Profile
Dr Kok Foong LEE
Software Developer
Dr Kok Foong Lee obtained his PhD in Chemical Engineering from the University of Cambridge under the supervision of Prof. Markus Kraft. Upon completion of his doctorate, he worked as a computational scientist at CMCL, contributing to various interdisciplinary projects involving knowledge graphs. His work included applications such as modelling pollutant dispersion from ships in DOME 4.0 and contributing to CReDo a climate resilience demonstrator aimed at showcasing the potential of digital twins to tackle climate change.
Currently, he applies his expertise as a software developer at CARES, particularly in the areas of air quality estimation and integrating trajectories into The World Avatar.
Singapore - CARES
Researchers
PIPS
Research Interest
Key Publications
Google Scholar Link
McGuire, Andrew, Kok Foong Lee, Maksym Dosta, Sebastian Mosbach, Jan-Georg Rosenboom, Stefan Heinrich, and Markus Kraft. 2017. ‘Compartmental Residence Time Estimation in Batch Granulators Using a Colourimetric Image Analysis Algorithm and Discrete Element Modelling’. Advanced Powder Technology 28 (9): 2239–55. https://doi.org/10.1016/j.apt.2017.06.005.
Lee, Kok Foong, Maksym Dosta, Andrew McGuire, Sebastian Mosbach, Wolfgang Wagner, Stefan Heinrich, and Markus Kraft. 2017. ‘Development of a Multi-Compartment Population Balance Model for High-Shear Wet Granulation with Discrete Element Method’. Computers & Chemical Engineering 99: 171–84. https://doi.org/10.1016/j.compchemeng.2017.01.022.
Lee, Kok Foong, Sebastian Mosbach, Markus Kraft, and Wolfgang Wagner. 2015. ‘A Multi-Compartment Population Balance Model for High Shear Granulation’. Computers & Chemical Engineering 75 (April): 1–13. https://doi.org/10.1016/j.compchemeng.2015.01.009.
Lee, Kok Foong, Robert Patterson, Wolfgang Wagner, and Markus Kraft. 2015. ‘Stochastic Weighted Particle Methods for Population Balance Equations with Coagulation, Fragmentation and Spatial Inhomogeneity’. Journal of Computational Physics 303: 1–18. https://doi.org/10.1016/j.jcp.2015.09.031.