1 |
Optimization studies for improving the throughput and solvent usage levels of a tandem simulated-moving-bed process for recovery of galactotriose from crude galacto-oligosaccharides Jo CY, Kang HJ, Mun SY Journal of Industrial and Engineering Chemistry, 118, 205, 2023 |
2 |
Numerical studies of co-axial travelling-wave thermoacoustic cooler powered by standing-wave thermoacoustic engine Saechan P, Jaworski AJ Renewable Energy, 139, 600, 2019 |
3 |
Consideration of a target product concentration level in the optimal design of a four-zone simulated moving bed process for binary separation Mun S Chemical Engineering Journal, 204, 179, 2012 |
4 |
Optimization of productivity in a four-zone simulated moving bed process for separation of succinic acid and lactic acid Nam HG, Han MG, Yi SC, Chang YK, Mun S, Kim JH Chemical Engineering Journal, 171(1), 92, 2011 |
5 |
Enhanced performance of a tandem simulated moving bed process for separation of paclitaxel, 13-dehydroxybaccatin III, and 10-deacetylpaclitaxel by making a difference between the adsorbent particle sizes of the two subordinate simulated moving bed units Mun S Process Biochemistry, 46(6), 1329, 2011 |
6 |
Comparison of Amberchrom-CG161C and Dowex99 as the adsorbent of a four-zone simulated moving bed process for removal of acetic acid from biomass hydrolyzate Nam HG, Jo SH, Mun S Process Biochemistry, 46(10), 2044, 2011 |
7 |
Simulated Moving Bed Multiobjective Optimization Using Standing Wave Design and Genetic Algorithm Lee KB, Kasat RB, Cox GB, Wang NHL AIChE Journal, 54(11), 2852, 2008 |
8 |
Simulated Moving Bed Chromatography의 시각적 설명 오난숙, 이종호, 김진일, 구윤모 Korean Chemical Engineering Research, 43(3), 360, 2005 |