51 |
Energy-efficient process intensification for post-combustion CO2 capture: A modeling approach Jin H, Liu P, Li Z Energy, 158, 471, 2018 |
52 |
Multiphase flash calculation for system containing TBAB semiclathrate: Application to semiclathrate-based post-combustion CO2 capture Luo Y, Hu Y, Guo GJ, Ma QL, Liu AX, Sun Q, Guo XQ Fluid Phase Equilibria, 476, 157, 2018 |
53 |
Flexible operation of post-combustion solvent-based carbon capture for coalfired power plants using multi-model predictive control: A simulation study Wu X, Shen J, Li YG, Wang MH, Lawal A Fuel, 220, 931, 2018 |
54 |
The application of trans-1,4-diaminocyclohexane as a bicarbonate formation rate promoter in CO2 capture Li XQ, Yang Q, Pearson P, Yu B, Puxty G, Xiao D Fuel, 226, 479, 2018 |
55 |
Model-free adaptive control for MEA-based post-combustion carbon capture processes Li Z, Ding ZT, Wang MH, Oko E Fuel, 224, 637, 2018 |
56 |
Application of piece-wise linear system identification to solvent-based post-combustion carbon capture Liao PZ, Wu X, Li YG, Wang MH, Shen J, Lawal A, Xu CL Fuel, 234, 526, 2018 |
57 |
An investigation on the mechanism of the increased NO2 emissions from H-2-diesel dual fuel engine Li HL, Liu SY, Liew C, Li Y, Wayne S, Clark N International Journal of Hydrogen Energy, 43(7), 3837, 2018 |
58 |
Fabrication and field testing of spiral-wound membrane modules for CO2 capture from flue gas Salim W, Vakharia V, Chen YX, Wu DZ, Han Y, Ho WSW Journal of Membrane Science, 556, 126, 2018 |
59 |
[기획특집: 공기 중 이산화탄소 처리 연구동향] 연소 후 이산화탄소 포집용 건식 흡착제 최신 연구개발 동향 허영정, 이종훈, 이지원, 박수진 Korean Industrial Chemistry News, 21(4), 13, 2018 |
60 |
Characterization of new potassium-based solid sorbents prepared using metal silicates for post-combustion CO2 capture Cho MS, Lee SC, Chae HJ, Kwon YM, Lee JB, Kim JC Process Safety and Environmental Protection, 117, 296, 2018 |