| 1 |
Thermo-economic optimization of hydrogen production in a membrane-SMR integrated to ITM-oxy-combustion plant using genetic algorithm
Sanusi YS, Mokheimer EMA
Applied Energy, 235, 164, 2019 |
| 2 |
Application of ITM to improve the efficiency of SOFC/GTCC triple combined cycle with carbon capture
Jeong JH, Ahn JH, Kim TS
Energy, 182, 1141, 2019 |
| 3 |
Numerical analysis of an ion transport membrane system for oxy-fuel combustion
Shin D, Kang S
Applied Energy, 230, 875, 2018 |
| 4 |
Thermo-economic analysis of integrated membrane-SMR ITM-oxy-combustion hydrogen and power production plant
Sanusi YS, Mokheimer EMA, Habib MA
Applied Energy, 204, 626, 2017 |
| 5 |
Advances in ion transport membrane technology for oxygen and syngas production
Anderson LL, Armstrong PA, Broekhuis RR, Carolan MF, Chen J, Hutcheon MD, Lewinsohn CA, Miller CF, Repasky JM, Taylor DM, Woods CM
Solid State Ionics, 288, 331, 2016 |
| 6 |
The coupling effect of gas-phase chemistry and surface reactions on oxygen permeation and fuel conversion in ITM reactors
Hong J, Kirchen P, Ghoniem AF
Journal of Membrane Science, 488, 1, 2015 |
| 7 |
Surface oxygen vacancy and oxygen permeation flux limits of perovskite ion transport membranes
Hunt A, Dimitrakopoulos G, Ghoniem AF
Journal of Membrane Science, 489, 248, 2015 |
| 8 |
Decreasing interfacial losses with catalysts in La0.9Ca0.1FeO3-delta membranes for syngas production
Yu AS, Kim J, Oh TS, Kim G, Gorte RJ, Vohs JM
Applied Catalysis A: General, 486, 259, 2014 |
| 9 |
Advances in ion transport membrane technology for Syngas production
Miller CF, Chen J, Carolan MF, Foster EP
Catalysis Today, 228, 152, 2014 |
| 10 |
Optimal design and operation of membrane-based oxy-combustion power plants
Gunasekaran S, Mancini ND, Mitsos A
Energy, 70, 338, 2014 |
