Description |
1 online resource |
|
text txt rdacontent |
|
computer c rdamedia |
|
online resource cr rdacarrier |
Note |
Includes index. |
|
Print version record. |
Contents |
Front Cover -- Membrane Separation Processes -- Copyright Page -- Contents -- Preface -- 1 Solubility parameter -- 1.1 Why is the solubility parameter necessary? -- 1.2 Theory -- 1.3 Examples of the solubility parameter -- Nomenclature -- References -- 2 Triangular phase diagram -- 2.1 Principles -- 2.1.1 Thermodynamics of polymer solution -- 2.1.2 Solutions for the ternary system using Flory-Huggins equations -- Nomenclature -- References -- 3 Reverse osmosis, forward osmosis, and pressure-retarded osmosis -- 3.1 Reverse osmosis -- 3.1.1 Reverse osmosis performance -- 3.2 Concentration polarization -- 3.3 Prediction of RO performance considering concentration polarization -- 3.4 Pore models -- 3.4.1 Preferential sorption-capillary flow model -- 3.4.2 Glückauf model -- 3.5 Forward osmosis and pressure-retarded osmosis -- 3.5.1 Principles of forward osmosis, reverse osmosis, and pressure-retarded osmosis -- 3.5.2 Applications of forward osmosis -- 3.5.3 Concentration polarization in forward osmosis -- 3.5.4 Forward osmosis transport -- Nomenclature -- References -- 4 Nanofiltration -- 4.1 Solution in general -- 4.2 Solution for mono-monovalent electrolytes -- 4.3 Solution method -- Nomenclature -- References -- 5 Ultrafiltration and microfiltration -- 5.1 Ultrafiltration: gel model -- 5.2 Microfiltration: Brownian diffusion, shear-induced diffusion, inertia lift -- 5.2.1 Brownian diffusion -- 5.2.2 Shear-induced diffusion -- 5.2.3 Inertial lift -- Nomenclature -- References -- 6 Membrane gas separation -- 6.1 Solution-diffusion model -- 6.1.1 Steady-state transport -- 6.1.2 Unsteady-state evaluation of S and D by the time-lag method -- 6.1.3 Separation of binary gas mixture -- 6.1.4 Resistance model -- 6.2 Gas transport in porous membrane -- 6.2.1 Transport mechanism -- 6.2.2 Separation of gas mixture by the porous membrane. |
|
6.2.3 Measurement of pore size and pore size distribution -- 6.3 Mixed matrix membrane -- Nomenclature -- References -- 7 Pervaporation -- 7.1 Pervaporation transport -- 7.2 Pervaporation transport model by Greenlaw and coworkers -- 7.3 A new model for pervaporation transport -- Nomenclature -- References -- 8 Membrane distillation -- 8.1 About membrane distillation -- 8.1.1 Process principles -- 8.1.2 Different membrane distillation configurations -- 8.1.2.1 Direct contact membrane distillation -- 8.1.2.2 Air gap membrane distillation -- 8.1.2.3 Vacuum membrane distillation -- 8.1.2.4 Sweep gas membrane distillation -- 8.2 Transport in direct contact membrane distillation -- 8.2.1 Heat transfer -- 8.2.2 Mass transfer -- Nomenclature -- References -- 9 Membrane contactor (membrane absorption) and membrane adsorption -- 9.1 Membrane contactor -- 9.1.1 Transport in membrane contactor -- 9.1.2 Wilson plot -- 9.2 Membrane adsorption -- 9.2.1 Membrane adsorption process outline -- 9.2.2 Carman-Kozeny equation for flux calculation -- 9.2.3 Mass balance in membrane adsorption -- Nomenclature -- References -- 10 Membrane module -- 10.1 Reverse osmosis -- 10.1.1 Reverse osmosis hollow fiber module -- 10.1.2 Reverse osmosis flat-sheet membrane -- 10.2 Gas separation -- Nomenclature -- References -- 11 Membrane system -- 11.1 Two flow types -- 11.1.1 Cross-flow types -- 11.1.2 Cascade and recycle -- 11.1.3 Hybrid systems -- 11.2 Reverse osmosis systems -- 11.2.1 Reverse osmosis-nanofiltration cascade -- 11.2.2 Reverse osmosis recycle -- 11.3 Gas separator systems -- 11.3.1 Gas separator cascade -- 11.3.2 Gas separator recycle -- 11.4 Forward osmosis-reverse osmosis hybrid system -- 11.5 Membrane reactor -- 11.5.1 Description of the membrane bioreactor -- 11.5.2 Bioreactor modeling -- Nomenclature -- References -- 12 Cost of water. |
|
12.1 Calculation of water production cost by Desalination Economic Evaluation Program 2000 -- 12.1.1 Case identification and site characteristics box -- 12.1.2 Technical parameter input data -- 12.1.3 Membrane water performance data -- 12.1.4 Economic parameters input data -- 12.1.5 Reverse osmosis plant cost input data -- 12.1.6 Single-purpose plant performance -- 12.1.7 Stand-alone reverse osmosis water plant performance -- 12.1.8 Stand-alone reverse osmosis water plant costs -- 12.1.9 Power plant -- 12.1.10 Stand-alone reverse osmosis plant -- References -- Appendix -- Index -- Back Cover. |
Subject |
Membrane separation.
|
|
Séparation par membranes.
|
|
Membrane separation
|
Added Author |
Matsuura, Takeshi, 1936-
|
Other Form: |
Print version: 0128196262 9780128196267 (OCoLC)1240773582 |
|
Print version: ISMAIL, AHMAD FAUZI. MATSUURA, TAKESHI. MEMBRANE SEPARATION PROCESSES. [S.l.] : ELSEVIER, 2021 0128196262 (OCoLC)1240773582 |
ISBN |
9780128231630 (electronic bk.) |
|
0128231637 (electronic bk.) |
|
9780128196267 |
|
0128196262 |
Standard No. |
AU@ 000070107941 |
|
AU@ 000070277716 |
|
UKMGB 020388618 |
|
AU@ 000072985578 |
|