| 1 |
Effect of slurry phase catalyst and H2 pressure on hydrocracking of SDA (solvent de-asphalting) pitch
Pham DV, Nguyen NT, Kang KH, Seo PW, Kim GT, Park YK, Park SY
Korean Journal of Chemical Engineering, 39(5), 1215, 2022 |
| 2 |
Change of physical properties with the slurry-phase hydrocracking reaction of vacuum residue
Lim SH, Go KS, Kwon EH, Pham HH, Nho NS, Kim KH, Lee JG, Park SY
Journal of Industrial and Engineering Chemistry, 98, 425, 2021 |
| 3 |
Viscosity Reduction of Heavy Oil during Slurry-Phase Hydrocracking
Quitian A, Fernandez Y, Ancheyta J
Chemical Engineering & Technology, 42(1), 148, 2019 |
| 4 |
Modeling, simulation, and parametric sensitivity analysis of a commercial slurry-phase reactor for heavy oil hydrocracking
Calderon CJ, Ancheyta J
Fuel, 244, 258, 2019 |
| 5 |
Comparison of hydrocracking kinetic models based on SARA fractions obtained in slurry-phase reactor
Felix G, Ancheyta J
Fuel, 241, 495, 2019 |
| 6 |
Residue upgradation with slurry phase catalyst: Effect of feedstock properties
Prajapati R, Kohli K, Maity SK
Fuel, 239, 452, 2019 |
| 7 |
슬러리상 수첨분해 반응에서 아로마틱 유분 첨가에 따른 코크 저감 및 아스팔텐 전환 특성
임석현, 고강석, 노남선, 이재구
Korean Chemical Engineering Research, 57(2), 244, 2019 |
| 8 |
Fischer-Tropsch synthesis. Effect of KCl contaminant on the performance of iron and cobalt catalysts
Ma WP, Jacobs G, Pendyala VRR, Sparks DE, Shafer WD, Thomas GA, MacLennan A, Hu YF, Davis BH
Catalysis Today, 299, 28, 2018 |
| 9 |
Characteristics of slurry-phase hydrocracking for vacuum residue with reaction temperature and concentrations of MoS2 dispersed catalysts
Go KS, Lim SH, Kim YK, Kwon EH, Nho NS
Catalysis Today, 305, 92, 2018 |
| 10 |
Effect of asphaltene dispersion on slurry-phase hydrocracking of heavy residual hydrocarbons
Nguyen TM, Jung J, Lee CW, Cho J
Fuel, 214, 174, 2018 |
