Membrane separations technology [[electronic resource] ] : single-stage, multistage, and differential permeation / / E.J. Hoffman |
Autore | Hoffman E. J (Edward Jack), <1925-2012.> |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 |
Descrizione fisica | 1 online resource (329 p.) |
Disciplina | 660/.28424 |
Soggetto topico | Membrane separation |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-01464-8
9786611014643 0-08-049654-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Copyright Page; Contents; Preface; Chapter 1. Introduction; 1.1 Membrane Materials; 1.2 Membrane Cells; 1.3 The Enhancement of Separation; 1.4 Subquality Natural Gas; 1.5 Representations and Calculations; 1.6 Permeation Units; Chapter 2. Membrane Permeation Relationships; 2.1 Permeation Rates; 2.2 Permeability Relationships and Units; Chapter 3. Single-Stage Membrane Separations; 3.1 Terms and Units; 3.2 Mole Fraction Relationships; 3.3 Multicomponent Separation Calculations; 3.4 Two-Component Calculations; 3.5 Effect of Recycle; 3.6 Alternate Representation and Calculation
Chapter 4. Multistage Membrane Separations4.1 Multistage Distillation; 4.2 The Analogy; 4.3 Graphical Representation of Binary Membrane Calculations; 4.4 Rectifying Section; 4.5 Stripping Section; 4.6 Stripping Section vs. Rectifying Section; 4.7 Feed Location; 4.8 Separation Requirements; 4.9 Total Reflux; 4.10 Minimum Reflux; 4.11 Simplifications; 4.12 Conclusions; Chapter 5. Differential Permeation with Point Permeate Withdrawal; 5.1 Differential Permeation; 5.2 Overall Material Balances; 5.3 Differential Material Balances; 5.4 Bubble-Point Type Calculation; 5.5 Accumulation 5.6 Differential Rate Balances5.7 Equilibrium; Chapter 6. Differential Permeation with Permeate Flow; 6.1 Material and Rate Balances; 6.2 Component Relationships; 6.3 Recycle; 6.4 Limiting Conditions; 6.5 Equilibrium; Chapter 7. Countercurrent Flow with Recycle; 7.1 Constant Flow Rates; 7.2 Analogy with Wetted-Wall Distillation; 7.3 Integration of the Fundamental Rate Equations; Chapter 8. Membrane Reactors; Symbols; Appendices: Data and Spreadsheet Calculations; 1 Representative Membrane Permeabilities and Selectivities; 2 Membrane Permeation Relationships 3 Single-Stage Membrane Separations4 Multistage Membrane Separations; 5 Differential Permeation with Point Permeate Withdrawal; 6 Differential Permeation with Permeate Flow; 7 Countercurrent Flow with Recycle; 8 Membrane Reactors; Index |
Record Nr. | UNINA-9910457356903321 |
Hoffman E. J (Edward Jack), <1925-2012.> | ||
Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Membrane separations technology [[electronic resource] ] : single-stage, multistage, and differential permeation / / E.J. Hoffman |
Autore | Hoffman E. J (Edward Jack), <1925-2012.> |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 |
Descrizione fisica | 1 online resource (329 p.) |
Disciplina | 660/.28424 |
Soggetto topico | Membrane separation |
ISBN |
1-281-01464-8
9786611014643 0-08-049654-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Copyright Page; Contents; Preface; Chapter 1. Introduction; 1.1 Membrane Materials; 1.2 Membrane Cells; 1.3 The Enhancement of Separation; 1.4 Subquality Natural Gas; 1.5 Representations and Calculations; 1.6 Permeation Units; Chapter 2. Membrane Permeation Relationships; 2.1 Permeation Rates; 2.2 Permeability Relationships and Units; Chapter 3. Single-Stage Membrane Separations; 3.1 Terms and Units; 3.2 Mole Fraction Relationships; 3.3 Multicomponent Separation Calculations; 3.4 Two-Component Calculations; 3.5 Effect of Recycle; 3.6 Alternate Representation and Calculation
Chapter 4. Multistage Membrane Separations4.1 Multistage Distillation; 4.2 The Analogy; 4.3 Graphical Representation of Binary Membrane Calculations; 4.4 Rectifying Section; 4.5 Stripping Section; 4.6 Stripping Section vs. Rectifying Section; 4.7 Feed Location; 4.8 Separation Requirements; 4.9 Total Reflux; 4.10 Minimum Reflux; 4.11 Simplifications; 4.12 Conclusions; Chapter 5. Differential Permeation with Point Permeate Withdrawal; 5.1 Differential Permeation; 5.2 Overall Material Balances; 5.3 Differential Material Balances; 5.4 Bubble-Point Type Calculation; 5.5 Accumulation 5.6 Differential Rate Balances5.7 Equilibrium; Chapter 6. Differential Permeation with Permeate Flow; 6.1 Material and Rate Balances; 6.2 Component Relationships; 6.3 Recycle; 6.4 Limiting Conditions; 6.5 Equilibrium; Chapter 7. Countercurrent Flow with Recycle; 7.1 Constant Flow Rates; 7.2 Analogy with Wetted-Wall Distillation; 7.3 Integration of the Fundamental Rate Equations; Chapter 8. Membrane Reactors; Symbols; Appendices: Data and Spreadsheet Calculations; 1 Representative Membrane Permeabilities and Selectivities; 2 Membrane Permeation Relationships 3 Single-Stage Membrane Separations4 Multistage Membrane Separations; 5 Differential Permeation with Point Permeate Withdrawal; 6 Differential Permeation with Permeate Flow; 7 Countercurrent Flow with Recycle; 8 Membrane Reactors; Index |
Record Nr. | UNINA-9910784360403321 |
Hoffman E. J (Edward Jack), <1925-2012.> | ||
Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Membrane separations technology : single-stage, multistage, and differential permeation / / E.J. Hoffman |
Autore | Hoffman E. J (Edward Jack), <1925-2012.> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 |
Descrizione fisica | 1 online resource (329 p.) |
Disciplina | 660/.28424 |
Soggetto topico | Membrane separation |
ISBN |
1-281-01464-8
9786611014643 0-08-049654-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Copyright Page; Contents; Preface; Chapter 1. Introduction; 1.1 Membrane Materials; 1.2 Membrane Cells; 1.3 The Enhancement of Separation; 1.4 Subquality Natural Gas; 1.5 Representations and Calculations; 1.6 Permeation Units; Chapter 2. Membrane Permeation Relationships; 2.1 Permeation Rates; 2.2 Permeability Relationships and Units; Chapter 3. Single-Stage Membrane Separations; 3.1 Terms and Units; 3.2 Mole Fraction Relationships; 3.3 Multicomponent Separation Calculations; 3.4 Two-Component Calculations; 3.5 Effect of Recycle; 3.6 Alternate Representation and Calculation
Chapter 4. Multistage Membrane Separations4.1 Multistage Distillation; 4.2 The Analogy; 4.3 Graphical Representation of Binary Membrane Calculations; 4.4 Rectifying Section; 4.5 Stripping Section; 4.6 Stripping Section vs. Rectifying Section; 4.7 Feed Location; 4.8 Separation Requirements; 4.9 Total Reflux; 4.10 Minimum Reflux; 4.11 Simplifications; 4.12 Conclusions; Chapter 5. Differential Permeation with Point Permeate Withdrawal; 5.1 Differential Permeation; 5.2 Overall Material Balances; 5.3 Differential Material Balances; 5.4 Bubble-Point Type Calculation; 5.5 Accumulation 5.6 Differential Rate Balances5.7 Equilibrium; Chapter 6. Differential Permeation with Permeate Flow; 6.1 Material and Rate Balances; 6.2 Component Relationships; 6.3 Recycle; 6.4 Limiting Conditions; 6.5 Equilibrium; Chapter 7. Countercurrent Flow with Recycle; 7.1 Constant Flow Rates; 7.2 Analogy with Wetted-Wall Distillation; 7.3 Integration of the Fundamental Rate Equations; Chapter 8. Membrane Reactors; Symbols; Appendices: Data and Spreadsheet Calculations; 1 Representative Membrane Permeabilities and Selectivities; 2 Membrane Permeation Relationships 3 Single-Stage Membrane Separations4 Multistage Membrane Separations; 5 Differential Permeation with Point Permeate Withdrawal; 6 Differential Permeation with Permeate Flow; 7 Countercurrent Flow with Recycle; 8 Membrane Reactors; Index |
Record Nr. | UNINA-9910825030403321 |
Hoffman E. J (Edward Jack), <1925-2012.> | ||
Amsterdam ; ; Boston, : Gulf Professional Pub., c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|