Sang-II Kwon, Joseph - Department of Food Science & Technology

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.