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Chlorine : principles and industrial practice / / edited by Peter Schmittinger
| Chlorine : principles and industrial practice / / edited by Peter Schmittinger |
| Pubbl/distr/stampa | Weinheim, [Germany] : , : Wiley-VCH, , 2000 |
| Descrizione fisica | 1 online resource (268 p.) |
| Disciplina |
546.732
661.0732 |
| Soggetto topico |
Chlorine
Chlorine industry Chlorine - Environmental aspects Chlorine - Industrial applications |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-01039-5
9786612010392 3-527-61338-2 3-527-61339-0 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Chlorine Principles and Industrial Practice; Contents; 1 . Introduction; 2 . Physical Properties; 3 . Chemical Properties; 4 . Chlor-Alkali Process; 4.1. Brine Supply; 4.2. Electricity Supply; 5 . Mercury Cell Process; 5.1. Principles; 5.2. Mercury Cells; 5.2.1. Uhde Cell; 5.2.2. De Nora Cell; 5.2.3. Olin - Mathieson Cell; 5.2.4. Solvay Cell; 5.3. Operation; 5.3.1. Brine System; 5.3.2. Cell Room; 5.3.3. Treatment of the Products; 5.3.4. Measurement; 5.3.5. Mercury Emissions; 6 . Diaphragm Process; 6.1. Principles; 6.2. Diaphragm Cells; 6.2.1. Dow Cell; 6.2.2. Glanor Electrolyzer
6.2.3. OxyTech "Hooker" Cells6.2.4. HU Monopolar Cells; 6.2.5. OxyTech MDC Cells; 6.3. Operation; 6.3.1. Brine System; 6.3.2. Cell Room; 6.3.3. Diaphragm Aging; 6.3.4. Treatment of the Products; 6.3.5. Measurement; 7. Membrane Process; 7.1. Principles; 7.2. Process Specific Aspects; 7.2.1. Brine Purification; 7.2.2. Commercial Membranes; 7.2.3. Power Consumption; 7.2.4. Product Quality; 7.3. Membrane Cells; 7.3.1. Monopolar and Bipolar Designs; 7.3.2. Commercial Electrolyzers; 7.3.3. Comparison of Electrolyzers; 7.3.4. Cell Room; 8. Electrodes; 8.1. Anodes 8.1.1. General Properties of the Anodes8.1.2. Anodes for Mercury Cells; 8.1.3. Anodes for Diaphragm Cells; 8.1.4. Anodes for Membrane Cells; 8.2. Activated Cathode Coatings; 9. Comparison of the Processes; 9.1. Product Quality; 9.2. Economics; 9.2.1. Equipment; 9.2.2. Operating Costs; 9.2.3. Summary; 9.3. Sodium Hydroxide and Potassium Hydroxide; 9.3.1. Sodium Hydroxide; 9.3.2. Potassium Hydroxide; 10 . Other Production Processes; 10.1. Electrolysis of Hydrochloric Acid; 10.2.Chemical Processes; 10.2.1. Catalytic Oxidation of Hydrogen Chloride by Oxygen 10.2.2. Oxidation of Hydrogen Chloride by Nitric Acid10.2.3. Production of Chlorine from Chlorides; 11 . Chlorine Purification and Liquefaction; 11.1. Cooling; 11.2. Chlorine Purification; 11.3. Drying; 11.4. Transfer and Compression; 11.5. Liquefaction; 11.6. Chlorine Recovery; 12 . Chlorine Handling; 12.1. Storage Systems; 12.2. Tranasport; 12.3. Chlorine Discharge Systems; 12.4. Chlorine Vaporization; 12.5. Treatment of Gaseous Effluents; 12.6. Materials; 12.7. Safety; 13 . Quality Specifications and Analytical Methods; 13.1. Quality Specifications; 13.2. Analytical Methods 14 . Uses of Chlorine14.1. Use of Elemental Chlorine; 14.1.1. Water Disinfection; 14.1.2. Pulp and Paper; 14.2. Inorganic Nonmetal Chlorides; 14.2.1. Phosphorchlorides; 14.2.2. Sulfur Chlorides; 14.2.3. Nitrogen - Chlorine Compounds; 14.2.4. Hydrogen Chloride, HCI, and Hydrochloric Acid; 14.2.5. Oxygen Chlorine Compounds; 14.3. Metal Chlorides; 14.3.1. Titanium Chlorides; 14.3.2. Zirconium Chloride; 14.3.3. Aluminum Chloride; 14.3.4. Iron Chlorides; 14.3.5. Other Metal Chlorides; 14.4. Silicon; 14.5. Phosgene; 14.6. Chlorinated Aliphatic Hydrocarbons; 14.6.1.Chloromethanes 14.6.1.1. Monochloromethane, Methyl Chloride, CH3CI |
| Record Nr. | UNINA-9910144331303321 |
| Weinheim, [Germany] : , : Wiley-VCH, , 2000 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Chlorine : principles and industrial practice / / edited by Peter Schmittinger
| Chlorine : principles and industrial practice / / edited by Peter Schmittinger |
| Pubbl/distr/stampa | Weinheim, [Germany] : , : Wiley-VCH, , 2000 |
| Descrizione fisica | 1 online resource (268 p.) |
| Disciplina |
546.732
661.0732 |
| Collana | Public health statement |
| Soggetto topico |
Chlorine
Chlorine industry Chlorine - Environmental aspects Chlorine - Industrial applications |
| ISBN |
1-282-01039-5
9786612010392 3-527-61338-2 3-527-61339-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Chlorine Principles and Industrial Practice; Contents; 1 . Introduction; 2 . Physical Properties; 3 . Chemical Properties; 4 . Chlor-Alkali Process; 4.1. Brine Supply; 4.2. Electricity Supply; 5 . Mercury Cell Process; 5.1. Principles; 5.2. Mercury Cells; 5.2.1. Uhde Cell; 5.2.2. De Nora Cell; 5.2.3. Olin - Mathieson Cell; 5.2.4. Solvay Cell; 5.3. Operation; 5.3.1. Brine System; 5.3.2. Cell Room; 5.3.3. Treatment of the Products; 5.3.4. Measurement; 5.3.5. Mercury Emissions; 6 . Diaphragm Process; 6.1. Principles; 6.2. Diaphragm Cells; 6.2.1. Dow Cell; 6.2.2. Glanor Electrolyzer
6.2.3. OxyTech "Hooker" Cells6.2.4. HU Monopolar Cells; 6.2.5. OxyTech MDC Cells; 6.3. Operation; 6.3.1. Brine System; 6.3.2. Cell Room; 6.3.3. Diaphragm Aging; 6.3.4. Treatment of the Products; 6.3.5. Measurement; 7. Membrane Process; 7.1. Principles; 7.2. Process Specific Aspects; 7.2.1. Brine Purification; 7.2.2. Commercial Membranes; 7.2.3. Power Consumption; 7.2.4. Product Quality; 7.3. Membrane Cells; 7.3.1. Monopolar and Bipolar Designs; 7.3.2. Commercial Electrolyzers; 7.3.3. Comparison of Electrolyzers; 7.3.4. Cell Room; 8. Electrodes; 8.1. Anodes 8.1.1. General Properties of the Anodes8.1.2. Anodes for Mercury Cells; 8.1.3. Anodes for Diaphragm Cells; 8.1.4. Anodes for Membrane Cells; 8.2. Activated Cathode Coatings; 9. Comparison of the Processes; 9.1. Product Quality; 9.2. Economics; 9.2.1. Equipment; 9.2.2. Operating Costs; 9.2.3. Summary; 9.3. Sodium Hydroxide and Potassium Hydroxide; 9.3.1. Sodium Hydroxide; 9.3.2. Potassium Hydroxide; 10 . Other Production Processes; 10.1. Electrolysis of Hydrochloric Acid; 10.2.Chemical Processes; 10.2.1. Catalytic Oxidation of Hydrogen Chloride by Oxygen 10.2.2. Oxidation of Hydrogen Chloride by Nitric Acid10.2.3. Production of Chlorine from Chlorides; 11 . Chlorine Purification and Liquefaction; 11.1. Cooling; 11.2. Chlorine Purification; 11.3. Drying; 11.4. Transfer and Compression; 11.5. Liquefaction; 11.6. Chlorine Recovery; 12 . Chlorine Handling; 12.1. Storage Systems; 12.2. Tranasport; 12.3. Chlorine Discharge Systems; 12.4. Chlorine Vaporization; 12.5. Treatment of Gaseous Effluents; 12.6. Materials; 12.7. Safety; 13 . Quality Specifications and Analytical Methods; 13.1. Quality Specifications; 13.2. Analytical Methods 14 . Uses of Chlorine14.1. Use of Elemental Chlorine; 14.1.1. Water Disinfection; 14.1.2. Pulp and Paper; 14.2. Inorganic Nonmetal Chlorides; 14.2.1. Phosphorchlorides; 14.2.2. Sulfur Chlorides; 14.2.3. Nitrogen - Chlorine Compounds; 14.2.4. Hydrogen Chloride, HCI, and Hydrochloric Acid; 14.2.5. Oxygen Chlorine Compounds; 14.3. Metal Chlorides; 14.3.1. Titanium Chlorides; 14.3.2. Zirconium Chloride; 14.3.3. Aluminum Chloride; 14.3.4. Iron Chlorides; 14.3.5. Other Metal Chlorides; 14.4. Silicon; 14.5. Phosgene; 14.6. Chlorinated Aliphatic Hydrocarbons; 14.6.1.Chloromethanes 14.6.1.1. Monochloromethane, Methyl Chloride, CH3CI |
| Record Nr. | UNINA-9910678093703321 |
| Weinheim, [Germany] : , : Wiley-VCH, , 2000 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse
| Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse |
| Pubbl/distr/stampa | Chichester, : Society of Chemical Industry |
| Descrizione fisica | 1 online resource (352 p.) |
| Disciplina |
661
661.0732 661/.0732 |
| Altri autori (Persone) | MoorhouseJ. S |
| Soggetto topico |
Chlorine industry
Alkali industry and trade Electrochemistry, Industrial |
| ISBN |
1-281-31280-0
9786611312800 0-470-99947-0 0-470-99946-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Modern Chlor-Alkali Technology Volume 8; Contents; Introduction; Acknowledgements; 1 The Chlor-Alkali Business; 2 Phase-out Issues for Mercury Cell Technology in the Chlor-Alkali Industry; 3 Euro Chlor Risk Assessment for the Marine Environment; 4 Chlorine Production with Oxygen-depolarised Cathodes on an Industrial Scale; 5 Deactivation of Thermally Formed RuO2 + TiO2 Coatings During Chlorine Evolution: Mechanisms and Reactivation Measures; 6 High Current Density Operation of Chlor-Alkali Electrolysers - the Standard for the New Millennium
7 Chlorine Processing Beyond the Millennium - the Use of Gas-separation Membranes8 Electrode Management Optimisation System; 9 Gas-diffusion Electrodes for Chlorine-related (Production) Technologies; 10 Replacement of Mercury Chlor-Alkali Plants with New Membrane Plants in Australia; 11 Commercialisation of Kvaerner Chemetics' Sulphate Removal System; 12 Process to Remove Sulphate, Iodide and Silica from Brine; 13 Advanced Diaphragm Cell Technology (ADCT)TM; 14 Hypochlorite Recycling to Diaphragm Cells 15 Practical Operating Differences in Converting a Diaphragm Cell Chlor-Alkali Plant to a Membrane Electrolyser Plant16 Know-how and Technology - Improving the Return on Investment for Conversions, Expansions and New Chlorine Plants; 17 New Electrolyser Design for High Current Density; 18 Chlor-Alkali Membrane Electrolyser; 19 Advanced Cell Technology with Flemiont R Membranes and the AZEC R Bipolar Electrolyser; 20 A Dynamic Model of a Mercury Chlorine Cell; 21 Ethylene Dichloride ± Part of the Chlor-Alkali Plant?; 22 Back-pulse Filtration Using GORE-TEX R Membrane Filter Cloths 23 Cost Saving in Chlorine Plants by Benefiting from the Unique Properties of Titanium24 Brine Purification by Ion Exchange with Water Elution; 25 Emission of Chlorine Dioxide in a Hypochlorite Production Unit in the Steady State and at Peak Load; 26 New Process Options for Hypochlorite Destruction; Index |
| Record Nr. | UNINA-9910145419203321 |
| Chichester, : Society of Chemical Industry | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse
| Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Chichester, : Society of Chemical Industry |
| Descrizione fisica | 1 online resource (352 p.) |
| Disciplina |
661
661.0732 661/.0732 |
| Altri autori (Persone) | MoorhouseJ. S |
| Soggetto topico |
Chlorine industry
Alkali industry and trade Electrochemistry, Industrial |
| ISBN |
1-281-31280-0
9786611312800 0-470-99947-0 0-470-99946-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Modern Chlor-Alkali Technology Volume 8; Contents; Introduction; Acknowledgements; 1 The Chlor-Alkali Business; 2 Phase-out Issues for Mercury Cell Technology in the Chlor-Alkali Industry; 3 Euro Chlor Risk Assessment for the Marine Environment; 4 Chlorine Production with Oxygen-depolarised Cathodes on an Industrial Scale; 5 Deactivation of Thermally Formed RuO2 + TiO2 Coatings During Chlorine Evolution: Mechanisms and Reactivation Measures; 6 High Current Density Operation of Chlor-Alkali Electrolysers - the Standard for the New Millennium
7 Chlorine Processing Beyond the Millennium - the Use of Gas-separation Membranes8 Electrode Management Optimisation System; 9 Gas-diffusion Electrodes for Chlorine-related (Production) Technologies; 10 Replacement of Mercury Chlor-Alkali Plants with New Membrane Plants in Australia; 11 Commercialisation of Kvaerner Chemetics' Sulphate Removal System; 12 Process to Remove Sulphate, Iodide and Silica from Brine; 13 Advanced Diaphragm Cell Technology (ADCT)TM; 14 Hypochlorite Recycling to Diaphragm Cells 15 Practical Operating Differences in Converting a Diaphragm Cell Chlor-Alkali Plant to a Membrane Electrolyser Plant16 Know-how and Technology - Improving the Return on Investment for Conversions, Expansions and New Chlorine Plants; 17 New Electrolyser Design for High Current Density; 18 Chlor-Alkali Membrane Electrolyser; 19 Advanced Cell Technology with Flemiont R Membranes and the AZEC R Bipolar Electrolyser; 20 A Dynamic Model of a Mercury Chlorine Cell; 21 Ethylene Dichloride ± Part of the Chlor-Alkali Plant?; 22 Back-pulse Filtration Using GORE-TEX R Membrane Filter Cloths 23 Cost Saving in Chlorine Plants by Benefiting from the Unique Properties of Titanium24 Brine Purification by Ion Exchange with Water Elution; 25 Emission of Chlorine Dioxide in a Hypochlorite Production Unit in the Steady State and at Peak Load; 26 New Process Options for Hypochlorite Destruction; Index |
| Record Nr. | UNISA-996218289503316 |
| Chichester, : Society of Chemical Industry | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse
| Modern chlor-alkali technology . Volume 8 Proceedings of the 2000 London International Chlorine Symposium; organised by SCI's Electrochemical Technology Group, held on 31st May-2nd June, 2009 [[electronic resource] /] / edited by John Moorhouse |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Chichester, : Society of Chemical Industry |
| Descrizione fisica | 1 online resource (352 p.) |
| Disciplina |
661
661.0732 661/.0732 |
| Altri autori (Persone) | MoorhouseJ. S |
| Soggetto topico |
Chlorine industry
Alkali industry and trade Electrochemistry, Industrial |
| ISBN |
1-281-31280-0
9786611312800 0-470-99947-0 0-470-99946-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Modern Chlor-Alkali Technology Volume 8; Contents; Introduction; Acknowledgements; 1 The Chlor-Alkali Business; 2 Phase-out Issues for Mercury Cell Technology in the Chlor-Alkali Industry; 3 Euro Chlor Risk Assessment for the Marine Environment; 4 Chlorine Production with Oxygen-depolarised Cathodes on an Industrial Scale; 5 Deactivation of Thermally Formed RuO2 + TiO2 Coatings During Chlorine Evolution: Mechanisms and Reactivation Measures; 6 High Current Density Operation of Chlor-Alkali Electrolysers - the Standard for the New Millennium
7 Chlorine Processing Beyond the Millennium - the Use of Gas-separation Membranes8 Electrode Management Optimisation System; 9 Gas-diffusion Electrodes for Chlorine-related (Production) Technologies; 10 Replacement of Mercury Chlor-Alkali Plants with New Membrane Plants in Australia; 11 Commercialisation of Kvaerner Chemetics' Sulphate Removal System; 12 Process to Remove Sulphate, Iodide and Silica from Brine; 13 Advanced Diaphragm Cell Technology (ADCT)TM; 14 Hypochlorite Recycling to Diaphragm Cells 15 Practical Operating Differences in Converting a Diaphragm Cell Chlor-Alkali Plant to a Membrane Electrolyser Plant16 Know-how and Technology - Improving the Return on Investment for Conversions, Expansions and New Chlorine Plants; 17 New Electrolyser Design for High Current Density; 18 Chlor-Alkali Membrane Electrolyser; 19 Advanced Cell Technology with Flemiont R Membranes and the AZEC R Bipolar Electrolyser; 20 A Dynamic Model of a Mercury Chlorine Cell; 21 Ethylene Dichloride ± Part of the Chlor-Alkali Plant?; 22 Back-pulse Filtration Using GORE-TEX R Membrane Filter Cloths 23 Cost Saving in Chlorine Plants by Benefiting from the Unique Properties of Titanium24 Brine Purification by Ion Exchange with Water Elution; 25 Emission of Chlorine Dioxide in a Hypochlorite Production Unit in the Steady State and at Peak Load; 26 New Process Options for Hypochlorite Destruction; Index |
| Record Nr. | UNINA-9910818610303321 |
| Chichester, : Society of Chemical Industry | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
