NOC:Mass Transfer Operations-II


Lecture 1 - Basic concepts, Adiabatic saturation temperature


Lecture 2 - Design calculations of cooling tower


Lecture 3 - Design of cooling tower


Lecture 4 - Design of cooling tower


Lecture 5 - Air conditioning, Example problems on dehumidification


Lecture 6 - Mechanism of drying and drying equilibria, drying rate curve


Lecture 7 - Drying: rate of drying for batch dryers


Lecture 8 - Drying: rate of drying for continuous dryers


Lecture 9 - Drying time calculation from drying rate curve


Lecture 10 - Introduction to liquid-liquid extraction, liquid-liquid equilibria


Lecture 11 - Effect of temperature on LLE and Design of single stage extraction


Lecture 12 - Design Calculation of Multistage Operation


Lecture 13 - Design calculation of multistage cross-current extraction


Lecture 14 - Design calculation of multistage counter-current extraction, Selection of extractors


Lecture 15 - Leaching: single stage operation


Lecture 16 - Leaching: multistage operation


Lecture 17 - Supercritical Fluid Extraction, equipmet for leaching


Lecture 18 - Fundamentals of membrane separation processes


Lecture 19 - Manufacturing of membranes,advantages and limitations


Lecture 20 - Various models and applications: design aspects


Lecture 21 - Various models and applications: design aspects


Lecture 22 - Electric field enhanced membrane separation processes


Lecture 23 - Micellar-enhanced ultrafiltration


Lecture 24 - Adsorption: types and nature, isotherm


Lecture 25 - Stage wise and continuous adsorption


Lecture 26 - Fluidized bed and teeter bed


Lecture 27 - Unsteady state fixed bed adsorbers, ion exchange


Lecture 28 - Crystallization, types of crystal geometry


Lecture 29 - Solid-liquid phase equilibrium, Theory of crystallization


Lecture 30 - Design of crystallizer, crystallization equipment