Dr. Subhasis Mandal
Dr. Subhasis Mandal
Assistant Professor
Office Address:
Room No: ChE 202D Chemical Engineering Department NIT Calicut Kozhikode Kerala
Indian Institute of Technology Kharagpur Kharagpur, India Ph.D, Chemical Engineering 2011-2017 Dissertation: Phase Equilibrium Modeling for HIx System in the Sulphur-Iodine Thermochemical Cycle
National Institute of Technology Durgapur Durgapur, India M. Tech. in Chemical Engineering, 2007-2009 Dissertation: Feasibility Study & Analysis of Phenol Biodegradation by Alcaligenes Faecalis Using Media Optimization Technique
Heritage Institute of Technology Kolkata Kolkata, India B.Tech, Chemical Engineering, 2003-2007
Educational Qualifications
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Indian Institute of Technology Kharagpur Kharagpur, India Ph.D, Chemical Engineering 2011-2017 Dissertation: Phase Equilibrium Modeling for HIx System in the Sulphur-Iodine Thermochemical Cycle
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National Institute of Technology Durgapur Durgapur, India M. Tech. in Chemical Engineering, 2007-2009 Dissertation: Feasibility Study & Analysis of Phenol Biodegradation by Alcaligenes Faecalis Using Media Optimization Technique
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Heritage Institute of Technology Kolkata Kolkata, India B.Tech, Chemical Engineering, 2003-2007
Journal Paper
Mandal, S. and Jana, A. K.(2016). A Comparative performance of thermodynamic models
for a quaternary (HI-H2O-I2-H2) hix system: experimental verification. International Journal
of Hydrogen Energy, vol. 41, pp. 13350-13358.
2. Mandal, S. and Jana, A. K.(2015). Predicting phase equilibrium of a ternary feed to the
hydroiodic acid section of SI thermochemical cycle. International Journal of Hydrogen
Energy, vol. 40, pp. 15381–15388.
3. Mandal, S. and Jana, A. K.(2014). A simple thermo-physical model for vapor-liquid
equilibrium of the reactive HIx (HI-H2O-I2-H2) system. Journal of Industrial and Engineering
Chemistry, vol. 10, pp. 1-5.
4. Mandal, S. and Jana, A. K.(2013). Prediction of phase equilibria of HIx system using
artificial neural network experimental verification.International Journal of Hydrogen Energy,
vol. 38, pp. 1244-1250.
5. Mandal, S., Bhunia, B., Kumar, A., Dasgupta, D.,Mandal, T., Datta, S. and
Bhattacharya, P.(2013). A statistical approach for optimization of media components for
phenol degradation by alcaligenes faecalis using plackett burman and response surface
methodology. Desalination and Water Treatment, vol. 51, pp. 6058-6069.
6. Mandal, S., Bhunia,B., Dasgupta,D., Mandal,T., Datta,S. and Bhattacharya,P. (2011)
Bacteria isolated from waste water effluent of Durgapur steel plant, Durgapur, West Bengal.
GenBank flat file, JF339228.
7. Mandal, T.,Dasgupta, D., Mandal, S. and Datta, S. (2010). Treatment of leather industry
wastewater by aerobic biological and fenton oxidation process. Journal of Hazardous
Materials, Vol. 180, pp. 204-211.
8. Palodkar, A. V., Mandal, S., Jana, A. K. (2016). Modeling Growth Kinetics of Gas Hydrate
in Porous Media: Experimental Validation. Energy & Fuels, vol. 30, pp. 7656-7665.
9. Mandal, S. and Jana, A. K. (2020). Simulating reactive distillation of HIx (HI-H2O-I2) system
inSulphur-Iodine cycle for hydrogen production. Nuclear Energy and Technology, vol. 52, pp.
279-286.
10. Sandhibigraha,S., Mandal, S., Awasthi,M., Bandyopadhyay,T.K., Bhunia,B. (2020).
Optimization of various process parameters for biodegradation of 4-chlorophenol using
Taguchi Methodology. Biocatalysis & Agricultural Biotechnology, vol. 20, pp. 101568.
Conference Proceedings
Mandal, S. and Sandilya, P.(2011). Numerical studies on production of natural gas from
natural gas hydrate in a deformable sediment bed. The7th International Conference on Gas
Hydrates Edinburgh International Conference Centre.
2. Mandal, S. and Sandilya, P.(2010). Natural gas production from submarine natural gas
hydrate by thermal stimulation. The Indian Chemical Engineering Congress(CHEMCON-
2010).
3. Mandal, S. and Sandilya, P.(2010). Theoretical study on seabed heating of natural gas
hydrate to Produce natural gas. 23rd National Symp. On Cryogenics, NITR.
4. Kumar, A., Mandal, S., Dasgupta, D. and Mandal, T.(2009). Biochemical Treatment of Waste
Water (Steel Industry) by P. Putida and Combination with Fenton’s Reagent. International
Conference on Water, Environment, Energy and Society.