetic approach on biofuel production from refined rubber seed oil over Cu/ZSM-5 catalyst via catalytic cracking reaction
Singh HKG, Yusup S, Quitain AT, Abdullah B, Inayat A, Ameen M, Cheah KW, Sasaki M, Kida T, Chai YH
Renewable Energy, 171, 1445, 2021 |
| 2 |
Lumped Kinetic Modeling Method for Fluid Catalytic Cracking
Zhao XJ, Sun SY
Chemical Engineering & Technology, 43(12), 2493, 2020 |
| 3 |
In-situ upgrading and enhanced recovery of heavy oil from carbonate reservoirs using nano-catalysts: Upgrading reactions analysis
Elahi SM, Scott CE, Chen ZX, Pereira-Almao P
Fuel, 252, 262, 2019 |
| 4 |
Nine-lumped kinetic model for VGO catalytic cracking; using catalyst deactivation
Ebrahimi AA, Mousavi H, Bayesteh H, Towfighi J
Fuel, 231, 118, 2018 |
| 5 |
Pyrolysis. characteristics and kinetics of microalgal Aurantiochytrium sp KRS101
Vo TK, Ly HV, Lee OK, Lee EY, Kim CH, Seo JW, Kim J, Kim SS
Energy, 118, 369, 2017 |
| 6 |
Pyrolysis of microalgae residual biomass derived from Dunaliella tertiolecta after lipid extraction and carbohydrate saccharification
Kim SS, Ly HV, Kim J, Lee EY, Woo HC
Chemical Engineering Journal, 263, 194, 2015 |
| 7 |
Two-dimensional non-equilibrium model of liquid chromatography: Analytical solutions and moment analysis
Parveen S, Qamar S, Seidel-Morgenstern A
Chemical Engineering Science, 122, 64, 2015 |
| 8 |
Modeling of gas/particle flow in coal conversion with a drop tube reactor using a lumped kinetic model accounting volatiles-char interaction
Li CY, Appari S, Zhang LX, Huang AN, Kuo HP, Kudo S, Hayashi J, Norinaga K
Fuel Processing Technology, 138, 588, 2015 |
| 9 |
Kinetic analysis of vacuum residue hydrocracking in early reaction stages
Puron H, Arcelus-Arrillaga P, Chin KK, Pinilla JL, Fidalgo B, Millan M
Fuel, 117, 408, 2014 |
| 10 |
A new approach to estimate parameters of a lumped kinetic model for hydroconversion of heavy residue
Asaee SDS, Vafajoo L, Khorasheh F
Fuel, 134, 343, 2014 |
