2017

Journal articles

  1. Sreedhar, B.; Shen, B.; Li, H.; Rousseau, R.; Kawajiri, Y., Optimal Design of Integrated SMB-Crystallization Hybrid Separation Process Using a Binary Solvent. Organic Process Research & Development 2017, 21, (1), 31-43
  2. Sinha, A.; Darunte, L. A.; Jones, C. W.; Realff, M. J.; Kawajiri, Y., Systems Design and Economic Analysis of Direct Air Capture of CO2 through Temperature Vacuum Swing Adsorption Using MIL-101(Cr)-PEI-800 and mmen-Mg2(dobpdc) MOF Adsorbents. Industrial & Engineering Chemistry Research 2017, 56, (3), 750-764
  3. Griffin, D. J.; Kawajiri, Y.; Rousseau, R. W.; Grover, M. A., Using MC plots for control of paracetamol crystallization. Chemical Engineering Science 2017, 164, (8), 344-360.
  4. Guo, S.; Vengsarkar, P.; Bentley, J.; Weber, M.; Agrawal, G.; Dorsi, C.; Kawajiri, Y., A concurrent approach for process design and multicomponent adsorption modeling with local isotherms. Chemical Engineering Science 2017, 171, 426-439.
  5. Li, H.; Kawajiri, Y.; Grover, M. A.; Rousseau, R. W., Modeling of Nucleation and Growth Kinetics for Unseeded Batch Cooling Crystallization. Industrial & Engineering Chemistry Research 2017, 56, (14), 4060-4073.
  6. Amy, C.; Budenstein, D.; Bagepalli, M.; England, D.; DeAngelis, F.; Wilk, G.; Jarrett, C.; Kelsall, C.; Hirschey, J.; Wen, H.; Chavan, A.; Gilleland, B.; Yuan, C.; Chueh, W.; Sandhage, K.; Kawajiri, Y.; Henry, A., Pumping Liquid Metal at High Temperatures Up To 1,673 K. Nature, in press.

2016

Journal articles

  1. Kanchanalai, P.; Temani, G.; Kawajiri, Y.; Realff, M. J., Reaction kinetics of concentrated-acid hydrolysis for cellulose and hemicellulose and effect of crystallinity. BioResources 2016, 11, (1), 1672-1689
  2. Kalyanaraman, J.; Kawajiri, Y.; Lively, R.; Realff, M., Uncertainty quantification via Bayesian inference using sequential Monte Carlo methods for CO2 adsorption process AIChE Jounal 2016, 62, 3352–3368
  3. Griffin, D. J.; Grover, M. A.; Kawajiri, Y.; Rousseau, R. W., Data-Driven Modeling and Dynamic Programming Applied to Batch Cooling Crystallization. Industrial & Engineering Chemistry Research 2016, 55, (5), 1361-1372
  4. Yuan, C.; Jarett, C.; Chueh, W.; Kawajiri, Y.; Henry, A., A new solar fuels reactor using a liquid metal heat transfer fluid: modeling and sensitivity analysis. Journal of Thermal Engineering 2016, 4, (4), 837-852
  5. Jarrett, C.; Chueh, W.; Yuan, C.; Kawajiri, Y.; Sandhage, K. H.; Henry, A., Critical Limitations on the Efficiency of Two-Step Thermochemical Cycles. Solar Energy 2016, 123, 57-73
  6. Oh, J.; Sreedhar, B.; Donaldson, M. E.; Frank, T. C.; Schultz, A. K.; Bommarius, A. S.; Kawajiri, Y., Transesterification of Propylene Glycol Methyl Ether in Chromatographic Reactors Using Anion Exchange Resin as a Catalyst. Journal of chromatography A 2016, 1466, 84-95
  7. Tie, S.; Sreedhar, B.; Agrawal, G.; Oh, J.; Donaldson, M.; Frank, T.; Schultz, A.; Bommarius, A.; Kawajiri, Y., Model-based design and experimental validation of simulated moving bed reactor for production of glycol ether ester. Chemical Engineering Journal 2016, 301, 188-199

2015

 Journal articles:

  1. Agrawal, G.; Kawajiri, Y., Full superstructure for multi-objective optimization of multi-column chromatography for ternary separations. Chemical Engineering & Technology 2015, 38, (9), 1677-1682
  2. Griffin, D.; Kawajiri, Y.; Grover, M.; Rousseau, R., Feedback Control of Multicomponent Salt Crystallization. Crystal Growth & Design 2015, 15, (1), 305-317
  3. Griffin, D.; Kawajiri, Y.; Grover, M.; Rousseau, R., Mass-Count Plots for Crystal Size Control. Chemical Engineering Science 2015, 137, 338-351
  4. Yuan, C.; Jarett, C.; Chueh, W.; Kawajiri, Y.; Henry, A., A new solar fuels reactor concept based on a liquid metal heat transfer fluid: reactor design and efficiency estimation. Solar Energy 2015, 122, 547-561
  5. Kalyanaraman, J.; Fan, Y.; Lively, R. P.; Labreche, Y.; Kawajiri, Y.; Realff, M. J., Bayesian estimation of parametric uncertainties, quantification and reduction using optimal design of experiments for CO2adsoprtion on amine sorbents. Computers & Chemical Engineering 2015, 81, 376-388
  6. Kalyanaraman, J.; Fan, Y.; Lively, R. P.; Koros, W. J.; Jones, C. W.; Realff, M. J.; Kawajiri, Y., Modeling and experimental validation of carbon dioxide sorption on hollow fibers loaded with silica-supported poly(ethylenimine). Chemical Engineering Journal 2015, 259, 737-751
  7. Oh, J.; Agrawal, G.; Sreedhar, B.; Donaldson, M. E.; Schultz, A. K.; Frank, T. C.; Bommarius, A. S.; Kawajiri, Y., Conversion Improvement for Catalytic Synthesis of Propylene Glycol Methyl Ether Acetate by Reactive Chromatography: Experiments and Parameter Estimation. Chemical Engineering Journal 2015, 259, 397-409
  8. Fan, Y.; Kalyanaraman, J.; Labreche, Y.; Rezaei, F.; Lively, R.; Realff, M.; Koros, W. J.; Jones, C. W.; Kawajiri, Y., CO2 Sorption Performance of Composite Polymer/Aminosilica Hollow Fiber Sorbents: An Experimental and Modeling Study. Industrial and Engineering Chemistry Research 2015, 54, (6), 1783-1795

Proceedings 

  1. Kanchanalai, P.; Realff, M.; Kawajiri, Y. Dynamic Modelling and Optimal Design of the Solid-Phase Reactive Chromatographic Separation System for Biomass Saccharification via Acid Hydrolysis, Computer Aided Chemical Engineering: Proceedings of 12th International Symposium on Process Systems Engineering (PSE) and 25th European Symposium on Computer Aided Process Engineering (ESCAPE). , Copenhagen, Denmark  2015; Gernaey, K. V.; Huusom, J. K.; Gani, R., Eds. Elsevier B.V., pp 929-934(ISI Publication).
  2. Griffin, D.; Grover, M.; Kawajiri, Y.; Rousseau, R. Combining ATR-FTIR and FBRM for Feedback on Crystal Size, Proceedings of American Control Conference, Chicago, IL, 2015; IEEE, pp 4308-4313(ISI publication).
  3. Griffin, D.; Grover, M.; Kawajiri, Y.; Rousseau, R. Controlled Crystallization of Salts from Nuclear Waste Solutions, Proceedings of Annual Waste Management 2015, Phoenix, AZ, USA, 2015; 
  4. King, J. C.; Li, H.; Grover, M. A.; Kawajiri, Y.; Rousseau, R. W. Optimization of two-stage cooling profile in unseeded batch crystallization, International Symposium on Advanced Control of Chemical Processes (ADCHEM), Whistler, British Columbia, Canada, 2015; Elsevier, pp 297-302(ISI Publication).

2014

Journal articles:

  1. Kanchanalai, P.; Realff, M. J.; Kawajiri, Y., Solid Phase Reactive Chromatographic Separation System: Optimization-Based Design and its Potential Application to Biomass Saccharification via Acid Hydrolysis. Industrial & Engineering Chemistry Research 2014, 53, (41), 15946–15961
  2. Sreedhar, B.; Hobbs, D. T.; Kawajiri, Y., Simulated moving bed chromatography designs for lanthanide and actinide separations using Reillex HPQ™ resin. Separation and Purification Technology 2014, 136, (5), 50-57
  3. Agrawal, G, Oh, J., Sreedhar, B., Tie, S., Donaldson, M., Frank, T.C., Schultz, A.K., Bommarius, A.S., Kawajiri, Y.(2014). "Optimization of reactive simulated moving bed systems with modulation of feed concentration for production of glycol ether ester." Journal of Chromatography A, 1360, 196-208.
  4. Sreedhar, B.; Suzuki, T.; Hobbs, D. T.; Kawajiri, Y., Evaluation of tertiary pyridine resin for separation of lanthanides by simulated moving bed chromatography. Journal of Separation Science 2014, 37, (20), 2892-2899
  5. Bentley, J., Li, S., & Kawajiri, Y. (2014). "Experimental Validation of Optimized Model-Based Startup Acceleration Strategies for Simulated Moving Bed Chromatography." Industrial & Engineering Chemistry Research, 53, 12063−12076.
  6. Agrawal, G., Sreedhar, B., & Kawajiri, Y. (2014) Systematic optimization and experimental validation of ternary simulated moving bed chromatography systems, Journal of Chromatography A, 1356, 82-95.
  7. Sreedhar, B.; Kawajiri, Y., Multi-column chromatographic process development using simulated moving bed superstructure and simultaneous optimization - model correction framework. Chemical Engineering Science 2014, 116, 428-441.
  8. Griffin, D.; Grover, M.; Kawajiri, Y.; Rousseau, R. W., Robust Multicomponent IR-to-Concentration Model Regression. Chemical Engineering Science 2014, 116, 77-90.
  9. Rezaei, F., Subramanian, S., Kalyanaraman, J., Lively, R. P., Kawajiri, Y., & Realff, M. J. (2014). Modeling of rapid temperature swing adsorption using hollow fiber sorbents. Chemical Engineering Science, 113, 62–76.
  10. Li, H., Kawajiri, Y., Grover, M., & Rousseau, R. (2014). Application of an empirical FBRM model to estimate crystal size distributions in batch crystallization. Crystal Growth & Design, 14, 607–616.

Book chapter

 

  1. Swernath, S.; Searcy, K.; Rezaei, F.; Labreche, Y.; Lively, R. P.; Realff, M. J.; Kawajiri, Y., Optimization and Techno-economic Analysis of Rapid Temperature Swing Adsorption (RTSA) Process for Carbon Capture from Coal-fired Power Plant. In Computer Aided Chemical Engineering, You, F., Ed. Elsevier: Waltham, MA, 2015; Vol. 36, pp 253-278.

Proceedings 

  1. Kalnayaraman, Jayashree; Kawajiri, Yoshiaki; Realff, Matthew J. Bayesian Estimation, Uncertainty Propagation, and Design of Experiments for CO2 Adsorption on Amine Sorbents, Computer Aided Chemical Engineering (Proceedings of the 8th International Conference on Foundations of Computer-Aided Process Design), Cle Elm, WA, USA, 2014; Eden, M.; Siirola, J. D.; Towler, G. P., Eds. Elsevier, pp 345-350
  2. Swernath, Subramanian; Rezaei, Fateme; Kalnayaraman, Jayashree; Lively, Ryan P.; Realff, Matthew J.; Kawajiri, Yoshiaki Optimization and heat integration of hollow fiber based thermal swing adsorption process for CO2 capture from flue gas, Computer Aided Chemical Engineering (Proceedings of the 8th International Conference on Foundations of Computer-Aided Process Design), Cle Elm, WA, USA, 2014; Eden, M.; Siirola, J. D.; Towler, G. P., Eds. Elsevier, pp 633-638
  3. Griffin, D., Grover, M., Kawajiri, Y., & Rousseau, R. (2014). A Methodology For Monitoring Concentrations Of Complex Waste Solutions. Proceedings of Annual Waste Management (WM) Conference.

2013

Journal articles

  1. Kanchanalai, P., Lively, R. P., Realff, M. J., & Kawajiri, Y. (2013). Cost and Energy Savings Using an Optimal Design of Reverse Osmosis Membrane Pretreatment for Dilute Bioethanol Purification. Industrial & Engineering Chemistry Research, 52, 11132–11141.
  2. Bentley, J., Sloan, C., & Kawajiri, Y. (2013). Simultaneous modeling and optimization of nonlinear simulated moving bed chromatography by the prediction – correction method. Journal of Chromatography A, 1280, 51–63.
  3. Li, H., Grover, M., Kawajiri, Y., & Rousseau, R. W. (2013). Development of an empirical method relating crystal size distributions and FBRM measurements. Chemical Engineering Science, 89, 142–151.
  4. Bentley, J., & Kawajiri, Y. (2013). Prediction-correction method for optimization of simulated moving bed chromatography. AIChE Journal, 59(3), 736–746. 

2012 and earlier

Journal articles

  1. Lively, R. P., Bessho, N., Bhandari, D. a., Kawajiri, Y., & Koros, W. J. (2012). Thermally moderated hollow fiber sorbent modules in rapidly cycled pressure swing adsorption mode for hydrogen purification. International Journal of Hydrogen Energy, 37(20), 15227–15240.
  2. Agrawal, G., & Kawajiri, Y. (2012). Comparison of various ternary simulated moving bed separation schemes by multi-objective optimization. Journal of Chromatography A, 1238, 105-113.
  3. Li, S.; Kawajiri, Y.; Raisch, J. & Seidel-Morgenstern, A. Optimization of startup and shutdown operation of simulated moving bed chromatographic processes Journal of Chromatography A, 2011, 1218, 3876-3889
  4. Bentley, J.; Huang, Q.; Kawajiri, Y.; Eic, M. & Seidel-Morgenstern, A. Optimizing the separation of gaseous enantiomers by simulated moving bed and pressure swing adsorption Adsorption, 2011, 17, 159-170
  5. Suzhou Li, Yoshiaki Kawajiri, Jorg Raisch, and Andreas Seidel-Morgenstern. Optimization of simulated moving bed chromatography with fractionation and feedback: Part I. fractionation of one outlet. Journal of Chromatography A, 1217:5337-5348, 2010.
  6. Suzhou Li, Yoshiaki Kawajiri, Jorg Raisch, and Andreas Seidel-Morgenstern. Optimization of simulated moving bed chromatography with fractionation and feedback: Part II. fractionation of both outlets. Journal of Chromatography A, 1217:5349-5357, 2010.
  7. Jussi Hakanen, Yoshiaki Kawajiri, Lorenz T. Biegler, and Kaisa Miettinen. Interactive multiobjective optimization of superstructure SMB processes. Multiobjective Programming and Goal Programming, 618:221-230, 2009.
  8. Yoshiaki Kawajiri and Lorenz T. Biegler. Comparison of configurations of a four-column simulated moving bed process by multi-objective optimization. Adsorption, 14(2):433-442, 2008.
  9. Yoshiaki Kawajiri and Lorenz T. Biegler. Large scale optimization strategies for zone configuration of simulated moving beds. Computers & Chemical Engineering, 32(1-2):135-144, 2008.
  10. Jussi Hakanen, Yoshiaki Kawajiri, Kaisa Miettinen, and Lorenz T. Biegler. Interactive multi-objective optimization for simulated moving bed processes. Control and Cybernetics, 36(2):283, 2007.
  11. Yoshiaki Kawajiri and Lorenz T. Biegler. Large scale nonlinear programming for asymmetic design and operation of simulated moving beds. Journal of Chromatography A, 1133:226-240, 2006.
  12. Yoshiaki Kawajiri and Lorenz T. Biegler. A nonlinear programming superstructure for optimal dynamic operations of simulated moving bed processes. Industrial & Engineering Chemistry Research, 45(25):8503-8513, 2006.
  13. Yoshiaki Kawajiri and Lorenz T. Biegler. Optimization strategies for simulated moving bed and PowerFeed processes. AIChE Journal, 52(4):1343-1350, 2006.

Proceedings

  1. Kanchanalai, Pakkapol; Realff, Matthew J.; Kawajiri, Yoshiaki Optimal Process Configurations of Bioethanol Dehydration for Different Ethanol Inlet Concentrations and Throughputs, Computer Aided Chemical Engineering (Proceedings of the 11th International Symposium on Process Systems Engineering), Singapore, 2012; Karimi, I. A.; Srinivasan, R., Eds. Elsevier, pp 425-429
  2. Agrawal, G., & Kawajiri, Y. (2011). Optimization of ternary simulated moving bed separation by superstructure formulation. Foundations of Computer-Aided Process Operations (FOCAPO). Savannah, GA, USA.
  3. Li, Suzhou; Kawajiri, Yoshiaki; Raisch, Jörg; Seidel-Morgenstern, Andreas Optimization of simulated moving bed chromatography with fractionation and feedback incorporating an enrichment step, Computer Aided Chemical Engineering (21st European Symposium on Computer Aided Process Engineering), Chalkidiki, Greece, 2011; Pistikopoulos, E. N.; Georgiadis, M. C.; Kokossis, A. C., Eds. Elsevier B.V., pp 818-822 .
  4. Suzhou Li, Yoshiaki Kawajiri, Jorg Raisch, and Andreas Seidel-Morgenstern. Optimal startup operation of simulated moving bed chromatographic processes. In Proceedings of the 9th International Symposium on Dynamics and Control of Process Systems (DYCOPS 2010), pages 725-730, 2010.
  5. Kawajiri, Yoshiaki; Biegler, Lorenz T. Large scale optimization strategies for zone configuration of simulated moving beds, Computer Aided Chemical Engineering (16th European Symposium on Computer Aided Process Engineering and 9th International Symposium on Process Systems Engineering), Garmisch-Partenkirchen, Germany, 2008; Marquardt, W.; Pantelides, C., Eds. Elsevier B.V., pp 135-144.

Book chapter

  1. Economou, I., Pistikopoulous, E. N., Liu, J.-P., Kawajiri, Y., Gernaey, K. V., Woodley, J. M., Concepcio, J. Banares-Alcantara, R. (2012). Process Systems Engineering , 9 . Domain Engineering. In Ullman's Encyclopedia of Industrial Chemistry. Wiley-VCH Verlag GmbH.