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Advances in Dye Degradation. Volume 1 / edited by Paulpandian Muthu Mareeswaran and Jegathalaprathaban Rajesh.
- Format:
- Book
- Author/Creator:
- Mareeswaran, Paulpandian Muthu, Author.
- Series:
- Advances in Dye Degradation Series
- Advances in Dye Degradation Series ; Volume 1
- Language:
- English
- Subjects (All):
- Dyes and dyeing.
- Physical Description:
- 1 online resource (207 pages)
- Edition:
- First edition.
- Place of Publication:
- Singapore : Bentham Science Publishers Pte. Ltd., 2023.
- Summary:
- This series provides information on the nature of dyes, their harmful effects, and dye degrading techniques. The first volume of this series presents a fundamental concept of dye degradation. The information on target-oriented dye mitigation is intended to give readers a better understanding of the dye degradation process to sustain a healthy environment. Chapters present referenced information and highlight novel breakthroughs in the industry. Key topics: Foundations of Dye Knowledge:Evaluating ToxicityNanotechnologyElectrochemistryCatalytic Materials and PhotocatalysisMicrobial BiodegradationThis book serves as a foundational resource for researchers and students in chemistry and chemical engineering courses. It also serves as a reference for industry professionals who work with chemical dyes (for example in textile and plastic industries) and are engaged in the critical field of environmental remediation. Readership Scholars in chemistry and chemical engineering; professionals in manufacturing industries and environmental sustainability. Series Intro This series provides information on the nature of dyes, their harmful effects, and dye degrading techniques. Each volume will bring a collection of edited topics on dye degradation. The goal of the series is to provide readers with detailed knowledge about dye degradation. The editors also aim to give a broad perspective on the role of dye remediation technologies in creating a sustainable environment.
- Contents:
- Cover
- Title
- Copyright
- End User License Agreement
- Contents
- Foreword
- Preface
- List of Contributors
- Dye Degradation - Basics and Necessity
- Kiruthiga Kandasamy1, Sheeba Daniel2, Poovan Shanmugavelan3 and Paulpandian Muthu Mareeswaran4,*
- INTRODUCTION
- NATURAL DYES
- ADVANTAGES OF NATURAL DYES
- LIMITATIONS OF NATURAL DYES
- Cost
- Colour
- Availability
- Harmful Effects
- Sustainability
- SYNTHETIC DYES
- CLASSIFICATION OF DYES BASED ON APPLICATION
- Direct Dyes
- Reactive Dyes
- Basic Dyes
- Acid Dyes
- Mordant or Chrome Dyes
- Disperse Dyes
- Vat Dyes
- Sulphur Dyes
- Azoic Dyes
- ADVANTAGES OF SYNTHETIC DYES
- TOXIC EFFECT OF SYNTHETIC DYES
- DYE DEGRADATION TECHNIQUES
- PHYSICAL PROCESSES
- Adsorption
- Filtration
- Ion Exchange
- CHEMICAL PROCESSES
- Advanced Oxidation
- Photolysis
- Photocatalysis
- Sonolysis
- Electrochemical Dye Degradation Process
- Fenton Process
- Ozonolysis
- BIOLOGICAL PROCESSES
- Biosorption
- Bioaccumulation and Bioremediation
- Mineralization and Alleviation
- CONCLUSION
- REFERENCES
- Toxicity Analysis of Dyes
- Arumugam Girija1,* and Paulpandian Muthu Mareeswaran2
- TOXICITY
- Toxic Effects
- Toxicological Field Studies
- Priorities in the Selection of Toxic Chemicals for Testing
- The Extent of the Toxicity Requirement
- Toxicity Assessment
- DOSE
- Toxicological Dose Descriptors
- LD50 (Lethal Dose 50%)
- LC50 (Lethal Concentration 50%)
- No Observed Adverse Effect Level (NOAEL)
- Lowest Observed Adverse Effect Level (LOAEL)
- T25 and BMD10
- Median Effective Concentration (EC50)
- No Observed Effect Concentration (NOEC)
- DT50
- Effect and Response
- Dose Effect and Dose-Response Curves
- Toxic Effects Due to Combination of Dyes
- Acute, Sub-acute, Sub-chronic and Chronic Toxic Assessment.
- Acute toxicity assessment
- Experimental Design
- Selection of Species
- Selection of Doses
- Method of Administration
- Sub-acute Toxicity
- Sub-chronic Toxicity
- Chronic Toxicity Assessment
- Assessment of Non-carcinogenic Toxicity
- Selection of Species and Duration of Studies
- Human Sensitivity and Variability
- Assessment of Carcinogenic Toxicity
- Methodology
- MATHEMATICAL MODELS
- Types of Models
- Threshold Model
- Non-Threshold Model
- TOXICITY EVALUATION OF EFFLUENTS FROM THE DYE INDUSTRY USING DAPHNIA MAGNA
- Utility of Nanotechnology in Dye Degradation
- Seemesh Bhaskar1,2 and Sai Sathish Ramamurthy1,*
- METHODOLOGY
- Synthesis of f-HEG and Au-LCG
- Characterization
- Catalytic Dye Reduction Test
- RESULTS AND DISCUSSION
- Electron Microscopy, EDAX, XRD, Raman, Zeta Potential Studies and UV-Vis Spectroscopy of f-HEG and Au-LCG
- Analysis of Catalytic Activity of Au-LCG in Dye Reductions
- MSNAs for Dye Degradation Application
- CONCLUDING REMARKS
- ACKNOWLEDGEMENTS
- Treatment of Textile Dye Effluent by Electrochemical Method
- Venkatesan Sethuraman1, Karuppannan Aravindh2, Perumalsamy Ramasamy2, Bosco Christin Maria Arputham Ashwin3 and Paulpandian Muthu Mareeswaran4,*
- Electrocoagulation
- Electrochemical Reduction
- Metal Anodes
- Graphite Anode
- Boron-doped Diamond Electrodes
- Dimensionally Stable Anode (DSA)-type Electrodes
- Anode Materials for Specific Dye
- Effect of Electrode Materials in Decolorization of Dyestuffs from Wastewater
- R. Jagatheesan1,*, C. Christopher2 and K. Govindan3
- Oxidation Mechanisms
- Oxidation Involving Intermediates of Oxygen Evolution
- Reactive - Azo Dyes
- Reactive Orange - RO16.
- Reactive Orange 16, Reactive Violet 4, Reactive Red 228, and Reactive Black 5
- Reactive Yellow 135
- Sunset Yellow-SY
- Alizarin Red S
- Orange G
- Acid-azo Dye
- Acid Brown 14
- Acid Orange 10
- Acid Red 1
- Acid Red 18
- Acid Blue 113
- Methylene Blue and Methyl Blue
- Methyl Orange
- Turquoise Blue GB
- Remazol Brilliant Blue R
- Novacron Yellow (NY) and Remazol Red (RR)
- Eosin Y and Rose Bengal
- Rhodamine B
- Auramine-O
- Allura Red AC
- Direct Red 81
- Congo Red
- Amido Black 10B (AB)
- Effect of Microbial Fuel Cell (MFC) on Dye Degradation
- Electrode Materials-effect of Metal Oxide Electrodes in the Degradation Process
- RuO2
- TiO2
- Boron-Doped Diamond (BDD)
- Platinum
- Titanium-tantalum-platinum-iridium
- Z-scheme: A Photocatalysis for the Remediation of Environmental Pollutants
- Suresh Kumar Pandey1 and Dhanesh Tiwary1,*
- DEVELOPMENTS OF DIFFERENT TYPES OF Z-SCHEME PHOTOCATALYTIC SYSTEMS
- Indirect Z-scheme Photocatalytic Systems
- Conventional Liquid-Phase Z-Scheme Systems (1st Generation Z-scheme Photocatalysts)
- All Solid-State Z-scheme System (ASS-2nd Generation Z-scheme Photocatalysts)
- Direct Z-scheme System (3rd Generation Z-scheme Photocatalysts)
- Z-SCHEME PHOTOCATALYSTS FOR THE REMOVAL OF POLLUTANTS
- Oxidative Removal of the Pollutant
- ACKNOWLEDGEMENT
- A Review of Various Materials under Different Conditions for Efficient Photocatalytic Dye Degradation
- SP. Keerthana1, R. Yuvakkumar1,* and G. Ravi1
- ADVANCED OXIDATION PROCESSES (AOPS)
- MATERIALS FOR PHOTOCATALYSIS
- Metal Oxides-based Photocatalysts
- Metal Sulphide-based Photocatalysts
- Metal Ferrites-based Photocatalysts
- DIFFERENT STRATEGIES FOR EFFICIENT PHOTOCATALYST
- Using of Dopant
- Using Surfactants.
- Carbon-based Metal Doping
- Recent Techniques in Dye Degradation: A Biological Approach
- Nagaraj Revathi1, Jeyaraj Dhaveethu Raja2, Jegathalaprathaban Rajesh3 and Murugesan Sankarganesh3,*
- EFFECT OF DYES
- TREATMENT METHODS
- Biological Treatments
- Fungi
- Algae
- Enzymatic Decolorization and Degradation
- Reductive and Oxidative Enzymes
- Subject Index
- Back Cover.
- Notes:
- Includes bibliographical references.
- Description based on publisher supplied metadata and other sources.
- Description based on print version record.
- ISBN:
- 981-5179-54-3
- OCLC:
- 1416190086
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