1) Thesis of Master/DEA/PhD
2) Technical reports
3) Book chapters and books
4) Refereed journal articles
1) Theses of Master/DEA/PhD
Ø Lim, Y.I. (1996), NOx removal from the flue gas by using the urea solution in the pilot-scale plant, advised by S. D. Kim, Master thesis, KAIST (http://che.kaist.ac.kr/), Daejon,Korea
Ø Lim, Y.I. (1998), Multiobjective optimization considering economics and environmental impact for the chemical process simulation, advised by X. Joulia & P. Floquet, DEA thesis, ENSIACET (http://www.ensiacet.fr/), Toulouse, France.
Ø Lim, Y.I. (2001), Adaptive grid methods for the solution of partial differential equations: Application to the simulation of dynamic systems, advised by X. Joulia & J. M. Le Lann, PhD dissertation, ENSIACET (http://www.ensiacet.fr/), Toulouse, France
¨ç Moon, Y.-S. (2007), Environmental pollution prediction of field-applied animal manure using the artificial neural network and manure application rate model development, Master thesis, Hankyong National University (http://www.hknu.ac.kr/), Anseong, Korea.
¨è Lee, A.-L. (2008), Modeling and simulation of Simulated Moving Bed (SMB) process for whey protein separation, Master thesis, Hankyong National University (http://www.hknu.ac.kr/), Anseong, Korea.
¨é Son, H.-J. (2009), Adsorption isotherms and diffusivity predictions on adsorbent using molecular simulation, Master thesis, Hankyong National University (http://www.hknu.ac.kr/), Anseong, Korea.
¨êThanh D.B. Nguyen (2011), Multi-scale simulation approach to process development: computational fluid dynamics (CFD) and process modeling, PhD thesis, Hankyong National University, Anseong, Korea.
¨ë Son Ich Ngo (2012), Performance evaluations of dual circulating fluidized-beds for biomass gasification, Master thesis, Hankyong National University, Anseong, Korea.
2) Technical reports
As a collaborator or participant
¨ç Feasibility study of Nox reduction in Young-Nam thermal power plant by NOxOUT process, KAIST-KEPRI cooperation project, KRC-94Y-21, Daejon, Korea, 1994-1995.
¨è Dynamic modeling and simulation of chemical processes described by partial differential equations, France(ENSIGC)-Korea(Seoul university) scientific joint project, Toulouse, France, 1999-2000.
¨é Dynamic simulation of the two-phase catalytic reaction in the fixed bed reactor, ENSIACET-IFP (Institut français du pétrole) project, Toulouse, France, 2001.
¨ê AMES I/II (Alternative Methods of Energy efficient Separations), CAPEC-Ministry of Energy (Denmark), PEC03-51, Lyngby, Denmark, Dec. 2001-Dec. 2003.
¨ë Simulation study on ion-exchange SMB chromatographic process operated in Kemira A/S, CAPEC-Kemira (Denmark), final report, DTU, Denmark, Jan. 2003.
¨ì Program development for IGCC (integrated gasification combined cycle) gasifier performance calculation, December 2008 – November 2009 (1 year), supported by KEMCO (Korea energy management cooperation), final report, Korea.
¨í Modeling and simulation of circulating fluidized bed (CFB) coal gasifier for process design and operating condition optimization, August 2009 – February 2011 (1.5 years), supported by SK Energy, Technical progress report, Korea.
¨î Modeling and simulation for biomass gasification in fluidized bed gasifiers, May 2009 – April 2012 (3 years), supported by SeenTec (private company), Technical progress report, Korea.
As a responsible researcher
¨ç Process development for whey protein separation and purification, supported by KRF (Korea Research Foundation), April 2005 – March 2007 (2 years), final report, Korea.
¨è Kinetics modeling and CFD (computational fluid dynamics) simulation of hybrid SNCR-SCR process for NOx removal, supported by Ministry of Korea of environment, April 2006 – March 2009 (3 years), final report, Korea.
¨é A study of reaction characteristics and computer simulation of adsorptive separation - catalytic decomposition hybrid system for the removal of unintentional persistent organic pollutants, supported by KoSEF (Korea Science and Engineering Foundation), March 2006 – February 2009 (3 years), final report, Korea.
¨ê Multi-scale simulation starting at the molecular level for p-xylene separation using simulated moving bed (SMB) process, July 2008 – June 2010 (2 years), KRF (Korea Research Foundation), final report, Korea.
¨ë High performance computing program development for SMB process simulation and optimization, supported by SamsungTotal (private company), September 2009 – August 2011 (2 years), Technical progress report, Korea.
3) Book chapters and books
¨ç Lim, Y. I.; S. B. Jørgensen (2007), Partial Differential Equations and Computational Fluid Dynamics, Computer Aided Process and Product Engineering (CAPE), L. Puigjaner, G. Heyen (Editors), Wiley Interscience, Germany, Jan. 2007 (ISBN: 978-3-527-30804-0).
4) Refereed journal articles
¨ç Lim, Y.-I., K. S. Yoo, S. M. Jeong, S. D. Kim, J. B. Lee and B. S. Choi (1997), Removal of NOX from Flue Gases with the Injection of Urea Solution, Korean Chemical Engineering Research, 35, 83-89 (in Korean).
¨è Lim, Y.-I., P. Floquet, X. Joulia & S. D. Kim (1999), Multiobjective optimization in terms of economics and potential environment impact for process design and analysis in chemical process simulator, Ind. Eng. Chem. Res., 38(12), 4729-4741.
¨é Lim, Y.-I., P. Floquet & X. Joulia (2001), Efficient implementation of NBI method on multiobjective optimization problems, Ind. Eng. Chem. Res., 40(2), 648-655.
¨ê Lim, Y.-I., J. M. Le Lann & X. Joulia (2001), Accuracy, temporal performance and stability comparisons of discretization methods for the solution of Partial Differential Equations (PDEs) in the presence of steep moving fronts, Comp. Chem. Eng., 25(11-12), 1483-1492.
¨ë Lim, Y.-I., J. M. Le Lann & X. Joulia (2001), Moving mesh generation for tracking a shock or steep moving front, Comp. Chem. Eng., 25(4-6), 653-663.
¨ì Lee, G., E. S. Yoon, Y.-I. Lim, J. M. Le Lann and X. Joulia (2001), Adaptive mesh method for the simulation of crystallization processes including agglomeration and breakage: the potassium sulfate system, Ind. Eng. Chem. Res., 40(12), 6228-6235.
¨í Lim, Y.-I., J. M. Le Lann, X. M. Meyer, X. Joulia, G. B. Lee and E. S. Yoon (2002), On the solution of Population Balance Equations (PBE) with accurate front tracking methods in practical crystallization processes, Chem. Eng. Sci., 57(17), 177-194.
¨ç Lim, Y.-I., C. S. Chang & S. B. Jørgensen (2004), A novel partial differential algebraic equation (PDAE) solver: iterative space-time conservation element/solution element (CE/SE) method, Computers and Chemical Engineering, 28(8), 1309-1324.
¨è Lim, Y.-I. * & S. B. Jørgensen (2004), A fast and accurate numerical method for solving simulated moving bed (SMB) chromatographic separation problems, Chemical Engineering Science, 59, 1931-1947.
¨é 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.
¨ê 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.
¨ç Lim, Y.-I. (2007), Effects of desorbent flowrate on simulated moving bed (SMB) process performance, Kor. J. Che. Eng., 24(3), 391-396.
¨è Lim, Y.-I. *, Moon, Y.-S. and Kim, T.-W. (2007), Artificial neural network approach for prediction of ammonia emission from field-applied manure and relative significance assessment of ammonia emission factors, Europ. J. Agronomy, 26, 425–434.
¨é Lim, Y.-I.* & S. B. Jørgensen (2007), Optimization of a six-zone simulated moving bed chromatographic process, Ind. Eng. Chem. Res., 46, 3684-3697.
¨ê 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).
¨ë Moon, Y. S., Y.-I. Lim*, Tae-Wan Kim (2007), Prediction of ammonia emission rate from field-applied animal manure using the artificial neural network, Kor. Chem. Eng. Res., 45 (2), 133-142 (in Korean).
¨ç Son, H. J. and Y.-I. Lim* (2008), Multiscale simulation starting at the molecular level for adsorption process development, Chinese Journal of Chemical Engineering, 16(1), 108-111.
¨è Lim, Y.-I. * (2008), A non-equilibrium adsorption model satisfying electro-neutrality condition for ion-exchange chromatography, Chemical engineering communications, 195(8), 1011-1042.
¨é Thanh D. B. Nguyen, Young-Il Lim*, Seong-Joon Kim, Won-Hyeon Eom, and Kyung-Seun Yoo (2008), Experiment and CFD Simulation of Urea-Based Selective Non-Catalytic Reduction (SNCR) in a Pilot Scale Flow Reactor, Energy and Fuels, 22 (6), 3864–3876.
¨ê Hae-Jeong Son, Young-Il Lim* and Kyoung-Seun Yoo (2008), Multiscale simulation for adsorption process development: A case study of n-Hexane adsorption on activated carbon, Kor. Che. Eng. Res., 46(6), 1087-1094 (in Korean).
¨ë Thanh D. B. Nguyen, Tae-Ho Kang, Young-Il Lim*, Seong-Joon Kim, Won-Hyeon Eom, and Kyung-Seun Yoo (2008), Computational fluid dynamics (CFD) simulation for a pilot-scale selective non-catalytic reduction (SNCR) process using urea solution, Kor. Che. Eng. Res., 46(5), 922-930 (in Korean).
¨ç A.-L. Lee and Y.-I. Lim* (2009), Performance evaluation of the conservation element and solution element method in SMB process simulation, Chemical engineering and processing, 48(4), 878-884.
¨è Thanh D. B. Nguyen, Tae-Ho Kang, Young-Il Lim*, Seong-Joon Kim, and Kyung-Seun Yoo (2009), Application of Urea-based SNCR to a Municipal Incinerator: On site test and CFD simulation, Chemical Engineering Journal, 152(1), 36-43.
¨é Tae-Ho Kang, Thanh D. B. Nguyen, Young-il Lim*, Seong-Joon Kim, and Kyung-Seun Yoo (2009), Computational fluid dynamics (CFD) simulation for the urea-based selective non-catalytic reduction (SNCR) process in a municipal incinerator, Kor. Che. Eng. Res. 47(5), 630-638 (in Korean).
¨ê Young-Il Lim*, Hae-Jeong Son, Ohsung Lee, Kyong-Soo Nam and Kyoung-Seun Yoo (2009), Prediction of adsorption isotherms on activated carbon for persistent organic pollutants, Kor. Che. Eng. Res., 47(6), 747-754 (in Korean).
¨ç Thanh D. B. Nguyen, Young-il Lim*, Won-Hyeon Eom, Seong-Joon Kim, and Kyung-Seun Yoo (2010), Experiment and CFD Simulation of hybrid SNCR-SCR using Urea solution in a Pilot Scale Reactor, Computers & Chemical Engineering, 34, 1580-1589.
¨è Young-Il Lim*, Jinsuk Lee, Suresh K. Bhatia, Young-Sub Lim and Chonghun Han (2010), Improvement of para-xylene SMB process performance in industrial-scale, Industrial and Engineering Chemistry Research, 49 (7), 3316-3327.
¨é Jeong-Min Suh, Young-Il Lim*, Paul Massarotto, and Woo-Taik Lim, Effects of operating conditions on pressure drop for coke dust in a pulse-jet bagfilter, Separation Science and Technology, 45, 1228-1239.
¨ê Young-Il Lim*, Suresh K. Bhatia, and Thanh Xuan Nguyen, and David Nicholson, Prediction of carbon dioxide permeability in carbon slit pores, Journal of Membrane Science, 355(1-2),186-199.
¨ë Thanh D. B. Nguyen, Young-Il Lim*, Byung-Ho Song, Si-Moon Kim, Yong-Jin Joo, and Dal-Hong Ahn (2010), Two-stage equilibrium model applicable to the wide range of operating conditions in entrained-flow coal gasifiers, Fuel, 89, 3901-3910.
¨ç Jeong-Min Suh, Young-Il Lim* and John Zhu (2011), Experiment and modeling of pressure drop for coke dust in a pulse-jet bagfilter, Kor. J. Che. Eng., 28(2), 613-619.
¨è Young-Il Lim* and Suresh K. Bhatia (2011), Effect of dead volume on performance of simulated moving bed process, Adsorption, 17(1), 109-120, supported by KRF.
¨é Young-Il Lim* and Suresh K. Bhatia (2011), Simulation of methane permeability in carbon slit pores, Journal of membrane science, 369(1-2), 319-328, supported by KRF.
¨ê Myung Won Seo, Thanh D. B. Nguyen, Young Il Lim, Sang Done Kim*, Sun Won Park and Yong Jeon Kim (2010), Solid Circulation and Loop-Seal Characteristics of a Dual Circulating Fluidized Bed: Experiments and CFD Simulation, Chemical engineering Journal, 168(2), 803-811, supported by SK Energy.
¨ë Son Ich Ngo, Thanh D. B. Nguyen, Young-Il Lim*, Byung-Ho Song, Uen-Do Lee, Young-Tai Choi, Jae-Hun Song (2011), Performance evaluation for dual circulating fluidized-bed steam gasifier of biomass using quasi-equilibrium three-stage gasification model, Applied Energy, 88(12), p5208-5220.
¨ç Thanh D. B. Nguyen, Son Ich Ngo, Young-Il Lim*, Jeong Woo Lee, Uen-Do Lee, and Byung-Ho Song (2012), Three-stage steady-state model for biomass gasification in a dual circulating fluidized-bed, Energy Conversion and Management, 54(2), p100-112.
¨è Thanh D.B. Nguyen, Myung Won Seo, Young-Il Lim*, Byung-Ho Song, Sang-Done Kim (2012), CFD simulation with experiments in a dual circulating fluidized bed gasifier, Computers & Chemical Engineering, 36(1), p48-56. supported by SK Energy.
¨é 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.
¨ê Young-Il Lim* (2012), Optimal flushing flow rates in para-xylene simulated moving-bed considering geometric factor of dead volume, Adsorption, 18(5-6), 469-482.
¨ç Son Ich Ngo, Young-Il Lim*, Byung-Ho Song, Uen-Do Lee, Chang-Won Yang, Young-Tai Choi, and Jae-Hun Song (2013), Hydrodynamics of cold-rig biomass gasifier using semi-dual fluidized-bed, Powder technology, 234, p97-106.
¨è Young-Il Lim* (2012), State-of-arts in multiscale simulation for process development, Kor. Che. Eng. Res., 51(1), p10-24 (in Korean).
- edited May 8, 2013 -