|March 2017 - Present||Research Associate, Department of Chemical Engineering, Imperial College London, London, United Kingdom|
|April 2013 - February 2017||PhD and DIC in Chemical Engineering, Imperial College London, London, United Kingdom|
|September 2011 - August 2012||Research assistant in Chemical and Biological Engineering, Korea University, Seoul, Republic of Korea|
|September 2009 - August 2011||MSc in Chemical and Biological Engineering, Korea University, Seoul, Republic of Korea|
|September 2008 - December 2008||Exchange researcher in Institute for Process Engineering, Technical University of Berlin, Berlin, Germany|
|March 2004 - August 2009||BSc in Chemical and Biological Engineering, Korea University, Seoul, Republic of Korea|
October 2017 - Present, Development of engineered liposomes for targeted thrombolytic therapy, funded by NIHR BRC.
April 2017 - September 2017, Thermo-electro-mechanical optimisation of an electric motor, funded by Innovate UK.
April 2013 - February 2017, Modelling of reverse osmosis membrane process and transport phenomena for performance analysis and optimisation, funded by BP-ICAM. PhD thesis supervised by Prof Xiao Yun Xu and Prof Claire Adjiman in Department of Chemical Engineering, Imperial College London, UK
My research interests lie in the field of multiscale modelling and simulation of physical phenomena present in chemical, biological and environmental processes and model-based optimisation. I plan to broaden the scope of my research by integrating a molecular understanding of material properties and transport mechanisms into macroscale models.
B. Gu, C.S. Adjiman, X.Y. Xu. The effect of feed spacer geometry on membrane performance and concentration polarisation based on 3D CFD simulations. J. Membr. Sci. 527 (2017) 78-91
B. Gu, X.Y. Xu, C.S. Adjiman. A predictive model for spiral wound reverse osmosis membrane modules: The effect of winding geometry and accurate geometric details. Computers and Chemical Engineering 96 (2016) 248-265
B. Gu, D.Y. Kim, J.H. Kim, D.R. Yang, Mathematical model of flat sheet membrane modules for FO process: Plate-and-frame module and spiral-wound module, J. Membr. Sci. 379 (2011) 403–415
Do Yeon Kim, Boram Gu, Joon Ha Kim, Dae Ryook Yang, Theoretical analysis of a seawater desalination process integrating forward osmosis, crystallization, and reverse osmosis, J. Membr. Sci. 444 (2013) 440–448
Jae Sung Kim, Dae Hun Kim, Boram Gu, Do Yeon Kim, Dae Ryook Yang, Simulation of Taylor–Couette reactor for particle classification using CFD, J. Crystal Growth, Simulation of Taylor–Couette reactor for particle classification using CFD, J. Crystal Growth 373 (2013) 106–110
Do Yeon Kim, Myoung Ho Lee, Boram Gu, Joon Ha Kim, Sangho Lee, Dae Ryook Yang, Modeling of solute transport in multi-component solution for reverse osmosis membranes, Desalin. Water Treat. 15 (2010) 20–28
GTA for Dynamic Behaviour of Process Systems (2016/2017)
GTA for Reactor Design and Process Control Project (2015/2016)
GTA for Reactor Design and Process Control Project (2014/2015)
GTA for 2014-2016 summer school where we hosted around 50 students from Georgia Institute of Technology, GA, USA, University of Notre Dame, IN, USA and Cornell University, NY, USA.
GTA for Reactor Design Project (2013/2014)
GTA for Introduction to MATLAB (2013/2014)
Awards and Funding
- BP-ICAM PhD studentship
ACEX 1M17B, Department of Chemical Engineering
Imperial College London
South Kensington Campus
London SW7 2AZ UK
+44 (0)207 594 2562