NOC:Membrane Technology (USB)

₹950.00
In stock



Media Storage Type : 32 GB USB Stick

NPTEL Subject Matter Expert : Prof. Kaustubha Mohanty

NPTEL Co-ordinating Institute : IIT Guwahati

NPTEL Lecture Count : 36

NPTEL Course Size : 17 GB

NPTEL PDF Text Transcription : Available and Included

NPTEL Subtitle Transcription : Available and Included (SRT)


Lecture Titles:

Lecture 1 - Separation Processes, Historical Development, Definition and Types of Membranes
Lecture 2 - Membrane Processes and Classifications, Advantages, Disadvantages, Applications
Lecture 3 - Polymer Basics, Polymers used in Membrane Preparation and their Properties
Lecture 4 - Inorganic Materials for Membrane Preparation, their Advantages and Disadvantages
Lecture 5 - Membrane Modules and Selection, Flow Types
Lecture 6 - Preparation of Synthetic Membrane, Phase Inversion Membranes
Lecture 7 - Composite membranes: Interfacial polymerization, dip-coating, plasma polymerization
Lecture 8 - Inorganic membranes: Sol-Gel process, ceramic membrane preparation, membrane modification
Lecture 9 - Porous and non-porous membranes, characterization of porous membranes and MF membrane
Lecture 10 - MF membrane characterization: Bubble point,Mercury intrusion, Permeability method
Lecture 11 - UF membrane characterization: Gas adsorption-desorption, Thermoporometry, MWCO method
Lecture 12 - Passive transport, active transport, description of transport process
Lecture 13 - Transport through porous membrane and nonporus membrane
Lecture 14 - Concept of osmosis and reverse osmosis, thermodynamic analysis
Lecture 15 - Revision of concepts and fundaments
Lecture 16 - HP and LP RO, membrane materials, modules, models for RO transport
Lecture 17 - Advantages of RO, fouling, RO applications, Pressure retarded osmosis
Lecture 18 - Nanofiltration basics, transport mechanism, fouling model and applications
Lecture 19 - Basic principles of UF, membranes and modules, UF configurations
Lecture 20 - Models for UF transport, mass transfer coefficient, membrane rejection and sieving coefficient
Lecture 21 - Factors affecting UF performance, fouling and permeate flux enhancement, UF applications1
Lecture 22 - Micellar-enhanced UF, affinity UF, UF based bioseparation
Lecture 23 - Basic principles, advantages of MF, cross-flow and dead-end MF, membranes and modules
Lecture 24 - Models for MF transport, plugging and throughput, fouling in MF, MF applications
Lecture 25 - Problems and solutions based on RO and MF
Lecture 26 - Problems and solutions based on UF
Lecture 27 - Dialysis, membranes and modules, mass transport in dialysis, diffusion analysis, applications
Lecture 28 - Ion-exchange membranes, ED process, energy requirement, applications, reverse ED
Lecture 29 - PV principle, advantages, mass transfer and applications, hybrid distillation/PV
Lecture 30 - Problems and solutions based on ED and PV
Lecture 31 - Concept, types of LM, mechanism of mass transfer in LM, choice of solvent and carrier, applications
Lecture 32 - Basic principle of gas separation, transport mechanism, factors affecting gas separation, applications
Lecture 33 - Basic principle of MD, mechanism, process parameters, membranes, applications
Lecture 34 - Mechanism, coupled transport, carrier agent, active and passive transport, applications
Lecture 35 - Gas-liquid and liquid-liquid contactors, membrane reactors and bioreactors, PEM hydrogen fuel cell
Lecture 36 - Perstraction, membrane chromatography and controlled drug delivery

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