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Record Nr. |
UNINA9910484480703321 |
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Titolo |
Advances in textile waste water treatments / / Subramanian Senthilkannan Muthu, editor |
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Pubbl/distr/stampa |
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Gateway East, Singapore : , : Springer, , [2021] |
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©2021 |
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ISBN |
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Descrizione fisica |
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1 online resource (ix, 223 pages) : illustrations |
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Collana |
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Sustainable Textiles: Production, Processing, Manufacturing and Chemistry |
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Disciplina |
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Soggetti |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Nota di contenuto |
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Intro -- Contents -- About the Editor -- Reuse of Salt-Containing Dyeing Effluents by Means of an Electrochemical and Ultraviolet Coupled System -- 1 Introduction -- 2 The Problem of Residual Dyes and Salts -- 3 Methods for Colour Removal of Textile Effluents -- 4 Advantages of Coupled Electrochemical-Ultraviolet Treatment -- 5 Description of the EC-UV System -- 6 Industrial Implementation of the EC-UV System -- 7 Results of EC-UV Treatment -- 7.1 Selection of the Current Density -- 7.2 Results of Wastewater Colour Removal -- 7.3 Results of Dyeing with Reused Salts and Water -- 8 Environmental Impact of EC-UV Treatment -- 8.1 Environmental Impact on the Wastewater Treatment Plant -- 8.2 Environmental Impact on the Dyeing Process -- 9 Conclusions -- References -- Application of Sustainable and Low-Cost Sludge-Based Adsorbents for Textile Dye Degradation -- 1 Introduction -- 1.1 General -- 1.2 Indian Tannery Sector -- 1.3 Tannery Solid Waste -- 1.4 Development of Indian Textile Industries -- 2 Adsorption -- 2.1 Adsorption Mechanism -- 2.2 Types of Adsorption -- 2.3 Adsorption Isotherms -- 2.4 Adsorption Chemical Kinetics Modelling -- 2.5 Adsorbent Precursors -- 2.6 Commercial Activated Carbon -- 3 Preparation of Adsorbents and Activation Methods -- 3.1 Activation Methods -- 3.2 Factors Affecting Activation of Adsorbent Preparation -- 4 Development of Tannery Sludge-Activated Carbon -- 4.1 Characterization of Tannery Sludge -- 4.2 |
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Tannery Sludge Carbon -- 4.3 Comparison of Commercial Activated Carbon and Tannery Sludge Carbon -- 5 Adsorption of Reactive Dyes onto Tannery Sludge-Activated Carbons: Equilibrium Kinetic Studies -- 5.1 Reactive Dyes -- 5.2 Adsorption Studies by Batch Mode -- 5.3 Equilibrium Adsorption Isotherms -- 5.4 Adsorption Kinetics -- 6 Summary -- Appendix -- References. |
Sustainable Approach on the Treatment of Textile Wastewater Using Membrane Techniques -- 1 Introduction -- 2 Membrane Separation Process -- 3 Microfiltration -- 4 Ultrafiltration -- 5 Nanofiltration -- 6 Reverse Osmosis -- 7 Electro Dialysis -- 8 Membrane Fouling -- 9 Application of Membrane for the Removal of Dye -- 10 Case Study -- 11 Conclusion -- 12 Future Scope -- References -- Dyestuff Adsorbing Natural Composites for Wastewater Treatments -- 1 Introduction -- 2 Wastewater Refining -- 2.1 Physical Refining Methods -- 2.2 Oxidative Refining Methods -- 2.3 Biological Refining Methods -- 3 Adsorbent Materials -- 3.1 Properties -- 3.2 Working Mechanism -- 3.3 Advantages and Disadvantages -- 4 Adsorbent Composite Production -- 5 Raw Materials for Natural Adsorbents -- 5.1 Clay -- 5.2 Cellulose and Its Derivatives -- 5.3 Chitosan and Its Derivatives -- 5.4 Activated Biochars and Alternative Biomaterials -- 5.5 Other Polymers -- 5.6 Comparison of All Adsorbent Materials -- 6 An Alternative Composite Structure Study -- 7 Conclusion -- References -- Treatment of Textile Waste Water Using Low-Cost and Innovative Materials -- 1 Introduction -- 2 Nature of Textile Waste Water -- 3 Classification of Textile Waste Water Treatment Methods -- 4 Low-Cost Materials for Textile Waste Water Treatment -- 5 Innovative Materials for Textile Waste Water Treatment -- 6 Conclusion -- References -- Photo-Catalytic-Assisted Method for Treating Industrial Dye House Effluents -- 1 Introduction -- 2 Technologies Available for Treating Dye House Effluents -- 2.1 Titanium-Di-oxide as Photo-Catalyst -- 2.2 Modification of Titanium-Di-oxide Photo-Catalysts Using Graphene -- 3 Materials and Methods -- 3.1 Work Flow Diagram -- 3.2 Materials -- 4 Results and Discussion -- 4.1 Sample Preparation -- 4.2 Characterization of RGOT Catalyst -- 4.3 Photocatalytic Activity Test. |
4.4 Process Conditions for Different Reactions Using TiO2 and RGoT Catalyst -- 4.5 Effluent Characteristics of Treated Sample -- 4.6 Decolorisation Efficiency -- 5 Conclusion -- References -- Advanced Oxidation Processes (AOP)-Effective Innovative Treatment Methods to Degrade Textile Dye Effluent -- 1 Introduction -- 2 Advanced Oxidation Processes -- 2.1 Types of Advanced Oxidation Process -- 3 Chemical AOPs -- 3.1 Ozonation -- 3.2 UV AOPs -- 3.3 Electrochemical Oxidation Process -- 3.4 Hydrogen Peroxide -- 3.5 Fenton Reagent -- 3.6 Photocatalytic Reaction -- 4 Physical AOPs -- 4.1 Electrohydraulic Discharge (Plasma) -- 4.2 Ultrasound -- 4.3 Microwave -- 4.4 Electron Beam -- 5 Conclusion -- Appendix: Application of Sustainable and Low-Cost Sludge-Based Adsorbents for Textile Dye Degradation -- References -- Treatment of Textile Wastewater Using Biochar Produced from Agricultural Waste -- 1 Introduction -- 1.1 Various Methodologies Available for Wastewater Treatment -- 1.2 What Is Biochar? -- 1.3 Properties of Biochar -- 1.4 Benefits of Biochar -- 1.5 Biochar Preparation -- 1.6 Effluent Treatment by Utilizing Biochar as Adsorbent -- 1.7 Pros of Biochar -- 1.8 Cons of Biochar -- 1.9 Challenges of Biochar -- 2 Case Study -- 2.1 Future Scope -- 2.2 Conclusion -- References. |
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