Post Doctoral research
+44 1865 615144
University of Oxford
Andrew Wiles Building
Radcliffe Observatory Quarter
Pressure driven transport of neutral macro-solute in microchannel with porous wall at high surface potential
International Journal of Heat and Mass Transfer volume 104 page 574-583 (January 2017)
Transport phenomena; flow through porous media; CFD simulations of mass transport; molecular simulation of self assembled systems; microfluidic mass transport though porous walls of micro and nanochannels
Teaching assitant to numerical methods and programming for chemical engineering problems course (4 semesters)
Prizes, Awards, and Scholarships:
Shastri Indo-Canadian Institute Faculty and Student Mobility Award for the year 2012-13
Finalist of the IChemE 2016 global award (individual researcher category)
Major / Recent Publications:
S. Mondal, M.K. Purkait, S. De, Advances in Dye Removal Technologies, 2015, Springer:GmbH (In Press).
S. De, S. Mondal and S. Banerjee, Stevioside: Technology, Applications and Health, 2013, Wiley-Blackwell: Oxford (ISBN 978-1-11-835066-9).
S. Mondal, B.K. Thakur, K. Yadav, M. Mondal, R. Mukherjee, A. Roy, B. Barman, S. De, Design of low cost arsenic filter using activated laterite, Indian Patent (2013) 430/KOL/2013.
S. Mondal, R. Mukherjee and S. De, Process modeling for removal of phenolic compounds from industrial wastewater using mixed matrix membrane, Industrial & Engineering Chemistry Research, 54 (2015) 514-521.
S. Mondal, A. Cassano, F. Tasselli and S. De, Modeling of Turbulent Cross Flow Microfiltration of Pomegranate Juice using Hollow Fiber Membranes, AIChE Journal, 60 (2014) 4279-4291.
S. Mondal and S. De, Effects of non-Newtonian power law rheology on mass transport of a neutral solute for electro-osmotic flow in a porous microtube, Biomicrofluidics, 7 (2013) 044113.
S. Mondal, S. Ghosh and S. De, A molecular simulation based assessment of binding of metal ions on micelles, Langmuir, 28 (2012) 11329-11336.
S. Mondal, Chhaya and S. De, Prediction of ultrafiltration performance during clarification of stevia extract, Journal of Membrane Science, 396 (2012) 138-148.
S. Mondal, A. Cassano, F. Tasselli and S. De, A generalized model for clarification of fruit juice during ultrafiltration under total recycle and batch mode, Journal of Membrane Science, 366 (2011) 295–303.
S. Mondal and S. De, Generalized criteria for identification of fouling mechanism under steady state membrane filtration, Journal of Membrane Science, 344 (2009) 6–13.
S. Mondal, S. B. Mlouka, M. Dhahbi and S. De, A physico-chemical model for polyelectrolyte enhanced ultrafiltration, Journal of Membrane Science, 376 (2011) 142–152.
S. Mondal and S. De, A fouling model for steady state crossflow membrane filtration considering sequential intermediate pore blocking and cake formation, Separation and Purification Technology, 75 (2010) 222–228.
S. Mondal and S. De, Mass transfer of a neutral solute in porous microchannel under streaming potential, Electrophoresis, 35 (2014) 681-690.
S. Mondal, R. Mukherjee, S. Chatterjee and S. De, Adsorption-concentration polarization model for ultrafiltration in mixed matrix membrane, AIChE Journal, 60 (2014) 2354-2364.
S. Mondal, M. Dhahbi and S. De, Kinetic modeling for dye removal using polyelectrolyte enhanced ultrafiltration, Journal of Hazardous Materials, 229-230 (2012) 381-389.
S. Mondal, Chhaya and S. De, Modeling of the crossflow ultrafiltration of stevia extract in a rectangular cell, Journal of Food Engineering, 112 (2012) 326-337.
S. Mondal, A. Cassano and S. De, Modeling of gel layer controlled microfiltration in a radial cross flow cell, Food and Bioprocess Technology, 7 (2013) 355-370.