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Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.]
| Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.] |
| Pubbl/distr/stampa | New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 |
| Descrizione fisica | 1 online resource (876 p.) |
| Disciplina |
541.3/746
541.3746 |
| Altri autori (Persone) |
ZemaitisJoseph F. |
| Soggetto topico | Electrolytes - Thermal properties |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-81745-0
9786612817458 0-470-93841-2 0-470-93840-4 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Handbook of Aqueous Electrolyte Thermodynamics Theory & Application; TABLE OF CONTENTS; I INTRODUCTION; II THERMODYNAMICS OF SOLUTIONS; Basic Thermodynamic Functions; Solutions - Basic Definitions and Concepts; Equilibrium - Necessary Conditions; Activities, Activity Coefficients and Standard States; III EQUILIBRIUM CONSTANTS; Ionic and/or Reaction Equilibrium in Aqueous Solutions; Solubility Equilibria Between Crystals and Saturated Solutions; Vapor-Liquid Equilibria in Aqueous Solutions; Temperature Effects on the Equilibrium Constant
Estimating Temperature Effects on Heat Capacity and Other Thermodynamic PropertiesEquilibrium Constants from Tabulated Data; Pressure Effects on the Equilibrium Constant; Appendix 3.1 - Criss and Cobble Parameters; IV ACTIVITY COEFFICIENTS OF SINGLE STRONG ELECTROLYTES; History; Limitations and Improvements to the Debye-Huckel Limiting Law; Further Refinements; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Short Range Interaction Model; Long Range Interaction Model; Temperature Effects; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Application Bromley's MethodMeissner's Method; Pitzer's Method; Chen's Method; NBS Smoothed Experimental Data; Test Cases:; HCl; KCl; KOH; NaCl; NaOH; CaCl2; Na2SO4; MgSO4; Bromley's Extended Equation; MgSO4 Test Case; Comparison of Temperature Effect Methods; Bromley; Meissner; Pitzer and Chen; Experimental Data; Test Cases:; HCl at 50° Celsius; KCl at 80° Celsius; KOH at 80° Celsius; NaCl at 100 and 300° Celsius; NaOH at 35° Celsius; CaCl2 at 108.85 and 201.85° Celsius; Na2SO4 at 80° Celsius; MgSO4 at 80° Celsius; Appendix 4.1 - Values for Guggenheim's β Parameter Table 1: β Values for Uni-univalent ElectrolytesTable 2: β and B Values of Bi-univalent and Uni-bivalent Electrolytes from Freezing Points; Methods for Calculating β; Appendix 4.2 - Bromley Interaction Parameters; Table 1: B Values at 25°C Determined by the Method of Least Squares on Log γ to I=6.0 (or less if limited data); Table 2: Individual Ion Values of B and δ in Aqueous Solutions at 25°C; Table 3: Bivalent Metal Sulfates at 25°C; Appendix 4.3 - Meissner Parameters; Table: Average Values of Parameter q in Equation (4.46) for Selected Electrolytes; Appendix 4.4 - Pitzer Parameters Table 1: Inorganic Acids, Bases and Salts of 1-1 TypeTable 2: Salts of Carboxylic Acids (1-1 Type); Table 3: Tetraalkylammonium Halides; Table 4: Sulfonic Acids and Salts (1-1 Type); Table 5: Additional 1-1 Type Organic Salts; Table 6: Inorganic Compounds of 2-1 Type; Table 7: Organic Electrolytes of 2-1 Type; Table 8: 3-1 Electrolytes; Table 9: 4-1 Electrolytes; Table 10: 5-1 Electrolytes; Table 11: 2-2 Electrolytes; Appendix 4.5 - Pitzer Parameter Derivatives; Table 1: Temperature Derivatives of Parameters for 1-1 Electrolytes Evaluated from Calorimetric Data Table 2: Temperature Derivatives of Parameters for 2-1 and 1-2 Electrolytes Evaluated from Calorimetric Data |
| Record Nr. | UNINA-9910140950003321 |
| New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.]
| Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.] |
| Pubbl/distr/stampa | New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 |
| Descrizione fisica | 1 online resource (876 p.) |
| Disciplina |
541.3/746
541.3746 |
| Altri autori (Persone) |
ZemaitisJoseph F. |
| Soggetto topico | Electrolytes - Thermal properties |
| ISBN |
1-282-81745-0
9786612817458 0-470-93841-2 0-470-93840-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Handbook of Aqueous Electrolyte Thermodynamics Theory & Application; TABLE OF CONTENTS; I INTRODUCTION; II THERMODYNAMICS OF SOLUTIONS; Basic Thermodynamic Functions; Solutions - Basic Definitions and Concepts; Equilibrium - Necessary Conditions; Activities, Activity Coefficients and Standard States; III EQUILIBRIUM CONSTANTS; Ionic and/or Reaction Equilibrium in Aqueous Solutions; Solubility Equilibria Between Crystals and Saturated Solutions; Vapor-Liquid Equilibria in Aqueous Solutions; Temperature Effects on the Equilibrium Constant
Estimating Temperature Effects on Heat Capacity and Other Thermodynamic PropertiesEquilibrium Constants from Tabulated Data; Pressure Effects on the Equilibrium Constant; Appendix 3.1 - Criss and Cobble Parameters; IV ACTIVITY COEFFICIENTS OF SINGLE STRONG ELECTROLYTES; History; Limitations and Improvements to the Debye-Huckel Limiting Law; Further Refinements; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Short Range Interaction Model; Long Range Interaction Model; Temperature Effects; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Application Bromley's MethodMeissner's Method; Pitzer's Method; Chen's Method; NBS Smoothed Experimental Data; Test Cases:; HCl; KCl; KOH; NaCl; NaOH; CaCl2; Na2SO4; MgSO4; Bromley's Extended Equation; MgSO4 Test Case; Comparison of Temperature Effect Methods; Bromley; Meissner; Pitzer and Chen; Experimental Data; Test Cases:; HCl at 50° Celsius; KCl at 80° Celsius; KOH at 80° Celsius; NaCl at 100 and 300° Celsius; NaOH at 35° Celsius; CaCl2 at 108.85 and 201.85° Celsius; Na2SO4 at 80° Celsius; MgSO4 at 80° Celsius; Appendix 4.1 - Values for Guggenheim's β Parameter Table 1: β Values for Uni-univalent ElectrolytesTable 2: β and B Values of Bi-univalent and Uni-bivalent Electrolytes from Freezing Points; Methods for Calculating β; Appendix 4.2 - Bromley Interaction Parameters; Table 1: B Values at 25°C Determined by the Method of Least Squares on Log γ to I=6.0 (or less if limited data); Table 2: Individual Ion Values of B and δ in Aqueous Solutions at 25°C; Table 3: Bivalent Metal Sulfates at 25°C; Appendix 4.3 - Meissner Parameters; Table: Average Values of Parameter q in Equation (4.46) for Selected Electrolytes; Appendix 4.4 - Pitzer Parameters Table 1: Inorganic Acids, Bases and Salts of 1-1 TypeTable 2: Salts of Carboxylic Acids (1-1 Type); Table 3: Tetraalkylammonium Halides; Table 4: Sulfonic Acids and Salts (1-1 Type); Table 5: Additional 1-1 Type Organic Salts; Table 6: Inorganic Compounds of 2-1 Type; Table 7: Organic Electrolytes of 2-1 Type; Table 8: 3-1 Electrolytes; Table 9: 4-1 Electrolytes; Table 10: 5-1 Electrolytes; Table 11: 2-2 Electrolytes; Appendix 4.5 - Pitzer Parameter Derivatives; Table 1: Temperature Derivatives of Parameters for 1-1 Electrolytes Evaluated from Calorimetric Data Table 2: Temperature Derivatives of Parameters for 2-1 and 1-2 Electrolytes Evaluated from Calorimetric Data |
| Record Nr. | UNINA-9910643190103321 |
| New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.]
| Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.] |
| Pubbl/distr/stampa | New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 |
| Descrizione fisica | 1 online resource (876 p.) |
| Disciplina |
541.3/746
541.3746 |
| Altri autori (Persone) |
ZemaitisJoseph F. |
| Soggetto topico | Electrolytes - Thermal properties |
| ISBN |
1-282-81745-0
9786612817458 0-470-93841-2 0-470-93840-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Handbook of Aqueous Electrolyte Thermodynamics Theory & Application; TABLE OF CONTENTS; I INTRODUCTION; II THERMODYNAMICS OF SOLUTIONS; Basic Thermodynamic Functions; Solutions - Basic Definitions and Concepts; Equilibrium - Necessary Conditions; Activities, Activity Coefficients and Standard States; III EQUILIBRIUM CONSTANTS; Ionic and/or Reaction Equilibrium in Aqueous Solutions; Solubility Equilibria Between Crystals and Saturated Solutions; Vapor-Liquid Equilibria in Aqueous Solutions; Temperature Effects on the Equilibrium Constant
Estimating Temperature Effects on Heat Capacity and Other Thermodynamic PropertiesEquilibrium Constants from Tabulated Data; Pressure Effects on the Equilibrium Constant; Appendix 3.1 - Criss and Cobble Parameters; IV ACTIVITY COEFFICIENTS OF SINGLE STRONG ELECTROLYTES; History; Limitations and Improvements to the Debye-Huckel Limiting Law; Further Refinements; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Short Range Interaction Model; Long Range Interaction Model; Temperature Effects; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Application Bromley's MethodMeissner's Method; Pitzer's Method; Chen's Method; NBS Smoothed Experimental Data; Test Cases:; HCl; KCl; KOH; NaCl; NaOH; CaCl2; Na2SO4; MgSO4; Bromley's Extended Equation; MgSO4 Test Case; Comparison of Temperature Effect Methods; Bromley; Meissner; Pitzer and Chen; Experimental Data; Test Cases:; HCl at 50° Celsius; KCl at 80° Celsius; KOH at 80° Celsius; NaCl at 100 and 300° Celsius; NaOH at 35° Celsius; CaCl2 at 108.85 and 201.85° Celsius; Na2SO4 at 80° Celsius; MgSO4 at 80° Celsius; Appendix 4.1 - Values for Guggenheim's β Parameter Table 1: β Values for Uni-univalent ElectrolytesTable 2: β and B Values of Bi-univalent and Uni-bivalent Electrolytes from Freezing Points; Methods for Calculating β; Appendix 4.2 - Bromley Interaction Parameters; Table 1: B Values at 25°C Determined by the Method of Least Squares on Log γ to I=6.0 (or less if limited data); Table 2: Individual Ion Values of B and δ in Aqueous Solutions at 25°C; Table 3: Bivalent Metal Sulfates at 25°C; Appendix 4.3 - Meissner Parameters; Table: Average Values of Parameter q in Equation (4.46) for Selected Electrolytes; Appendix 4.4 - Pitzer Parameters Table 1: Inorganic Acids, Bases and Salts of 1-1 TypeTable 2: Salts of Carboxylic Acids (1-1 Type); Table 3: Tetraalkylammonium Halides; Table 4: Sulfonic Acids and Salts (1-1 Type); Table 5: Additional 1-1 Type Organic Salts; Table 6: Inorganic Compounds of 2-1 Type; Table 7: Organic Electrolytes of 2-1 Type; Table 8: 3-1 Electrolytes; Table 9: 4-1 Electrolytes; Table 10: 5-1 Electrolytes; Table 11: 2-2 Electrolytes; Appendix 4.5 - Pitzer Parameter Derivatives; Table 1: Temperature Derivatives of Parameters for 1-1 Electrolytes Evaluated from Calorimetric Data Table 2: Temperature Derivatives of Parameters for 2-1 and 1-2 Electrolytes Evaluated from Calorimetric Data |
| Record Nr. | UNISA-996218404203316 |
| New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.]
| Handbook of aqueous electrolyte thermodynamics [[electronic resource] ] : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.] |
| Pubbl/distr/stampa | New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 |
| Descrizione fisica | 1 online resource (876 p.) |
| Disciplina |
541.3/746
541.3746 |
| Altri autori (Persone) |
ZemaitisJoseph F. |
| Soggetto topico | Electrolytes - Thermal properties |
| ISBN |
1-282-81745-0
9786612817458 0-470-93841-2 0-470-93840-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Handbook of Aqueous Electrolyte Thermodynamics Theory & Application; TABLE OF CONTENTS; I INTRODUCTION; II THERMODYNAMICS OF SOLUTIONS; Basic Thermodynamic Functions; Solutions - Basic Definitions and Concepts; Equilibrium - Necessary Conditions; Activities, Activity Coefficients and Standard States; III EQUILIBRIUM CONSTANTS; Ionic and/or Reaction Equilibrium in Aqueous Solutions; Solubility Equilibria Between Crystals and Saturated Solutions; Vapor-Liquid Equilibria in Aqueous Solutions; Temperature Effects on the Equilibrium Constant
Estimating Temperature Effects on Heat Capacity and Other Thermodynamic PropertiesEquilibrium Constants from Tabulated Data; Pressure Effects on the Equilibrium Constant; Appendix 3.1 - Criss and Cobble Parameters; IV ACTIVITY COEFFICIENTS OF SINGLE STRONG ELECTROLYTES; History; Limitations and Improvements to the Debye-Huckel Limiting Law; Further Refinements; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Short Range Interaction Model; Long Range Interaction Model; Temperature Effects; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Application Bromley's MethodMeissner's Method; Pitzer's Method; Chen's Method; NBS Smoothed Experimental Data; Test Cases:; HCl; KCl; KOH; NaCl; NaOH; CaCl2; Na2SO4; MgSO4; Bromley's Extended Equation; MgSO4 Test Case; Comparison of Temperature Effect Methods; Bromley; Meissner; Pitzer and Chen; Experimental Data; Test Cases:; HCl at 50° Celsius; KCl at 80° Celsius; KOH at 80° Celsius; NaCl at 100 and 300° Celsius; NaOH at 35° Celsius; CaCl2 at 108.85 and 201.85° Celsius; Na2SO4 at 80° Celsius; MgSO4 at 80° Celsius; Appendix 4.1 - Values for Guggenheim's β Parameter Table 1: β Values for Uni-univalent ElectrolytesTable 2: β and B Values of Bi-univalent and Uni-bivalent Electrolytes from Freezing Points; Methods for Calculating β; Appendix 4.2 - Bromley Interaction Parameters; Table 1: B Values at 25°C Determined by the Method of Least Squares on Log γ to I=6.0 (or less if limited data); Table 2: Individual Ion Values of B and δ in Aqueous Solutions at 25°C; Table 3: Bivalent Metal Sulfates at 25°C; Appendix 4.3 - Meissner Parameters; Table: Average Values of Parameter q in Equation (4.46) for Selected Electrolytes; Appendix 4.4 - Pitzer Parameters Table 1: Inorganic Acids, Bases and Salts of 1-1 TypeTable 2: Salts of Carboxylic Acids (1-1 Type); Table 3: Tetraalkylammonium Halides; Table 4: Sulfonic Acids and Salts (1-1 Type); Table 5: Additional 1-1 Type Organic Salts; Table 6: Inorganic Compounds of 2-1 Type; Table 7: Organic Electrolytes of 2-1 Type; Table 8: 3-1 Electrolytes; Table 9: 4-1 Electrolytes; Table 10: 5-1 Electrolytes; Table 11: 2-2 Electrolytes; Appendix 4.5 - Pitzer Parameter Derivatives; Table 1: Temperature Derivatives of Parameters for 1-1 Electrolytes Evaluated from Calorimetric Data Table 2: Temperature Derivatives of Parameters for 2-1 and 1-2 Electrolytes Evaluated from Calorimetric Data |
| Record Nr. | UNINA-9910830013803321 |
| New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of aqueous electrolyte thermodynamics : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.]
| Handbook of aqueous electrolyte thermodynamics : theory & application / / Joseph F. Zemaitis, Jr. ... [et al.] |
| Pubbl/distr/stampa | New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 |
| Descrizione fisica | 1 online resource (876 p.) |
| Disciplina | 541.3/746 |
| Altri autori (Persone) |
ZemaitisJoseph F. |
| Soggetto topico | Electrolytes - Thermal properties |
| ISBN |
1-282-81745-0
9786612817458 0-470-93841-2 0-470-93840-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Handbook of Aqueous Electrolyte Thermodynamics Theory & Application; TABLE OF CONTENTS; I INTRODUCTION; II THERMODYNAMICS OF SOLUTIONS; Basic Thermodynamic Functions; Solutions - Basic Definitions and Concepts; Equilibrium - Necessary Conditions; Activities, Activity Coefficients and Standard States; III EQUILIBRIUM CONSTANTS; Ionic and/or Reaction Equilibrium in Aqueous Solutions; Solubility Equilibria Between Crystals and Saturated Solutions; Vapor-Liquid Equilibria in Aqueous Solutions; Temperature Effects on the Equilibrium Constant
Estimating Temperature Effects on Heat Capacity and Other Thermodynamic PropertiesEquilibrium Constants from Tabulated Data; Pressure Effects on the Equilibrium Constant; Appendix 3.1 - Criss and Cobble Parameters; IV ACTIVITY COEFFICIENTS OF SINGLE STRONG ELECTROLYTES; History; Limitations and Improvements to the Debye-Huckel Limiting Law; Further Refinements; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Short Range Interaction Model; Long Range Interaction Model; Temperature Effects; Bromley's Method; Meissner's Method; Pitzer's Method; Chen's Method; Application Bromley's MethodMeissner's Method; Pitzer's Method; Chen's Method; NBS Smoothed Experimental Data; Test Cases:; HCl; KCl; KOH; NaCl; NaOH; CaCl2; Na2SO4; MgSO4; Bromley's Extended Equation; MgSO4 Test Case; Comparison of Temperature Effect Methods; Bromley; Meissner; Pitzer and Chen; Experimental Data; Test Cases:; HCl at 50° Celsius; KCl at 80° Celsius; KOH at 80° Celsius; NaCl at 100 and 300° Celsius; NaOH at 35° Celsius; CaCl2 at 108.85 and 201.85° Celsius; Na2SO4 at 80° Celsius; MgSO4 at 80° Celsius; Appendix 4.1 - Values for Guggenheim's β Parameter Table 1: β Values for Uni-univalent ElectrolytesTable 2: β and B Values of Bi-univalent and Uni-bivalent Electrolytes from Freezing Points; Methods for Calculating β; Appendix 4.2 - Bromley Interaction Parameters; Table 1: B Values at 25°C Determined by the Method of Least Squares on Log γ to I=6.0 (or less if limited data); Table 2: Individual Ion Values of B and δ in Aqueous Solutions at 25°C; Table 3: Bivalent Metal Sulfates at 25°C; Appendix 4.3 - Meissner Parameters; Table: Average Values of Parameter q in Equation (4.46) for Selected Electrolytes; Appendix 4.4 - Pitzer Parameters Table 1: Inorganic Acids, Bases and Salts of 1-1 TypeTable 2: Salts of Carboxylic Acids (1-1 Type); Table 3: Tetraalkylammonium Halides; Table 4: Sulfonic Acids and Salts (1-1 Type); Table 5: Additional 1-1 Type Organic Salts; Table 6: Inorganic Compounds of 2-1 Type; Table 7: Organic Electrolytes of 2-1 Type; Table 8: 3-1 Electrolytes; Table 9: 4-1 Electrolytes; Table 10: 5-1 Electrolytes; Table 11: 2-2 Electrolytes; Appendix 4.5 - Pitzer Parameter Derivatives; Table 1: Temperature Derivatives of Parameters for 1-1 Electrolytes Evaluated from Calorimetric Data Table 2: Temperature Derivatives of Parameters for 2-1 and 1-2 Electrolytes Evaluated from Calorimetric Data |
| Record Nr. | UNINA-9910876895603321 |
| New York, N.Y., : Design Institute for Physical Property Data sponsored by the American Institute of Chemical Engineers, c1986 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
