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지속가능 공정기술 연구센터

Center of Sustainable Process Engineering

센터소개
연구분야
- 연구분야
- 산업적용분야
- 유사이동층(SMB)
- 압력스윙흡착탑(PSA)
- 화학공정 모사
- 소각로 CFD
- 유동층 CFD
- 아민 흡수탑 CFD
- 고분자 CFD
- 신재생에너지 공정 모사
논문/특허/과제
연구결과
교육
- 단기연수과정
- 교육프로그램
새소식
자료실

CoSPE

연구결과

● Process simulation and optimization

CoSPE is concentrated on the simulation and optimization of chemical/biological processes. Using NLP (Non-Linear Programming), MINLP (Mixed-Integer NLP) and MOP (Multiobjective Optimization Programming) techniques, optimum design/operation parameters are identified in terms of energy-efficiency, cost reduction, and environmental impacts.
An integrated environment has been developed for several specific purposes such as simulation, optimization and parameter estimation of SMB, PSA (pressure swing adsorption) and batch chromatographic processes, FAST-Chrom/SMB/PSA.
The following papers concern the simulation and optimization of SMB (simulated moving-bed) processes

[Batch chromatography]

[4-Zone SMB dynamics]

[4-Zone SMB dynamics at final step]

● Lim, Y.-I., C. S. Chang & S. B. Jørgensen (2004), A novel partial differential algebraic equation (PDAE):
iterative space-time conservation element/solution element (CE/SE) method, Comput.Chem.Eng., 28(8), 1309-1324.

● Lim, Y.-I. & S. B. Jørgensen (2004), A fast and accurate numerical method for solving simulated moving
bed (SMB) chromatographic separation problems, Chem. Eng. Sci., 59, 1931-1947.

● Lim, Y.-I.* (2004), An optimization strategy for nonlinear simulated moving bed chromatography: multi-level optimization procedure (MLOP), Kor. J. Chem. Eng., 21(4), 836-852.

● Lim, Y.-I.*, S. B. Jørgensen & I. H. Kim (2005), Computer-aided model analysis for ionic strength-dependent effective charge of protein in ion-exchange chromatography, Biochem. Eng. J., 25(2), 125-140.

● Lim, Y.-I.* (2007), Effects of desorbent flowrate on simulated moving-bed (SMB) process performance, Kor. J. Che. Eng., 24(3), 391-396.

● Lim, Y.-I.* & S. B. Jørgensen (2007), Optimization of a six-zone simulated moving bed chromatographic process,
Ind. Eng. Chem. Res., 46, 3684-3697.

● Lim, Y.-I.* & A.L. Lee (2007), Simulation of a six-zone simulated moving bed chromatographic process for NPK fertilizer production, Kor. Chem. Eng. Res., 45 (1), 1-11 (in Korean).

● Young-Il Lim* (2008), A non-equilibrium adsorption model satisfying electro-neutrality condition for ion-exchange chromatography, Chemical engineering communications, 195(8), 1011-1042.

● A.-L. Lee and Young-Il Lim* (2009), Performance evaluation of the conservation element and solution element method in SMB process simulation, Chemical engineering and processing, 48(4), 878-884.

● Young-Il Lim*, Jinsuk Lee, Suresh K. Bhatia, Young-Sub Lim and Chonghun Han (2010), Improvement of para-xylene SMB process performance on an industrial-scale, Industrial and Engineering Chemistry Research, 49 (7), 3316-3327.

● Young-Il Lim* and Suresh K. Bhatia (2011), Effect of dead volume on performance of simulated moving bed process, Adsorption, 17(1), 109-120. Sutanto, P.S.,

● Young-Il Lim*, and Jinsuk Lee (2012), Bed-line flushing and optimization in simulated moving-bed recovery of para-xylene, Separation and Purification Technology, 96, p168-181.

● Young-Il Lim* (2012), Optimal flushing flow rates in para-xylene simulated moving-bed considering geometric factor of dead volume, Adsorption, 18(5-6), p469-482.

● Young-il Lim* and Jinsuk Lee (2015), Optimization of commercial para-xylene simulated moving-bed simulation using extended Langmuir isotherms, Ind. Eng. Chem. Res., in press.

지속가능 공정기술 연구센터 Center of Sustainable Process Engineering

지속가능 공정기술 연구센터

Center of Sustainable Process Engineering