
-
Joseph Sang-II Kwon
- Assistant Professor, Chemical Engineering
- Office:
- 331 ERB
- Email:
- kwonx075@tamu.edu
- Phone:
- 979-862-5930
- https://kwon.engr.tamu.edu/
- Undergraduate Education
- B.S., University of Minnesota - 2009
- Graduate Education
- M.S., University of Pennsylvania - 2011
- Ph.D., University of California, Los Angeles - 2015
- Awards
- 2020 KSEA Young Investigator Grant
- 2020 TEES Young Faculty Fellow Award
- The Artie McFerrin Department of Chemical Engineering Distinguished Teaching Award 2019
- Korean Institute of Chemical Engineers (KIChE) President Young Investigator Grant 2019
Research Interests
- Modeling, simulation, and control of multiscale processes which are characterized by highly coupled phenomena occurring at disparate spatial and temporal scales
- Crystallization
- Chemical vapor deposition
- Hydraulic fracturing processes
Select Publications
- A. Narasingam and J. S. Kwon, “Development of local dynamic mode decomposition with control: Application to model predictive control of hydraulic fracturing,” Comp. & Chem. Eng., 106, 501-511, 2017.
- P. Siddhamshetty and J. S. Kwon, “Modeling of hydraulic fracturing and design of online optimal pumping schedule to achieve uniform proppant concentration,” Comp. & Chem. Eng., in press (A Special Issue dedicated to FOCAPO/CPC 2017).
- A. Narasingam and J. S. Kwon, “Temporal clustering for order reduction of nonlinear parabolic PDE systems with time-dependent spatial domains: Application to a hydraulic fracturing process,” AIChE J., 63, 3818-3831, 2017.
- P. Siddhamshetty, S. Liu, P. Valko, J. S. Kwon, “Feedback control of proppant bank heights during hydraulic fracturing for enhanced productivity in shale formations,” AIChE J., submitted.
- S. Yang, P. Siddhamshetty and J. S. Kwon, “Optimal pumping schedule design to achieve a uniform proppant concentration level in hydraulic fracturing,” Comp. & Chem. Eng., 101, 138-147, 2017.