Synthesis Methods, Characterization and Performance Analysis, and Applications in Water and Wastewater Treatment Herausgeber: Othman, Mohd Hafiz Dzarfan; Mohd Makhtar, Siti Nurfatin Nadhirah; Adam, Mohd Ridhwan; Matsuura, Takeshi; Rahman, Mukhlis A
Synthesis Methods, Characterization and Performance Analysis, and Applications in Water and Wastewater Treatment Herausgeber: Othman, Mohd Hafiz Dzarfan; Mohd Makhtar, Siti Nurfatin Nadhirah; Adam, Mohd Ridhwan; Matsuura, Takeshi; Rahman, Mukhlis A
Advanced Ceramics for Photocatalytic Membranes: Synthesis Methods, Characterization and Performance Analysis, and Applications in Water and Wastewater Treatment reviews recent research on the application and use of advanced ceramic materials in photocatalytic membrane processes. Sections cover current developments in photocatalytic membrane processes, synthesis and fabrication techniques using either physical or chemical approaches, diverse characterization methods and performance evaluations, and various types of environmental applications. The book is not only limited to the conceptual…mehr
Advanced Ceramics for Photocatalytic Membranes: Synthesis Methods, Characterization and Performance Analysis, and Applications in Water and Wastewater Treatment reviews recent research on the application and use of advanced ceramic materials in photocatalytic membrane processes. Sections cover current developments in photocatalytic membrane processes, synthesis and fabrication techniques using either physical or chemical approaches, diverse characterization methods and performance evaluations, and various types of environmental applications. The book is not only limited to the conceptual theory, it also gives a detailed review of recent progress in materials science. Readers will find applications in different disciplines, i.e., chemistry, physics, and mechanics that are critically required in modern science and engineering. This across-the-board briefing on the field is suitable for use as a major reference, as well as a knowledge sharing tool.
1. Current developments in photocatalytic membranes 2. Modelling, simulation, and the theory of mass transfer mechanisms in photocatalytic membranes PART ONE: SYNTHESIS AND FABRICATION OF PHOTOCATALYTIC MEMBRANES VIA PHYSICAL APPROACHES 3. The blending technique for fabrication of photocatalytic membranes 4. The sputtering technique in fabrication of photocatalytic membranes 5. The dip-coating technique in fabrication of photocatalytic membranes 6. The spray-coating technique for fabricating photocatalytic membranes PART TWO: SYNTHESIS AND FABRICATION OF PHOTOCATALYTIC MEMBRANES VIA CHEMICAL APPROACHES 7. The grafting process and its use in the fabrication of photocatalytic membranes 8. The hydrothermal and solvothermal process and its effect on photocatalytic activity 9. The electroless plating process in fabrication of photocatalytic membranes PART THREE: CHARACTERIZATION AND PERFORMANCE ANALYSIS OF PHOTOCATALYTIC MEMBRANES 10. Morphological analysis of photocatalytic membranes 11. Physical analysis of photocatalytic membranes 12. Chemical analysis of photocatalytic membranes (FTIR, XRD, UV-Vis/Optical, XPS, zeta potential) 13. Permeation performance analysis of photocatalytic membranes 14. Photodegradation performance of photocatalytic membranes (Type of light [UV light, visible light], effect of light intensity, effect of pH, effect of photocatalyst dosage) PART FOUR: APPLICATIONS OF PHOTOCATALYTIC MEMBRANES 15. Photocatalytic membranes for the efficient removal of dyes in wastewater treatment 16. Photocatalytic membranes for oily wastewater treatment 17. Photocatalytic membranes for removal of endocrine disrupting compounds (EDCs) in wastewater treatment 18. Antifouling and self-cleaning photocatalytic membranes in wastewater treatment 19. System scale-up from the laboratory to the pilot scale system 20. Economic viability and cost analysis for photocatalytic membranes
1. Current developments in photocatalytic membranes 2. Modelling, simulation, and the theory of mass transfer mechanisms in photocatalytic membranes PART ONE: SYNTHESIS AND FABRICATION OF PHOTOCATALYTIC MEMBRANES VIA PHYSICAL APPROACHES 3. The blending technique for fabrication of photocatalytic membranes 4. The sputtering technique in fabrication of photocatalytic membranes 5. The dip-coating technique in fabrication of photocatalytic membranes 6. The spray-coating technique for fabricating photocatalytic membranes PART TWO: SYNTHESIS AND FABRICATION OF PHOTOCATALYTIC MEMBRANES VIA CHEMICAL APPROACHES 7. The grafting process and its use in the fabrication of photocatalytic membranes 8. The hydrothermal and solvothermal process and its effect on photocatalytic activity 9. The electroless plating process in fabrication of photocatalytic membranes PART THREE: CHARACTERIZATION AND PERFORMANCE ANALYSIS OF PHOTOCATALYTIC MEMBRANES 10. Morphological analysis of photocatalytic membranes 11. Physical analysis of photocatalytic membranes 12. Chemical analysis of photocatalytic membranes (FTIR, XRD, UV-Vis/Optical, XPS, zeta potential) 13. Permeation performance analysis of photocatalytic membranes 14. Photodegradation performance of photocatalytic membranes (Type of light [UV light, visible light], effect of light intensity, effect of pH, effect of photocatalyst dosage) PART FOUR: APPLICATIONS OF PHOTOCATALYTIC MEMBRANES 15. Photocatalytic membranes for the efficient removal of dyes in wastewater treatment 16. Photocatalytic membranes for oily wastewater treatment 17. Photocatalytic membranes for removal of endocrine disrupting compounds (EDCs) in wastewater treatment 18. Antifouling and self-cleaning photocatalytic membranes in wastewater treatment 19. System scale-up from the laboratory to the pilot scale system 20. Economic viability and cost analysis for photocatalytic membranes
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