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Ion exchange membranes [[electronic resource] ] : preparation, characterization, modification and application / / Toshikatsu Sata
| Ion exchange membranes [[electronic resource] ] : preparation, characterization, modification and application / / Toshikatsu Sata |
| Autore | Sata Toshikatsu |
| Pubbl/distr/stampa | Cambridge, : Royal Society of Chemistry, c2004 |
| Descrizione fisica | 1 online resource (325 p.) |
| Disciplina | 572.3 |
| Soggetto topico | Ion-permeable membranes |
| Soggetto genere / forma | Electronic books. |
| ISBN | 1-84755-117-3 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
IEM-PRE; IEM-1; 1.1&X; Background; Table 1; 1.2&X; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; mkr27; mkr28; mkr29; mkr30; IEM-2; 2.1&X; Introduction; 2.2&X; Flux Equation; Equation 3; Equation 4; Equation 5; Equation 6; Equation 6; Equation 7; Equation 9; Equation 10; Equation 11; Equation 12; Permselectivity of Ions Through the Ion Exchange Membrane; Equation 13; Equation 14; Equation 15; Equation 16; Equation 17; Equation 18; Equation 19
Equation 20 Equation 21; Equation 22; Equation 23; Equation 24; Equation 25; Equation 26; Equation 27; Equation 28; Equation 29; Equation 30; Equation 31; Equation 32; Equation 33; Equation 34; Equation 35; Membrane Potential; Figure 1; Equation 36; Equation 39; Equation 40; Equation 41; Equation 43; Equation 44; Figure 2; Equation 49; Equation 50; Bionic Potential; Equation 51; Equation 52; Equation 53; Equation 54; Electrical Conductivity of Ion Exchange Membrane; Equation 56; Equation 57; Equation 58; Diffusion of Electrolyte Through Ion Exchange Membranes Equation 57 Equation 58; Equation 59; Equation 60; Equation 61; Equation 62; Equation 63; Equation 66; Equation 68; Equation 69; Equation 70; Equation 71; Diffusion of Non-Electrolyte Through Ion Exchange Membranes; Equation 72;Self-diffusion Through Ion Exchange Membranes; Equation 74; Equation 75; Equation 76; Equation 77; Equation 78; Figure 3; Figure 4; Osmosis; Equation 79; Electro-osmosis; Figure 5; Equation 80; Equation 83; Equation 84; Equation 85; 2.12&X; Hydrodynamic Permeability of Solvent; Figure 6; Equation 86; Equation 87; Equation 88; Equation 89 Equation 90 Equation 93; Equation 94; Equation 95; Equation 96; Equation 97; Equation 98; Equation 99; Permselectivity of Ions with the Same Charge; Equation 8; Figure 7; Equation 101; Equation 102; Equation 105; Equation 106; Conclusions; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; IEM-3; 3.1&X; Introduction; 3.2&X; Classification of Ion Exchange Membranes; Table 1; 3.3&X General Explanation of Preparation Methods of Ion Exchange Membranes 3.3.1&Y; Heterogeneous Ion Exchange Membranes; 3.3.2&Y; Homogeneous Ion Exchange Membranes&Y; ; 3.3.2.1&Z; Ion Exchange Membranes Prepared by Condensation Reaction of Ionic Monomeric Com-pounds; Figure 1; 3.3.2.2&Z; Ion Exchange Membranes Prepared by Polymerization of Vinyl Monomers; Preparation of polymer block and slicing the block into films.&D-end; After styrene has been partially polymerized by heating, d; Figure 2; Table 2; Polymerization of vinyl monomers into films (coating method or paste method).&D-end1 Here, linear polymers without ion exchange |
| Record Nr. | UNINA-9910454332703321 |
Sata Toshikatsu
|
||
| Cambridge, : Royal Society of Chemistry, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Ion exchange membranes [[electronic resource] ] : preparation, characterization, modification and application / / Toshikatsu Sata
| Ion exchange membranes [[electronic resource] ] : preparation, characterization, modification and application / / Toshikatsu Sata |
| Autore | Sata Toshikatsu |
| Pubbl/distr/stampa | Cambridge, : Royal Society of Chemistry, c2004 |
| Descrizione fisica | 1 online resource (325 p.) |
| Disciplina | 572.3 |
| Soggetto topico | Ion-permeable membranes |
| ISBN | 1-84755-117-3 |
| Classificazione | 51.99 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
IEM-PRE; IEM-1; 1.1&X; Background; Table 1; 1.2&X; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; mkr27; mkr28; mkr29; mkr30; IEM-2; 2.1&X; Introduction; 2.2&X; Flux Equation; Equation 3; Equation 4; Equation 5; Equation 6; Equation 6; Equation 7; Equation 9; Equation 10; Equation 11; Equation 12; Permselectivity of Ions Through the Ion Exchange Membrane; Equation 13; Equation 14; Equation 15; Equation 16; Equation 17; Equation 18; Equation 19
Equation 20 Equation 21; Equation 22; Equation 23; Equation 24; Equation 25; Equation 26; Equation 27; Equation 28; Equation 29; Equation 30; Equation 31; Equation 32; Equation 33; Equation 34; Equation 35; Membrane Potential; Figure 1; Equation 36; Equation 39; Equation 40; Equation 41; Equation 43; Equation 44; Figure 2; Equation 49; Equation 50; Bionic Potential; Equation 51; Equation 52; Equation 53; Equation 54; Electrical Conductivity of Ion Exchange Membrane; Equation 56; Equation 57; Equation 58; Diffusion of Electrolyte Through Ion Exchange Membranes Equation 57 Equation 58; Equation 59; Equation 60; Equation 61; Equation 62; Equation 63; Equation 66; Equation 68; Equation 69; Equation 70; Equation 71; Diffusion of Non-Electrolyte Through Ion Exchange Membranes; Equation 72;Self-diffusion Through Ion Exchange Membranes; Equation 74; Equation 75; Equation 76; Equation 77; Equation 78; Figure 3; Figure 4; Osmosis; Equation 79; Electro-osmosis; Figure 5; Equation 80; Equation 83; Equation 84; Equation 85; 2.12&X; Hydrodynamic Permeability of Solvent; Figure 6; Equation 86; Equation 87; Equation 88; Equation 89 Equation 90 Equation 93; Equation 94; Equation 95; Equation 96; Equation 97; Equation 98; Equation 99; Permselectivity of Ions with the Same Charge; Equation 8; Figure 7; Equation 101; Equation 102; Equation 105; Equation 106; Conclusions; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; IEM-3; 3.1&X; Introduction; 3.2&X; Classification of Ion Exchange Membranes; Table 1; 3.3&X General Explanation of Preparation Methods of Ion Exchange Membranes 3.3.1&Y; Heterogeneous Ion Exchange Membranes; 3.3.2&Y; Homogeneous Ion Exchange Membranes&Y; ; 3.3.2.1&Z; Ion Exchange Membranes Prepared by Condensation Reaction of Ionic Monomeric Com-pounds; Figure 1; 3.3.2.2&Z; Ion Exchange Membranes Prepared by Polymerization of Vinyl Monomers; Preparation of polymer block and slicing the block into films.&D-end; After styrene has been partially polymerized by heating, d; Figure 2; Table 2; Polymerization of vinyl monomers into films (coating method or paste method).&D-end1 Here, linear polymers without ion exchange |
| Record Nr. | UNINA-9910782759703321 |
|
Sata Toshikatsu
|
||
| Cambridge, : Royal Society of Chemistry, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Ion exchange membranes : preparation, characterization, modification and application / / Toshikatsu Sata
| Ion exchange membranes : preparation, characterization, modification and application / / Toshikatsu Sata |
| Autore | Sata Toshikatsu |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Cambridge, : Royal Society of Chemistry, c2004 |
| Descrizione fisica | 1 online resource (325 p.) |
| Disciplina | 572.3 |
| Soggetto topico | Ion-permeable membranes |
| ISBN | 1-84755-117-3 |
| Classificazione | 51.99 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
IEM-PRE; IEM-1; 1.1&X; Background; Table 1; 1.2&X; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; mkr27; mkr28; mkr29; mkr30; IEM-2; 2.1&X; Introduction; 2.2&X; Flux Equation; Equation 3; Equation 4; Equation 5; Equation 6; Equation 6; Equation 7; Equation 9; Equation 10; Equation 11; Equation 12; Permselectivity of Ions Through the Ion Exchange Membrane; Equation 13; Equation 14; Equation 15; Equation 16; Equation 17; Equation 18; Equation 19
Equation 20 Equation 21; Equation 22; Equation 23; Equation 24; Equation 25; Equation 26; Equation 27; Equation 28; Equation 29; Equation 30; Equation 31; Equation 32; Equation 33; Equation 34; Equation 35; Membrane Potential; Figure 1; Equation 36; Equation 39; Equation 40; Equation 41; Equation 43; Equation 44; Figure 2; Equation 49; Equation 50; Bionic Potential; Equation 51; Equation 52; Equation 53; Equation 54; Electrical Conductivity of Ion Exchange Membrane; Equation 56; Equation 57; Equation 58; Diffusion of Electrolyte Through Ion Exchange Membranes Equation 57 Equation 58; Equation 59; Equation 60; Equation 61; Equation 62; Equation 63; Equation 66; Equation 68; Equation 69; Equation 70; Equation 71; Diffusion of Non-Electrolyte Through Ion Exchange Membranes; Equation 72;Self-diffusion Through Ion Exchange Membranes; Equation 74; Equation 75; Equation 76; Equation 77; Equation 78; Figure 3; Figure 4; Osmosis; Equation 79; Electro-osmosis; Figure 5; Equation 80; Equation 83; Equation 84; Equation 85; 2.12&X; Hydrodynamic Permeability of Solvent; Figure 6; Equation 86; Equation 87; Equation 88; Equation 89 Equation 90 Equation 93; Equation 94; Equation 95; Equation 96; Equation 97; Equation 98; Equation 99; Permselectivity of Ions with the Same Charge; Equation 8; Figure 7; Equation 101; Equation 102; Equation 105; Equation 106; Conclusions; References; mkr1; mkr2; mkr3; mkr4; mkr5; mkr6; mkr7; mkr8; mkr9; mkr10; mkr11; mkr12; mkr13; mkr14; mkr15; mkr16; mkr17; mkr18; mkr19; mkr20; mkr21; mkr22; mkr23; mkr24; mkr25; mkr26; IEM-3; 3.1&X; Introduction; 3.2&X; Classification of Ion Exchange Membranes; Table 1; 3.3&X General Explanation of Preparation Methods of Ion Exchange Membranes 3.3.1&Y; Heterogeneous Ion Exchange Membranes; 3.3.2&Y; Homogeneous Ion Exchange Membranes&Y; ; 3.3.2.1&Z; Ion Exchange Membranes Prepared by Condensation Reaction of Ionic Monomeric Com-pounds; Figure 1; 3.3.2.2&Z; Ion Exchange Membranes Prepared by Polymerization of Vinyl Monomers; Preparation of polymer block and slicing the block into films.&D-end; After styrene has been partially polymerized by heating, d; Figure 2; Table 2; Polymerization of vinyl monomers into films (coating method or paste method).&D-end1 Here, linear polymers without ion exchange |
| Record Nr. | UNINA-9910827028603321 |
|
Sata Toshikatsu
|
||
| Cambridge, : Royal Society of Chemistry, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Ion-selective membrane electrodes for water pollution monitoring / / by G.A. Rechnitz
| Ion-selective membrane electrodes for water pollution monitoring / / by G.A. Rechnitz |
| Autore | Rechnitz Garry A. |
| Pubbl/distr/stampa | Washington, D.C. : , : Office of Research and Development, Environmental Protection Agency, , 1974 |
| Descrizione fisica | 1 online resource (iv, 24 pages) |
| Collana | Environmental protection technology series |
| Soggetto topico |
Ion-permeable membranes
Water - Analysis |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910706544003321 |
|
Rechnitz Garry A.
|
||
| Washington, D.C. : , : Office of Research and Development, Environmental Protection Agency, , 1974 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
PEM fuel cells [[electronic resource] ] : theory and practice / / Franco Barbir
| PEM fuel cells [[electronic resource] ] : theory and practice / / Franco Barbir |
| Autore | Barbir Frano <1954-> |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 |
| Descrizione fisica | 1 online resource (448 p.) |
| Disciplina | 621.312429 |
| Collana | Academic Press sustainable world series |
| Soggetto topico |
Fuel cells
Ion-permeable membranes |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-63044-2
9786610630448 0-08-045541-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Preface and Acknowledgments; Chapter 1: Introduction; 1.1. What Is a Fuel Cell?; 1.2. A Very Brief History of Fuel Cells; 1.3. Types of Fuel Cells; 1.4. How Does a PEM Fuel Cell Work?; 1.5. Why Do We Need Fuel Cells?; 1.6. Fuel Cell Applications; References; Chapter 2: Fuel Cell Basic Chemistry and Thermodynamics; 2.1. Basic Reactions; 2.2. Heat of Reaction; 2.3. Higher and Lower Heating Value of Hydrogen; 2.4. Theoretical Electrical Work; 2.5. Theoretical Fuel Cell Potential; 2.6. Effect of Temperature; 2.7. Theoretical Fuel Cell Efficiency; 2.8. Carnot Efficiency Myth
2.9. Effect of Pressure2.10. Summary; References; Problems; Quiz; Chapter 3: Fuel Cell Electrochemistry; 3.1. Electrode Kinetics; 3.1.1. Reaction Rate; 3.1.2. Reaction Constants; Transfer Coefficient; 3.1.3. Current Potential Relationship-Butler-Volmer Equation; 3.1.4. Exchange Current Density; 3.2. Voltage Losses; 3.2.1. Activation Polarization; 3.2.2. Internal Currents and Crossover Losses; 3.2.3. Ohmic (Resistive) Losses; 3.2.4. Concentration Polarization; 3.3. Cell Potential-Polarization Curve; 3.4. Distribution of Potential Across A Fuel Cell 3.5. Sensitivity of Parameters in Polarization Curve3.5.1. Effect of Transfer Coefficient/Tafel Slope; 3.5.2. Effect of Exchange Current Density; 3.5.3. Effect of Hydrogen Crossover and Internal Current Loss; 3.5.4. Effect of Internal Resistance; 3.5.5. Effect of Limiting Current Density; 3.5.6. Effect of Operating Pressure; 3.5.7. Air vs Oxygen; 3.5.8. Effect of Operating Temperature; 3.6. Fuel Cell Efficiency; 3.7. Implications and Use of Fuel Cell Polarization Curve; 3.7.1. Other Curves Resulting from Polarization Curve; 3.7.2. Linear Approximation of Polarization Curve 3.7.3. Use of Polarization Curve for Fuel Cell SizingReferences; Problems; Quiz; Chapter 4: Main Cell Components, Materials Properties and Processes; 4.1. Cell Description; 4.2. Membrane; 4.2.1. Water Uptake; 4.2.2. Physical Properties; 4.2.3. Protonic Conductivity; 4.2.4. Water Transport; 4.2.5. Gas Permeation; 4.3. Electrode; 4.4. Gas Diffusion Layer; 4.4.1. Treatments and Coatings; 4.4.2. Porosity; 4.4.3. Electrical Conductivity; 4.4.4. Compressibility; 4.4.5. Permeability; 4.5. Bipolar Plates; 4.5.1. Materials; 4.5.2. Properties; References; Problems; Quiz Chapter 5: Fuel Cell Operating Conditions5.1. Operating Pressure; 5.2. Operating Temperature; 5.3. Reactants Flow Rates; 5.4. Reactants Humidity; 5.5. Fuel Cell Mass Balance; 5.5.1. Inlet Flow Rates; 5.5.2. Outlet Flow Rates; 5.6. Fuel Cell Energy Balance; References; Problems; Quiz; Chapter 6: Stack Design; 6.1. Sizing of a Fuel Cell Stack; 6.2. Stack Configuration; 6.3. Uniform Distribution of Reactants to Each Cell; 6.4. Uniform Distribution of Reactants Inside Each Cell; 6.4.1. Shape of the Flow Field; 6.4.2. Flow Field Orientation; 6.4.3. Configuration of Channels 6.4.4. Channel's Shape, Dimensions, and Spacing |
| Record Nr. | UNINA-9910458757603321 |
|
Barbir Frano <1954->
|
||
| Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
PEM fuel cells [[electronic resource] ] : theory and practice / / Franco Barbir
| PEM fuel cells [[electronic resource] ] : theory and practice / / Franco Barbir |
| Autore | Barbir Frano <1954-> |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 |
| Descrizione fisica | 1 online resource (448 p.) |
| Disciplina | 621.312429 |
| Collana | Academic Press sustainable world series |
| Soggetto topico |
Fuel cells
Ion-permeable membranes |
| ISBN |
1-280-63044-2
9786610630448 0-08-045541-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Preface and Acknowledgments; Chapter 1: Introduction; 1.1. What Is a Fuel Cell?; 1.2. A Very Brief History of Fuel Cells; 1.3. Types of Fuel Cells; 1.4. How Does a PEM Fuel Cell Work?; 1.5. Why Do We Need Fuel Cells?; 1.6. Fuel Cell Applications; References; Chapter 2: Fuel Cell Basic Chemistry and Thermodynamics; 2.1. Basic Reactions; 2.2. Heat of Reaction; 2.3. Higher and Lower Heating Value of Hydrogen; 2.4. Theoretical Electrical Work; 2.5. Theoretical Fuel Cell Potential; 2.6. Effect of Temperature; 2.7. Theoretical Fuel Cell Efficiency; 2.8. Carnot Efficiency Myth
2.9. Effect of Pressure2.10. Summary; References; Problems; Quiz; Chapter 3: Fuel Cell Electrochemistry; 3.1. Electrode Kinetics; 3.1.1. Reaction Rate; 3.1.2. Reaction Constants; Transfer Coefficient; 3.1.3. Current Potential Relationship-Butler-Volmer Equation; 3.1.4. Exchange Current Density; 3.2. Voltage Losses; 3.2.1. Activation Polarization; 3.2.2. Internal Currents and Crossover Losses; 3.2.3. Ohmic (Resistive) Losses; 3.2.4. Concentration Polarization; 3.3. Cell Potential-Polarization Curve; 3.4. Distribution of Potential Across A Fuel Cell 3.5. Sensitivity of Parameters in Polarization Curve3.5.1. Effect of Transfer Coefficient/Tafel Slope; 3.5.2. Effect of Exchange Current Density; 3.5.3. Effect of Hydrogen Crossover and Internal Current Loss; 3.5.4. Effect of Internal Resistance; 3.5.5. Effect of Limiting Current Density; 3.5.6. Effect of Operating Pressure; 3.5.7. Air vs Oxygen; 3.5.8. Effect of Operating Temperature; 3.6. Fuel Cell Efficiency; 3.7. Implications and Use of Fuel Cell Polarization Curve; 3.7.1. Other Curves Resulting from Polarization Curve; 3.7.2. Linear Approximation of Polarization Curve 3.7.3. Use of Polarization Curve for Fuel Cell SizingReferences; Problems; Quiz; Chapter 4: Main Cell Components, Materials Properties and Processes; 4.1. Cell Description; 4.2. Membrane; 4.2.1. Water Uptake; 4.2.2. Physical Properties; 4.2.3. Protonic Conductivity; 4.2.4. Water Transport; 4.2.5. Gas Permeation; 4.3. Electrode; 4.4. Gas Diffusion Layer; 4.4.1. Treatments and Coatings; 4.4.2. Porosity; 4.4.3. Electrical Conductivity; 4.4.4. Compressibility; 4.4.5. Permeability; 4.5. Bipolar Plates; 4.5.1. Materials; 4.5.2. Properties; References; Problems; Quiz Chapter 5: Fuel Cell Operating Conditions5.1. Operating Pressure; 5.2. Operating Temperature; 5.3. Reactants Flow Rates; 5.4. Reactants Humidity; 5.5. Fuel Cell Mass Balance; 5.5.1. Inlet Flow Rates; 5.5.2. Outlet Flow Rates; 5.6. Fuel Cell Energy Balance; References; Problems; Quiz; Chapter 6: Stack Design; 6.1. Sizing of a Fuel Cell Stack; 6.2. Stack Configuration; 6.3. Uniform Distribution of Reactants to Each Cell; 6.4. Uniform Distribution of Reactants Inside Each Cell; 6.4.1. Shape of the Flow Field; 6.4.2. Flow Field Orientation; 6.4.3. Configuration of Channels 6.4.4. Channel's Shape, Dimensions, and Spacing |
| Record Nr. | UNINA-9910784547403321 |
|
Barbir Frano <1954->
|
||
| Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
PEM fuel cells : theory and practice / / Franco Barbir
| PEM fuel cells : theory and practice / / Franco Barbir |
| Autore | Barbir Frano <1954-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 |
| Descrizione fisica | 1 online resource (448 p.) |
| Disciplina | 621.312429 |
| Collana | Academic Press sustainable world series |
| Soggetto topico |
Fuel cells
Ion-permeable membranes |
| ISBN |
1-280-63044-2
9786610630448 0-08-045541-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword; Preface and Acknowledgments; Chapter 1: Introduction; 1.1. What Is a Fuel Cell?; 1.2. A Very Brief History of Fuel Cells; 1.3. Types of Fuel Cells; 1.4. How Does a PEM Fuel Cell Work?; 1.5. Why Do We Need Fuel Cells?; 1.6. Fuel Cell Applications; References; Chapter 2: Fuel Cell Basic Chemistry and Thermodynamics; 2.1. Basic Reactions; 2.2. Heat of Reaction; 2.3. Higher and Lower Heating Value of Hydrogen; 2.4. Theoretical Electrical Work; 2.5. Theoretical Fuel Cell Potential; 2.6. Effect of Temperature; 2.7. Theoretical Fuel Cell Efficiency; 2.8. Carnot Efficiency Myth
2.9. Effect of Pressure2.10. Summary; References; Problems; Quiz; Chapter 3: Fuel Cell Electrochemistry; 3.1. Electrode Kinetics; 3.1.1. Reaction Rate; 3.1.2. Reaction Constants; Transfer Coefficient; 3.1.3. Current Potential Relationship-Butler-Volmer Equation; 3.1.4. Exchange Current Density; 3.2. Voltage Losses; 3.2.1. Activation Polarization; 3.2.2. Internal Currents and Crossover Losses; 3.2.3. Ohmic (Resistive) Losses; 3.2.4. Concentration Polarization; 3.3. Cell Potential-Polarization Curve; 3.4. Distribution of Potential Across A Fuel Cell 3.5. Sensitivity of Parameters in Polarization Curve3.5.1. Effect of Transfer Coefficient/Tafel Slope; 3.5.2. Effect of Exchange Current Density; 3.5.3. Effect of Hydrogen Crossover and Internal Current Loss; 3.5.4. Effect of Internal Resistance; 3.5.5. Effect of Limiting Current Density; 3.5.6. Effect of Operating Pressure; 3.5.7. Air vs Oxygen; 3.5.8. Effect of Operating Temperature; 3.6. Fuel Cell Efficiency; 3.7. Implications and Use of Fuel Cell Polarization Curve; 3.7.1. Other Curves Resulting from Polarization Curve; 3.7.2. Linear Approximation of Polarization Curve 3.7.3. Use of Polarization Curve for Fuel Cell SizingReferences; Problems; Quiz; Chapter 4: Main Cell Components, Materials Properties and Processes; 4.1. Cell Description; 4.2. Membrane; 4.2.1. Water Uptake; 4.2.2. Physical Properties; 4.2.3. Protonic Conductivity; 4.2.4. Water Transport; 4.2.5. Gas Permeation; 4.3. Electrode; 4.4. Gas Diffusion Layer; 4.4.1. Treatments and Coatings; 4.4.2. Porosity; 4.4.3. Electrical Conductivity; 4.4.4. Compressibility; 4.4.5. Permeability; 4.5. Bipolar Plates; 4.5.1. Materials; 4.5.2. Properties; References; Problems; Quiz Chapter 5: Fuel Cell Operating Conditions5.1. Operating Pressure; 5.2. Operating Temperature; 5.3. Reactants Flow Rates; 5.4. Reactants Humidity; 5.5. Fuel Cell Mass Balance; 5.5.1. Inlet Flow Rates; 5.5.2. Outlet Flow Rates; 5.6. Fuel Cell Energy Balance; References; Problems; Quiz; Chapter 6: Stack Design; 6.1. Sizing of a Fuel Cell Stack; 6.2. Stack Configuration; 6.3. Uniform Distribution of Reactants to Each Cell; 6.4. Uniform Distribution of Reactants Inside Each Cell; 6.4.1. Shape of the Flow Field; 6.4.2. Flow Field Orientation; 6.4.3. Configuration of Channels 6.4.4. Channel's Shape, Dimensions, and Spacing |
| Record Nr. | UNINA-9910817461303321 |
|
Barbir Frano <1954->
|
||
| Amsterdam ; ; Boston, : Elsevier Academic Press, 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
PEM fuel cells [e-book] : theory and practice / Frano Barbir
| PEM fuel cells [e-book] : theory and practice / Frano Barbir |
| Autore | Barbir, Frano, 1954- |
| Pubbl/distr/stampa | Amsterdam ; London : Elsevier Academic, c2005 |
| Descrizione fisica | xv, 433 p. : ill. ; 24 cm |
| Disciplina | 621.312429 |
| Collana | Sustainable world series |
| Soggetto topico |
Fuel cells
Ion-permeable membranes |
| Soggetto genere / forma | Electronic books. |
| ISBN |
9780120781423
0120781425 |
| Formato | Risorse elettroniche  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | 1. Introduction, 2. Thermodynamics, 3. Electrochemistry, 4. Basic Components, 5. Basic Processes, 6. Stack Design, 7. Fuel Cell Operation, 8. Diagnostics, 9. System Design, 10. Applications, 11. Hydrogen Economy |
| Record Nr. | UNISALENTO-991003214639707536 |
|
Barbir, Frano, 1954-
|
||
| Amsterdam ; London : Elsevier Academic, c2005 | ||
| Risorse elettroniche | ||
| Lo trovi qui: Univ. del Salento | ||
| ||
