Modules / Lectures
Module NameDownload


Sl.No Chapter Name MP4 Download
1Lec 1 : Separation Processes, Historical Development, Definition and Types of MembranesDownload
2Lec 2 : Membrane Processes and Classifications, Advantages,Disadvantages, ApplicationsDownload
3Lec 3 : Polymer Basics, Polymers used in Membrane Preparation and their PropertiesDownload
4Lec 4 : Inorganic Materials for Membrane Preparation, their Advantages and DisadvantagesDownload
5Lec 5 : Membrane Modules and Selection, Flow TypesDownload
6Lec 6 : Preparation of Synthetic Membrane, Phase Inversion MembranesDownload
7Lec 7: Composite membranes: Interfacial polymerization, dip-coating, plasma polymerizationDownload
8Lec 8: Inorganic membranes: Sol-Gel process, ceramic membrane preparation, membrane modification Download
9Lec 9: Porous and non-porous membranes, characterization of porous membranes and MF membrane Download
10Lec 10: MF membrane characterization: Bubble point,Mercury intrusion, Permeability methodDownload
11Lec 11:UF membrane characterization: Gas adsorption-desorption, Thermoporometry, MWCO methodDownload
12Lec 12:Passive transport, active transport, description of transport process Download
13Lec 13: Transport through porous membrane and nonporus membraneDownload
14Lec 14: Concept of osmosis and reverse osmosis, thermodynamic analysisDownload
15Lec 15: Revision of concepts and fundamentsDownload
16Lec 16: HP and LP RO, membrane materials, modules, models for RO transportDownload
17Lec 17: Advantages of RO, fouling, RO applications, Pressure retarded osmosisDownload
18Lec 18: Nanofiltration basics, transport mechanism, fouling model and applicationsDownload
19Lec 19: Basic principles of UF, membranes and modules, UF configurationsDownload
20Lec 20: Models for UF transport, mass transfer coefficient, membrane rejection and sieving coefficientDownload
21Lec 21: Factors affecting UF performance, fouling & permeate flux enhancement, UF applications1Download
22Lec 22: Micellar-enhanced UF, affinity UF, UF based bioseparationDownload
23Lec 23: Basic principles, advantages of MF, cross-flow and dead-end MF, membranes and modulesDownload
24Lec 24: Models for MF transport, plugging and throughput, fouling in MF, MF applicationsDownload
25Lec 25:Problems and solutions based on RO & MFDownload
26Lec 26: Problems and solutions based on UFDownload
27Lec 27: Dialysis, membranes and modules, mass transport in dialysis, diffusion analysis, applicationsDownload

Sl.No Chapter Name English
1Lec 1 : Separation Processes, Historical Development, Definition and Types of MembranesDownload
To be verified
2Lec 2 : Membrane Processes and Classifications, Advantages,Disadvantages, ApplicationsDownload
To be verified
3Lec 3 : Polymer Basics, Polymers used in Membrane Preparation and their PropertiesDownload
To be verified
4Lec 4 : Inorganic Materials for Membrane Preparation, their Advantages and DisadvantagesDownload
To be verified
5Lec 5 : Membrane Modules and Selection, Flow TypesDownload
To be verified
6Lec 6 : Preparation of Synthetic Membrane, Phase Inversion MembranesDownload
To be verified
7Lec 7: Composite membranes: Interfacial polymerization, dip-coating, plasma polymerizationDownload
To be verified
8Lec 8: Inorganic membranes: Sol-Gel process, ceramic membrane preparation, membrane modification Download
To be verified
9Lec 9: Porous and non-porous membranes, characterization of porous membranes and MF membrane Download
To be verified
10Lec 10: MF membrane characterization: Bubble point,Mercury intrusion, Permeability methodPDF unavailable
11Lec 11:UF membrane characterization: Gas adsorption-desorption, Thermoporometry, MWCO methodPDF unavailable
12Lec 12:Passive transport, active transport, description of transport process PDF unavailable
13Lec 13: Transport through porous membrane and nonporus membranePDF unavailable
14Lec 14: Concept of osmosis and reverse osmosis, thermodynamic analysisPDF unavailable
15Lec 15: Revision of concepts and fundamentsPDF unavailable
16Lec 16: HP and LP RO, membrane materials, modules, models for RO transportPDF unavailable
17Lec 17: Advantages of RO, fouling, RO applications, Pressure retarded osmosisPDF unavailable
18Lec 18: Nanofiltration basics, transport mechanism, fouling model and applicationsPDF unavailable
19Lec 19: Basic principles of UF, membranes and modules, UF configurationsPDF unavailable
20Lec 20: Models for UF transport, mass transfer coefficient, membrane rejection and sieving coefficientPDF unavailable
21Lec 21: Factors affecting UF performance, fouling & permeate flux enhancement, UF applications1PDF unavailable
22Lec 22: Micellar-enhanced UF, affinity UF, UF based bioseparationPDF unavailable
23Lec 23: Basic principles, advantages of MF, cross-flow and dead-end MF, membranes and modulesPDF unavailable
24Lec 24: Models for MF transport, plugging and throughput, fouling in MF, MF applicationsPDF unavailable
25Lec 25:Problems and solutions based on RO & MFPDF unavailable
26Lec 26: Problems and solutions based on UFPDF unavailable
27Lec 27: Dialysis, membranes and modules, mass transport in dialysis, diffusion analysis, applicationsPDF unavailable


Sl.No Language Book link
1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available