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دانلود کتاب Photoreactors in Advanced Oxidation Process: The Future of Wastewater Treatment
دانلود کتاب فوتو راکتورها در فرآیند اکسیداسیون پیشرفته: آینده تصفیه فاضلاب
مشخصات کتاب
Photoreactors in Advanced Oxidation Process: The Future of Wastewater Treatment
ویرایش: نویسندگان: Elvis Fosso-Kankeu, Sadanand Pandey, Suprakas Sinha Ray سری: ISBN (شابک) : 139416629X, 9781394166299 ناشر: Wiley-Scrivener سال نشر: 2023 تعداد صفحات: 360 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 23 مگابایت
قیمت کتاب (تومان) : 87,000
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توجه داشته باشید کتاب فوتو راکتورها در فرآیند اکسیداسیون پیشرفته: آینده تصفیه فاضلاب نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
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فهرست مطالب
Cover Title Page Copyright Page Contents Preface Part 1: Advances in Photocatalysts Synthesis Chapter 1 Advancement and New Challenges in Heterogeneous Photocatalysts for Industrial Wastewater Treatment in the 21st Century 1.1 Introduction 1.2 Development of Heterogeneous Photocatalysts 1.3 Mechanism of Action of Heterogeneous Photocatalysis 1.4 Recent Advances in Heterogeneous Photocatalyst 1.5 Heterostructure Photocatalysts for the Degradation of Organic Pollutants 1.6 Photoreactors 1.7 Photoreactors for the Degradation of Volatile Organic Compounds 1.7.1 Annular Reactors 1.7.2 Plate Reactor 1.7.3 Packed Bed Reactors 1.7.4 Honeycomb Monolith Reactors 1.7.5 Fluidized Bed Reactors 1.7.6 Batch Reactors 1.7.7 Parabolic Trough Photoreactors 1.7.8 Inclined Flat Photoreactors 1.7.9 Gas Phase Photoreactors 1.8 Advantages and Disadvantages of Heterogeneous Photocatalysis 1.9 Conclusion Acknowledgment References Chapter 2 Role of Heterogeneous Catalysts for Advanced Oxidation Process in Wastewater Treatment Abbreviations 2.1 Introduction 2.1.1 Advanced Oxidation Processes (AOPs) 2.1.2 AOPs Classification 2.1.2.1 Catalytic Oxidation 2.1.2.2 Heterogeneous Catalytic Oxidation 2.2 Effect of Pollutant 2.3 Type of Catalysts 2.3.1 Metal Organic Frameworks 2.3.1.1 Hydro (Solvo) Thermal Technique 2.3.2 Metal Oxides 2.3.2.1 Coprecipitation Method 2.3.2.2 Hydrothermal Synthesis 2.3.2.3 Sol-Gel Process 2.3.2.4 Bioreduction Method 2.3.2.5 Solvent System-Based Green Synthesis 2.3.3 Perovskites 2.3.3.1 Ultrasound-Assisted Synthesis of Perovskites 2.3.3.2 Microwave-Assisted Synthesis of Perovskites 2.3.3.3 Mechanosynthesis of Perovskites 2.3.4 Layered Double Hydroxides 2.3.4.1 Coprecipitation by the Addition of Base 2.3.5 Graphene 2.3.5.1 Electrochemical (EC) Processes 2.3.5.2 Water Electrolytic Oxidation 2.4 Some Recent Heterogeneous Catalysts for Advanced Oxidation Process 2.5 Conclusions and Future Prospect Acknowledgement References Chapter 3 Green Synthesis of Photocatalysts and its Applications in Wastewater Treatment 3.1 Introduction 3.2 Photocatalysts and Green Chemistry 3.2.1 Nanophotocatalysts (NPCs) 3.2.2 Plant-Mediated Green Synthesis of NPCs 3.2.3 Biopolymer-Mediated Synthesis of NPCs 3.2.3.1 Alginic Acid 3.2.3.2 Carrageenan 3.2.3.3 Chitin and Chitosan 3.2.3.4 Guar Gum 3.2.3.5 Cellulose 3.2.3.6 Xanthan Gum 3.2.4 Green Synthesis of NPCs Using Bacteria, Algae, and Fungus 3.2.5 Characterization of NPCs Using Various Analytical Techniques 3.2.5.1 UV-Visible Spectroscopy 3.2.5.2 XRD 3.2.5.3 SEM, HR-TEM, EDX, and AFM 3.2.5.4 Fourier Transform Infrared Spectroscopy 3.2.5.5 Dynamic Light Scattering 3.2.5.6 Brunauer-Emmett-Teller (BET) 3.2.5.7 Barrett-Joyner-Halenda 3.2.6 Application of Green Synthesized NPCs in Wastewater Treatment 3.3 Limitations and Future Aspects 3.4 Conclusion References Chapter 4 Green Synthesis of Metal Ferrite Nanoparticles for the Photocatalytic Degradation of Dyes in Wastewater Abbreviations 4.1 Introduction 4.2 Metal Ferrite Nanoparticles 4.3 General Synthesis Methods of Metal Ferrites and Their Limitations 4.4 Biological Synthesis of Metal Ferrite Nanostructures 4.4.1 Synthesis of Metal Ferrite Nanostructures Using Bacteria 4.4.2 Synthesis of Metal Ferrites Nanostructures Using Fungi 4.4.3 Synthesis of Metal Ferrites Nanostructures Using Plant Extracts 4.5 Plant-Derived Metal Ferrites as Photocatalysts for Dye Degradation 4.5.1 Effect of Depositing Noble and Transition Metal on Metal Ferrites for Photodegradation 4.5.2 Effect of Carbon Deposited on Metal Ferrites for Photocatalytic Degradation 4.5.3 Effect of Coupling Metal Oxide Semiconductors with Metal Ferrites for Photocatalytic Degradation 4.5.4 Biological Applications of Plant-Derived Metal Ferrites 4.6 Challenges of these Materials and Photocatalysis 4.7 Conclusion: Future Perspectives References Part 2: Advanced Oxidation Processes Chapter 5 Selected Advanced Oxidation Processes for Wastewater Remediation 5.1 Introduction 5.2 Photocatalysis and Ozonation 5.2.1 Photocatalysis 5.2.2 Ozonation 5.3 Hybrid AOP Technologies 5.3.1 Hydrodynamic Cavitation 5.3.2 Hybrid AOP Systems Based on Hydrodynamic Cavitation 5.3.3 Hybrid AOP Systems Based on Ultrasound Radiation 5.3.3.1 Sonoelectrochemical Oxidation 5.3.3.2 Sonophotocatalytic Degradation 5.4 Membrane-Based AOPs 5.5 Conclusion and Future Perspectives References Chapter 6 Advanced Oxidation Processes-Mediated Removal of Aqueous Ammonia Nitrogen in Wastewater Abbreviations 6.1 Introduction 6.2 Basic Chemistry and Occurrence of Ammonia Nitrogen 6.2.1 Basic Chemistry of Ammonia Nitrogen 6.2.2 Sources of Ammonia Nitrogen 6.2.3 Effects of Ammonia Nitrogen on Aquaculture Species 6.3 Photocatalytic Technique for Removal of Aqueous Ammonia Nitrogen From Wastewater 6.3.1 TiO2/TiO2-Based Photocatalyst 6.3.2 Modified TiO2 Photocatalyst 6.4 Ozonation Technique for Removal of Aqueous Ammonia Nitrogen From Wastewater 6.4.1 Noncatalytic Ozonation of Ammonia Nitrogen 6.4.2 Catalytic Ozonation of Ammonia Nitrogen 6.5 Conclusion and Future Prospects Acknowledgments References Part 3: Design and Modelling of Photoreactors Chapter 7 Recent Advances in Photoreactors for Water Treatment 7.1 Introduction 7.2 Photocatalysis Fundamentals and Mechanism 7.3 Configuration of Photoreactor 7.3.1 Source of Light Irradiation 7.3.2 Geometry of Photoreactor 7.3.3 Light Source Placement and Distribution 7.3.4 Photoreactor Materials 7.4 Types of Photoreactors 7.4.1 Slurry Photoreactors 7.4.2 Photocatalytic Membrane Photoreactors 7.4.3 Rotating Drum Photoreactors 7.4.4 Microphotoreactors 7.4.5 Annular Photoreactor (APR) 7.4.6 Closed-Loop Step Photoreactors 7.5 Photocatalytic Water Purification Using Photoreactors 7.6 Challenges for Effective Photoreactors 7.7 Conclusion References Chapter 8 Design of Photoreactors for Effective Dye Degradation Abbreviations 8.1 Introduction 8.1.1 Mechanisms and Theory of AOP 8.1.2 Design of Photoreactors 8.1.2.1 Source of Irradiation 8.1.2.2 Wavelength/Lamp Selection 8.1.3 Placement of Light Source and Light Distribution 8.2 Different Photoreactors Are Used for Wastewater Treatment 8.2.1 Some Typical Photoreactors Used for Wastewater Treatment Are Described Below 8.2.2 Homogenous and Heterogenous Systems 8.2.3 Heterogenous Photocatalyst Arrangement 8.2.4 Amount of Photocatalyst 8.3 Photoreactors Designed to Work Under Visible-Light Irradiation Toward Wastewater Treatment 8.3.1 Limitations of the Currently Employed Photoreactors and Future Scope 8.4 Current and Future Developments References Chapter 9 Simulation of Photocatalytic Reactors Abbreviations 9.1 Introduction 9.2 Modeling of Light Distribution 9.2.1 Light Distribution 9.2.2 Light Distribution Methods 9.2.3 Simulation Parameters 9.2.4 Influence of Bubbles on Light Distribution 9.2.5 Validation of Light Distribution Models 9.3 Photocatalysis Kinetics 9.4 Conclusion References Chapter 10 The Development of Self-Powered Nanoelectrocatalytic Reactor for Simultaneous Piezo-Catalytic Degradation of Bacteria and Organic Dyes in Wastewater Abbreviations 10.1 Introduction 10.2 Degradation Techniques 10.2.1 Electrochemical Advanced Oxidation Processes (EAOPs) 10.3 Characteristics and Properties of Piezoelectric Materials 10.3.1 Natural Piezoelectric Materials 10.3.2 Synthetic Piezoelectric Materials 10.4 Synthesis of Piezoelectric Materials 10.4.1 Electrospinning Technique 10.4.2 Template Synthesis 10.4.3 Mixed Metal Oxide (MMO)/Solid State Synthesis 10.4.4 Hydrothermal/Solvothermal Method 10.4.5 Sol-Gel Method 10.5 Challenges of Piezoelectric Nanomaterials/Nanogenerators 10.6 Application of Piezoelectric Materials for Piezo-Electrocatalytic Degradation of Dyes and Bacteria in Wastewater 10.6.1 Piezo-Electrocatalytic Degradation of Organic Dyes and Bacteria in Wastewater 10.7 Conclusion and Future Perspectives Acknowledgments References Index EULA
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