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Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich
| Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich |
| Autore | Rushton A |
| Edizione | [2nd, completely rev. ed.] |
| Pubbl/distr/stampa | Weinheim ; ; New York, : VCH, 2000 |
| Descrizione fisica | 1 online resource (606 p.) |
| Disciplina |
660.284245
660/.284245 |
| Altri autori (Persone) |
WardA. S
HoldichR. G |
| Soggetto topico |
Filters and filtration
Separation (Technology) |
| ISBN |
1-281-75853-1
9786611758530 3-527-61497-4 3-527-61496-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Solid-Liquid Filtration and Separation Technology; Preface; Contents; 1 Solid Liquid Separation Technology; 1.1 Introduction; 1.2 The Filtration Process; 1.3 Filtration Fundamentals; 1.4 Sedimentation Processes; 1.5 Filter Media; 1.6 Pretreatment Techniques; 1.7 Clarification Filtration; 1.8 Sedimentation and Flotation; 1.9 Washing and Deliquoring; 1.10 Membrane Filtration; 1.11 Filtration Process Equipment and Calculations; 1.12 References; 1.13 Nomenclature; 2 Filtration Fundamentals; 2.1 Introduction; 2.2 Fluid Flow Through Porous Media; 2.3 Permeability; 2.4 Cake Filtration
2.4.1 Mass Cake Deposited per Unit Area and Specific Resistance2.4.2 Solid Concentration; 2.5 Forms of Cake Filtration Equation; 2.5.1 Constant Pressure Filtration; 2.5.2 Constant Rate Filtration; 2.5.3 Variable Pressure and Rate Filtration; 2.6 Effect of Pressure on Cake Filtration; 2.6.1 Constant Pressure Filtration; 2.6.2 Constant Rate Filtration; 2.6.3 Analysis of Flow Inside a Cake; 2.6.4 Variable Rate and Pressure Filtration for Compressible Cakes; 2.6.5 Simulation of Cake Filtration by Incremental Analysis; 2.7 Other Modes of Filtration; 2.8 Filtration with Non-Newtonian Fluids 2.9 Laboratory Tests2.9.1 Vacuum Filter Leaf; 2.9.2 Compression Permeability Cell; 2.9.3 Capillary Suction Time; 2.9.4 Other Laboratory Tests and Procedures; 2.10 Developments in Filtration Modelling and Understanding; 2.11 References; 2.12 Nomenclature; 3 Sedimentation Fundamentals; 3.1 Dilute Sedimentation; 3.2 Hindered Settling; 3.2.1 Voidage Functions; 3.2.2 Batch Settling: Kynch Theory; 3.2.3 Batch Flux; 3.2.4 Use of Batch Flux Curve for local concentration; 3.3 Sedimentation with significant compression effects; 3.3.1 Stirring and channels during sedimentation 3.4 Settling Under Inclined Surfaces3.4.1 Nakamura-Kuroda Equation; 3.4.2 Grashof Number and Sedimentation Reynolds Number; 3.5 References; 3.6 Nomenclature; 4 Filter Media; 4.1 Introduction; 4.2 Woven Cloths; 4.2.1 Monofilaments and Multifilaments; 4.3 Cloth Selection; 4.3.1 Effect of Yarn Type and Weave Pattern; 4.3.2 Criteria of Choice; 4.4 Operational Aspects of Woven Media in Filters; 4.4.1 Loading of Yams with Solids; 4.4.2 Bacterial Growths; 4.4.3 Precipitation from Solution; 4.4.4 Inadequate Drainage; 4.4.5 Critical Concentration; 4.4.6 Critical Pressure 4.4.7 Classification of Particles4.4.8 Effect of Gas Bubbles; 4.4.9 Evaporation Effects; 4.4.10 Effect of Fabric Construction; 4.4.11 Effect of Cloth Underdrainage; 4.5 Aspects of the Cloth Selection and Performance; 4.5.1 Cloth Shrinkage; 4.5.2 Cloth Stretching; 4.5.3 Filter Cake Release; 4.5 4 Cloth Structural Effects; 4.5 5 Cloth Cleaning Process; 4.6 Nonwoven Filter Media; 4.7 Mathematical Models of Flow Through Filter Media; 4.7.1 Permeability of Clean Media; 4.7.2 Particle-Stopping Power; 4.7.3 Nonwoven, Random Fibre Media; 4.7.4 Woven Media; 4.7.4.1 Multifilament Cloth Permeability 4.7.4.2 Monofilament Cloth Permeability |
| Record Nr. | UNINA-9910144330403321 |
Rushton A
|
||
| Weinheim ; ; New York, : VCH, 2000 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich
| Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich |
| Autore | Rushton A |
| Edizione | [2nd, completely rev. ed.] |
| Pubbl/distr/stampa | Weinheim ; ; New York, : VCH, 2000 |
| Descrizione fisica | 1 online resource (606 p.) |
| Disciplina |
660.284245
660/.284245 |
| Altri autori (Persone) |
WardA. S
HoldichR. G |
| Soggetto topico |
Filters and filtration
Separation (Technology) |
| ISBN |
1-281-75853-1
9786611758530 3-527-61497-4 3-527-61496-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Solid-Liquid Filtration and Separation Technology; Preface; Contents; 1 Solid Liquid Separation Technology; 1.1 Introduction; 1.2 The Filtration Process; 1.3 Filtration Fundamentals; 1.4 Sedimentation Processes; 1.5 Filter Media; 1.6 Pretreatment Techniques; 1.7 Clarification Filtration; 1.8 Sedimentation and Flotation; 1.9 Washing and Deliquoring; 1.10 Membrane Filtration; 1.11 Filtration Process Equipment and Calculations; 1.12 References; 1.13 Nomenclature; 2 Filtration Fundamentals; 2.1 Introduction; 2.2 Fluid Flow Through Porous Media; 2.3 Permeability; 2.4 Cake Filtration
2.4.1 Mass Cake Deposited per Unit Area and Specific Resistance2.4.2 Solid Concentration; 2.5 Forms of Cake Filtration Equation; 2.5.1 Constant Pressure Filtration; 2.5.2 Constant Rate Filtration; 2.5.3 Variable Pressure and Rate Filtration; 2.6 Effect of Pressure on Cake Filtration; 2.6.1 Constant Pressure Filtration; 2.6.2 Constant Rate Filtration; 2.6.3 Analysis of Flow Inside a Cake; 2.6.4 Variable Rate and Pressure Filtration for Compressible Cakes; 2.6.5 Simulation of Cake Filtration by Incremental Analysis; 2.7 Other Modes of Filtration; 2.8 Filtration with Non-Newtonian Fluids 2.9 Laboratory Tests2.9.1 Vacuum Filter Leaf; 2.9.2 Compression Permeability Cell; 2.9.3 Capillary Suction Time; 2.9.4 Other Laboratory Tests and Procedures; 2.10 Developments in Filtration Modelling and Understanding; 2.11 References; 2.12 Nomenclature; 3 Sedimentation Fundamentals; 3.1 Dilute Sedimentation; 3.2 Hindered Settling; 3.2.1 Voidage Functions; 3.2.2 Batch Settling: Kynch Theory; 3.2.3 Batch Flux; 3.2.4 Use of Batch Flux Curve for local concentration; 3.3 Sedimentation with significant compression effects; 3.3.1 Stirring and channels during sedimentation 3.4 Settling Under Inclined Surfaces3.4.1 Nakamura-Kuroda Equation; 3.4.2 Grashof Number and Sedimentation Reynolds Number; 3.5 References; 3.6 Nomenclature; 4 Filter Media; 4.1 Introduction; 4.2 Woven Cloths; 4.2.1 Monofilaments and Multifilaments; 4.3 Cloth Selection; 4.3.1 Effect of Yarn Type and Weave Pattern; 4.3.2 Criteria of Choice; 4.4 Operational Aspects of Woven Media in Filters; 4.4.1 Loading of Yams with Solids; 4.4.2 Bacterial Growths; 4.4.3 Precipitation from Solution; 4.4.4 Inadequate Drainage; 4.4.5 Critical Concentration; 4.4.6 Critical Pressure 4.4.7 Classification of Particles4.4.8 Effect of Gas Bubbles; 4.4.9 Evaporation Effects; 4.4.10 Effect of Fabric Construction; 4.4.11 Effect of Cloth Underdrainage; 4.5 Aspects of the Cloth Selection and Performance; 4.5.1 Cloth Shrinkage; 4.5.2 Cloth Stretching; 4.5.3 Filter Cake Release; 4.5 4 Cloth Structural Effects; 4.5 5 Cloth Cleaning Process; 4.6 Nonwoven Filter Media; 4.7 Mathematical Models of Flow Through Filter Media; 4.7.1 Permeability of Clean Media; 4.7.2 Particle-Stopping Power; 4.7.3 Nonwoven, Random Fibre Media; 4.7.4 Woven Media; 4.7.4.1 Multifilament Cloth Permeability 4.7.4.2 Monofilament Cloth Permeability |
| Record Nr. | UNISA-996212584503316 |
|
Rushton A
|
||
| Weinheim ; ; New York, : VCH, 2000 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich
| Solid-liquid filtration and separation technology [[electronic resource] /] / A. Rushton, A.S. Ward, R.G. Holdich |
| Autore | Rushton A |
| Edizione | [2nd, completely rev. ed.] |
| Pubbl/distr/stampa | Weinheim ; ; New York, : VCH, 2000 |
| Descrizione fisica | 1 online resource (606 p.) |
| Disciplina |
660.284245
660/.284245 |
| Altri autori (Persone) |
WardA. S
HoldichR. G |
| Soggetto topico |
Filters and filtration
Separation (Technology) |
| ISBN |
1-281-75853-1
9786611758530 3-527-61497-4 3-527-61496-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Solid-Liquid Filtration and Separation Technology; Preface; Contents; 1 Solid Liquid Separation Technology; 1.1 Introduction; 1.2 The Filtration Process; 1.3 Filtration Fundamentals; 1.4 Sedimentation Processes; 1.5 Filter Media; 1.6 Pretreatment Techniques; 1.7 Clarification Filtration; 1.8 Sedimentation and Flotation; 1.9 Washing and Deliquoring; 1.10 Membrane Filtration; 1.11 Filtration Process Equipment and Calculations; 1.12 References; 1.13 Nomenclature; 2 Filtration Fundamentals; 2.1 Introduction; 2.2 Fluid Flow Through Porous Media; 2.3 Permeability; 2.4 Cake Filtration
2.4.1 Mass Cake Deposited per Unit Area and Specific Resistance2.4.2 Solid Concentration; 2.5 Forms of Cake Filtration Equation; 2.5.1 Constant Pressure Filtration; 2.5.2 Constant Rate Filtration; 2.5.3 Variable Pressure and Rate Filtration; 2.6 Effect of Pressure on Cake Filtration; 2.6.1 Constant Pressure Filtration; 2.6.2 Constant Rate Filtration; 2.6.3 Analysis of Flow Inside a Cake; 2.6.4 Variable Rate and Pressure Filtration for Compressible Cakes; 2.6.5 Simulation of Cake Filtration by Incremental Analysis; 2.7 Other Modes of Filtration; 2.8 Filtration with Non-Newtonian Fluids 2.9 Laboratory Tests2.9.1 Vacuum Filter Leaf; 2.9.2 Compression Permeability Cell; 2.9.3 Capillary Suction Time; 2.9.4 Other Laboratory Tests and Procedures; 2.10 Developments in Filtration Modelling and Understanding; 2.11 References; 2.12 Nomenclature; 3 Sedimentation Fundamentals; 3.1 Dilute Sedimentation; 3.2 Hindered Settling; 3.2.1 Voidage Functions; 3.2.2 Batch Settling: Kynch Theory; 3.2.3 Batch Flux; 3.2.4 Use of Batch Flux Curve for local concentration; 3.3 Sedimentation with significant compression effects; 3.3.1 Stirring and channels during sedimentation 3.4 Settling Under Inclined Surfaces3.4.1 Nakamura-Kuroda Equation; 3.4.2 Grashof Number and Sedimentation Reynolds Number; 3.5 References; 3.6 Nomenclature; 4 Filter Media; 4.1 Introduction; 4.2 Woven Cloths; 4.2.1 Monofilaments and Multifilaments; 4.3 Cloth Selection; 4.3.1 Effect of Yarn Type and Weave Pattern; 4.3.2 Criteria of Choice; 4.4 Operational Aspects of Woven Media in Filters; 4.4.1 Loading of Yams with Solids; 4.4.2 Bacterial Growths; 4.4.3 Precipitation from Solution; 4.4.4 Inadequate Drainage; 4.4.5 Critical Concentration; 4.4.6 Critical Pressure 4.4.7 Classification of Particles4.4.8 Effect of Gas Bubbles; 4.4.9 Evaporation Effects; 4.4.10 Effect of Fabric Construction; 4.4.11 Effect of Cloth Underdrainage; 4.5 Aspects of the Cloth Selection and Performance; 4.5.1 Cloth Shrinkage; 4.5.2 Cloth Stretching; 4.5.3 Filter Cake Release; 4.5 4 Cloth Structural Effects; 4.5 5 Cloth Cleaning Process; 4.6 Nonwoven Filter Media; 4.7 Mathematical Models of Flow Through Filter Media; 4.7.1 Permeability of Clean Media; 4.7.2 Particle-Stopping Power; 4.7.3 Nonwoven, Random Fibre Media; 4.7.4 Woven Media; 4.7.4.1 Multifilament Cloth Permeability 4.7.4.2 Monofilament Cloth Permeability |
| Record Nr. | UNINA-9910829967403321 |
|
Rushton A
|
||
| Weinheim ; ; New York, : VCH, 2000 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||