PhD, University of Michigan-Ann Arbor, United States
Advanced control, modeling, simulation, and optimization of petrochemical and environmental chemical processes, water desalination and wastewater treatment plants, drug delivery systems, and heat integration processes. Ionic liquids and its applications.
- Water Disinfection - Microbial fuel cell - Membrane bioreactor Adsorption of heavy metals, phenols and dyes using biological materials activated by different methods.- Effect of salt on vapor-liquid equilibria - Effect of salt on liquid-liquid equilibria - Sorptive storage of natural gas-...
Interfacial fluid mechanics, boundary layer theory, entrance region problems, wetting and dewetting, oil spills hydrodynamics, sedimentation, blood flow dynamics, nanofluids, evaporation, chemical reaction engineering, natural gas liquids recovery, and process synthesis and optimization
Interfacial phenomena/surface, colloidal science and materials science. Emphasis is placed on problems that are related but not limited to polymers, composite materials, pharmaceutical products, environmental issues and corrosion.
Waste to energy via gasification and pyrolysis, computational fluid dynamic modelling of multiphase flow, hydrogen production, solar thermochemical conversion, production of biochar, applications of fluidized bed reactors, biofuels and high value products from algae and adsorption/desorption...