Joseph Sang-II Kwon

Assistant Professor

kwon_2015

Office: 331 ERB
Phone: 979.962.5930
Email: kwonx075@tamu.edu

Research Website
Curriculum Vitae

Research Interests

Dr. Kwon’s research focuses on the development of techniques for the modeling, simulation, and control of multiscale processes which are characterized by highly coupled phenomena occurring at disparate spatial and temporal scales. Specifically, Dr. Kwon is applying these techniques to crystallization, chemical vapor deposition, and hydraulic fracturing processes leading to new insights and addressing industrial concerns.

Education

  • Ph.D., University of California, Los Angeles, 2015
  • M.S., University of Pennsylvania, 2011
  • B.S., University of Minnesota, 2009

Selected Publications

J. S. Kwon, M. Nayhouse, and P. D. Christofides, “Detection and isolation of batch-to-batch parametric drift and drift-tolerant model predictive control of batch crystallization process,” Ind. & Eng. Chem. Res., 54, 5514-5526

M. Crose, J. S. Kwon, M. Nayhouse, D. Ni, and P. D. Christofides, “Modeling and control of PECVD for large area deposition of thin film solar cells,” Chem. Eng. Sci., 2015, 136, 50-61

J. S. Kwon, M. Nayhouse, D. Ni, G. Orkoulas, and P. D. Christofides, “A method for handling batch-to-batch parametric drift using moving horizon estimation: application to run-to-run MPC of batch crystallization,” Chem. Eng. Sci., 2015, 127, 210-219

J. S. Kwon, M. Nayhouse, G. Orkoulas, and P. D. Christofides, “Crystal shape and size control using a plug flow crystallization configuration,” Chem. Eng. Sci., 2014, 119, 30 – 39

J. S. Kwon, M. Nayhouse, P. D. Christofides, and G. Orkoulas, “Modeling and control of crystal shape in continuous protein crystallization,” Chem. Eng. Sci., 2014, 107, 47 – 57