Polymer technology in dye-containing wastewater . Volume 1 / / edited by Ali Khadir and Subramanian Senthilkannan Muthu
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| Titolo: |
Polymer technology in dye-containing wastewater . Volume 1 / / edited by Ali Khadir and Subramanian Senthilkannan Muthu
|
| Pubblicazione: | Singapore : , : Springer, , [2022] |
| ©2022 | |
| Descrizione fisica: | 1 online resource (257 pages) |
| Disciplina: | 628.16837 |
| Soggetto topico: | Sewage - Purification |
| Dyes and dyeing - Equipment and supplies | |
| Persona (resp. second.): | KhadirAli |
| MuthuSubramanian Senthilkannan | |
| Nota di contenuto: | Intro -- Contents -- About the Editors -- Polymer Technology Coupling with Physical, Chemical, and Biological Methods in Textile Wastewater -- 1 Introduction -- 2 Treatment Processes for Textile Wastewater -- 3 Combined Polymer Technologies with Other Methods -- 3.1 Polymer Membrane Technology Coupled with Biological, Chemical, and Physical Methods -- 3.2 Membrane Bioreactor (MBR) Treatment Technology -- 3.3 Photocatalyst Membrane Reactor (PMR) Technology -- 3.4 Mixed Adsorbents Fixed Bed Reactor Technology -- 3.5 Blended Coagulation/flocculation Treatment Technology -- 4 Conclusion -- References -- Evaluation of Fe-Mn-Zr Trimetal Oxide/Polyaniline Nanocomposite as Potential Adsorbent for Abatement of Toxic Dye from Aqueous Solution -- 1 Introduction -- 2 Materials and Methods -- 2.1 Chemicals and Reagents -- 2.2 Synthesis of Fe-Mn-Zr Trimetal Oxide Nanoparticles -- 2.3 Synthesis of Fe-Mn-Zr Trimetal Oxide/PANI Nanocomposite -- 2.4 Ultrasound-Assisted Adsorption of CR Dye -- 2.5 Statistical Modelling by Response Surface Methodology (RSM) -- 3 Results and Discussions -- 3.1 Characterization of Fe-Mn-Zr Trimetal Oxide/PANI Nanocomposite -- 3.2 Effect of Solution pH and Initial Dye Concentration on CR Dye Adsorption Efficiency -- 3.3 Effect of Dose of Adsorbent and Sonication Time on Dye Adsorption Efficiency -- 3.4 Sono-Assisted Kinetic Analysis of Adsorption of CR Dye onto Fe-Mn-Zr/PANI -- 3.5 Isotherm Study of Sono-Assisted Adsorption of CR Dye Onto Fe-Mn-Zr/PANI -- 3.6 Intra-Molecular Interaction Between CR Dye and Fe-Mn-Zr/PANI -- 3.7 Statistical Analysis of Central Composite Design (CCD) and 2D/3D Response Plots -- 3.8 Performance Evaluation Study of Fe-Mn-Zr/PANI Adsorbent -- 4 Conclusions -- References -- Silica-Polymer Composite for Dyes Removal -- 1 Introduction -- 2 Polymer-Silica Composite. |
| 3 Preparation Ways of Polymer-Silica Composite -- 3.1 Impregnation -- 3.2 In-Situ Polymerization -- 3.3 Functionalization -- 3.4 Encapsulation -- 4 Characterizations -- 4.1 XRD -- 4.2 FTIR -- 4.3 SEM -- 4.4 TEM -- 4.5 TGA -- 5 Adsorption -- 5.1 Mechanism of Adsorption of Organic and Inorganic Pollutants -- 6 Polymer-Silica Composite in Catalysis Field -- 7 Conclusion and Future Perspectives -- References -- Polymer-Based Photocatalysis for Remediation of Wastewater Contaminated with Organic Dyes -- 1 Introduction -- 2 Conventional Inorganic Photocatalysts -- 3 Polymer-Supported Inorganic Photocatalysts -- 3.1 Immobilized Inorganic Photocatalysts on the Surfaces of Photo-Inactive Polymer Substrates -- 3.2 Inorganic Photocatalysts Embedded Within the Photo-Inactive Polymer Substrates -- 4 Organic Polymers-Based Photocatalysts -- 4.1 Conjugated Polymers (CPs) -- 4.2 Conducting Polymers (CNPs) -- 4.3 Porous Organic Polymers (POPs) -- 4.4 Coordination Polymers (COPs) -- 5 Inorganic Photocatalyst/Photoactive Polymer Hybrids -- 5.1 TiO2/Photoactive Polymer Hybrids -- 5.2 ZnO/Photoactive Polymer Hybrids -- 6 Characterization of Polymer-Based Photocatalysts -- 7 Advantages of the Polymer-Based Photocatalysis (Gained Criteria) -- 7.1 Preservation of the Photoactive Materials -- 7.2 Flexibility of Designs -- 7.3 Improved Optical and Electronic Properties -- 7.4 Economic Features -- 8 Photocatalytic Activity Evaluation -- 9 Conclusion, Future Perspectives and Recommendations -- 9.1 Optimal Construction of Photocatalysts -- 9.2 Scalability Studies -- 9.3 Photocatalytic Activity Evaluation -- 9.4 Stability of the Polymeric Photocatalyst -- 9.5 Sustainable Development -- References -- Application of Hybrid Polymeric Materials as Photocatalyst in Textile Wastewater -- 1 Introduction -- 2 Fabrication and Modification of Hybrid Polymer Photocatalyst. | |
| 2.1 Immobilization of Nanoparticles onto Polymeric Materials -- 2.2 Grafting Method -- 2.3 Electrospinning Method -- 2.4 Entrapping Method -- 2.5 Dip-coating Method -- 2.6 Photosensitizer-Induced Polymerization -- 2.7 In-situ Polymerization of Conductive Polymer -- 2.8 Metal-Incorporated Polymeric Materials as Photocatalyst -- 3 Nonmetal-Incorporated Polymeric Materials as Photocatalyst -- 4 Metal Oxide-Incorporated Polymeric Materials as Photocatalyst -- 5 Metal Sulfide-Incorporated Polymeric Materials as Photocatalyst -- 6 Conclusion -- References -- Synthesis of Pillared Clay Adsorbents and Their Applications in Treatment of Dye Containing Wastewater -- 1 Introduction -- 2 Fundamentals of Clay and Pillared Clay -- 2.1 Clay and Clay Minerals -- 2.2 Problems Associated with Raw Clay and Solution Through Pillaring -- 2.3 Process of Pillaring -- 2.4 Types of Pillaring Agents and Their Applications -- 3 Applications of Metal Pillared Clays for Treating Dye-Containing Wastewater -- 3.1 Application of Al Pillared Clays for Adsorption of Dyes from Textile Wastewater -- 3.2 Application of Pillared Clays from Metals Other Than Aluminum for Adsorption of Dyes -- 3.3 Major Factors Determining the Performance of Pillared Clays -- 4 Typical Results from the In-House Characterization of Pillared Clays -- 5 Enhanced Performance of Pillared Adsorbents for Treating Dye Using Pillared Clays -- 6 Conclusions -- References -- Versatile Fabrication and Use of Polyurethane in Textile Wastewater Dye Removal via Adsorption and Degradation -- 1 Introduction -- 2 Early Discovery and Development of Polyurethane -- 3 Green Approaches in Polyurethane Synthesis -- 4 Application in Textile Wastewater -- 5 Removal Mechanism -- 6 Insights for Practical Application -- 7 Conclusions -- References -- Application of Polymer/Carbon Nanocomposite for Organic Wastewater Treatment. | |
| 1 Introduction -- 2 Carbon Nanocomposite Materials -- 2.1 Category of Carbon Nanomaterials -- 2.2 Physiochemical Properties of Carbon Nanocomposites -- 3 Polymeric Nanocomposites -- 4 Polymer/carbon Nanocomposites (PCNCs) -- 4.1 Polymer-Carbon Nanotube Nanocomposites -- 4.2 Graphene-Polymer Nanocomposite -- 4.3 Polymer/graphite Composite -- 4.4 Carbon-Polymer Nanofibers Nanocomposite -- 4.5 Polymer/Graphene Oxide (GO) Nanocomposite -- 5 Mechanisms of Adsorption -- 6 Future Perspectives -- 7 Conclusion -- References -- "Environmental Issues Concerned with Poly (Vinyl Alcohol) (PVA) in Textile Wastewater" -- 1 Introduction -- 2 Application of PVA -- 3 Degradation of PVA -- 4 Environmental Effect of PVA -- 4.1 Effect of PVA-Containing Wastewater on Aquatic Life -- 4.2 Effect of Containing PVA Wastewater on Agricultural Production -- 4.3 Effect of PVA-Containing Wastewater on Human Health -- 5 PVA Alternatives -- 6 Conclusion -- References -- Nanoparticles Functionalized Electrospun Polymer Nanofibers: Synthesis and Adsorptive Removal of Textile Dyes -- 1 Introduction -- 2 Fabrication of EPNFS -- 2.1 Modification of EPNFS -- 2.2 Blending with Other Polymers -- 2.3 Incorporation of Nanomaterials -- 2.4 Incorporation of Functional Groups -- 3 Application of Nanoparticles Functionalized EPNFS for Removal of Textile Dyes -- 3.1 Silica/EPNFS Nanocomposites -- 3.2 EPNFs/Metal Oxides Nanocomposites -- 3.3 EPNFs/MOFs Nanocomposites -- 4 Conclusions and Future Perspectives -- References. | |
| Titolo autorizzato: | Polymer technology in dye-containing wastewater |
| ISBN: | 981-19-1516-4 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910564693303321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Sustainable Textiles: Production, Processing, Manufacturing and Chemistry.