| 1 |
Development of multi-component surrogates of diesel from indirect coal liquefaction for spray analysis
Huang Z, Xu XC, Ju DH, Han D, Qiao XQ, Huang Z
Energy, 152, 341, 2018 |
| 2 |
How policy choice affects investment in low-carbon technology: The case of CO2 capture in indirect coal liquefaction in China
Zhou WJ, Zhu B, Chen DJ, Zhao FX, Fei WY
Energy, 73, 670, 2014 |
| 3 |
Effects of SiO2 Incorporation Sequence on the Catalytic Properties of Iron-Based Fischer-Tropsch Catalysts Containing Residual Sodium
Chun DH, Park JC, Lee HT, Yang JI, Hong S, Jung H
Catalysis Letters, 143(10), 1035, 2013 |
| 4 |
Negative Effects of CO2 in the Feed Stream on the Catalytic Performance of Precipitated Iron-Based Catalysts for Fischer-Tropsch Synthesis
Chun DH, Lee HT, Yang JI, Kim HJ, Yang JH, Park JC, Kim BK, Jung H
Catalysis Letters, 142(4), 452, 2012 |
| 5 |
Economic evaluations of direct, indirect and hybrid coal liquefaction
Bae JS, Hwang IS, Kweon YJ, Choi YC, Park SJ, Kim HJ, Jung H, Han C
Korean Journal of Chemical Engineering, 29(7), 868, 2012 |
| 6 |
Technoeconomic assessment of China's indirect coal liquefaction projects with different CO2 capture alternatives
Zhou WJ, Zhu B, Chen DJ, Zhao FX, Fei WY
Energy, 36(11), 6559, 2011 |
| 7 |
Coal liquefaction technologies-Development in China and challenges in chemical reaction engineering
Liu ZY, Shi SD, Li YW
Chemical Engineering Science, 65(1), 12, 2010 |
| 8 |
Fischer-Tropsch 합성반응용 Fe계 촉매의 성능 및 물리화학적 특성에 미치는 SiO2 첨가효과
현순택, 천동현, 김학주, 양정훈, 양정일, 이호태, 이관영, 정헌
Korean Chemical Engineering Research, 48(3), 304, 2010 |
| 9 |
직·간접석탄액화공정의 경제성 평가
박주원, 배종수, 권영진, 김학주, 정헌, 한춘
Korean Chemical Engineering Research, 47(6), 781, 2009 |
| 10 |
직·간접 석탄액화 기술 동향
박주원, 박철환, 김학주, 정헌, 한춘
Korean Chemical Engineering Research, 46(2), 248, 2008 |
