Institute of Chemical Technology College

Can you provide me the Syllabus of M. Chemistry Engineering Program offered by ICT or Institute of Chemical Technology in Mumbai?

[Rajkumar Agarwal]

The Syllabus of M. Chemistry Engineering Program offered by ICT or Institute of Chemical Technology in Mumbai is as follows:

Subject code CE 151
Advanced Momentum Transfer
• Turbulent flow: basics, Reynolds average Navier-Stokes equations, closure problem, Boussinesques hypothesis, Prandtl mixing length theory, turbulence models, energy spectrum, Turbulent boundary layer, universal velocity profile
• Bernoulli’s equation and its applications
• Gas-liquid and solid-liquid fluidised beds: Characteristics of particles, Principle of fluidization and mapping of various regimes, Two phase theory of fluidisation, Bubbles in fluidized bed, Entrainment and Elutriation, Fast fluidised bed, Mixing, segregation and gas dispersion, Heat andmass transfer in fluidized bed, Solid-liquid fluidised bed and three phase fluidised bed, Design of fluidised bed reactors.

Subject Code CE 152
Advanced Heat Transfer

• Forced and natural convective heat transfer, analogies of momentum and heat transfer
• Design aspects of shell-and-tube heat exchangers; NTU-epsilon method; Bell Delaware method;Flow-stream analysis
• Design of compact heat exchangers
• Design aspects of condensers, reboilers, and evaporators
• Radiation heat transfer concepts, Angle factor calculations, Radiation calculation through gases and vapours, design methods for furnaces


Subject Code CE 153
Advanced Mass Transfer Operations
• Interphase mass transfer for multicomponent fluids in laminar and turbulent flows, Interfacialturbulence and Marangoni effects
• Stefan-Maxwell approach for milticomponent mass transfer, Multicomponent distillation; Determination of key components at minimum reflux ratio by the method of Shiras, et al.Rigorous methods of Lewis-Matheson, Thiele-Geddes, bubble point, sum rates method, Naphthali-Sandholm method, residue maps
• Azeotropic and extractive distillation; stage wise calculations for multicomponent with multiplefeed streams
• Liquid-liquid extraction; stage wise calculations for multicomponent with multiple feed streamsusing reflux and mixed solvents. Liquid-liquid extraction with chemical reaction
• Multicomponent gas absorption: Horton-Franklin method, Edmister method. Mass transfer in gasabsorption with and without chemical reaction, model solutions by Dankwerts; Brian; Perry and Pigford.