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Sustainable Advanced Technologies for Industrial Pollution Control: Proceedings of ATIPC 2022 (Springer Proceedings in Earth and Environmental Sciences)

معرفی کتاب «Sustainable Advanced Technologies for Industrial Pollution Control: Proceedings of ATIPC 2022 (Springer Proceedings in Earth and Environmental Sciences)» نوشتهٔ Debabrata Mazumder (editor)، منتشرشده توسط نشر Springer Nature Switzerland AG در سال 2023. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.

This proceedings volume constitutes peer-reviewed full-length papers contributed by the Authors and tailored on various thematic areas of the 3 rd International Conference on “Advanced Technologies for Industrial Pollution Control” (ATIPC – 2022). The areas of research covered by these papers include but are not limited to: •Water quality monitoring and treatment in industrial area •Industrial effluent treatment, reuse and conservation •Monitoring of industrial emission and control •Industrial solid waste management •Handling and disposal of hazardous waste •Case Studies on industrial pollution control •Innovative technologies in industrial waste management Preface Acknowledgement Contents Author Biography Part I: Water Quality Monitoring and Treatment in Industrial Area Water Decontamination Through Thiamethoxam Removal Using DL-Menthol/Octanoic Acid Deep Eutectic Solvent: Molecular Dynamics In... 1 Introduction 2 Simulation Methodology 3 Results and Discussion 4 Conclusion References Methyl Red Dye Abatement from Aqueous Solution Using Calcium Ferrite and Manganese Ferrite Magnetic Nanocomposite: Kinetics an... 1 Introduction 2 Materials and Methods 2.1 Chemicals and Reagents 2.2 Preparation of CF-MF-MNC 2.3 Adsorption Experiment on Batch Mode 3 Results and Discussion 3.1 Characterization of CF-MF-MNC 3.2 Effect of Solution pH 3.3 Effect of Sorption Time and MR Initial Concentration 3.4 Effect of Sorbent Dose 3.5 Adsorption Kinetic Study 3.6 Adsorption Isotherm Study 3.7 Regeneration Study 4 Conclusion References Adsorption of Fluoride onto PANI-Cl Jute Fibre: Designing a Higher-Flow-Rate and Higher-Initial-Concentration Column Reactor f... 1 Introduction 2 Materials and Methods 2.1 Materials and Methodology 2.2 Bed Depth Service Time 2.3 Theoretical Breakthrough Curve 3 Results and Discussion 3.1 Characterization 3.2 Theoretical Breakthrough Curve 3.3 Bed Depth Service Time 3.4 Desorption 4 Conclusion References Biosynthesis of Nano Zero Valent Iron (nZVI) Using Shorea robusta Leaf Extract and Its Application in UV-Assisted Photocatalyt... 1 Introduction 2 Materials and Methods 3 Results and Discussion 4 Conclusion References Method Development for the Detection of 2-Methylpyridine by High-Performance Liquid Chromatography 1 Introduction 2 Materials and Methods 2.1 Reagents Used 2.2 Solution Preparation 2.3 HPLC Analysis 2.4 Doehlert Design 3 Results and Discussion 3.1 Doehlert Design 3.2 Linearity 3.3 Factor Effects 3.4 Adequacy of the Model 3.5 Response Surface Analysis 3.6 Model Validation and Repeatability 3.7 Detection and Quantitation Limits 3.8 Application for Industrial Effluent 4 Conclusion References Part II: Industrial Effluent Treatment, Reuse and Conservation Importance of Cost Functions for Biological Treatment of Wastewater 1 Introduction 2 Materials and Methods 2.1 Capacity Groups 2.2 Design Inlet Quality of Wastewater 2.3 Design Treated Quality of Wastewater 2.4 Design Parameters 2.5 Components of WWTPs 2.6 Design, Detailing and Cost Estimation 3 Results and Discussion 4 Conclusion Appendix I: Medium-range WWTPs with MBBR References Removal of Heavy Metals by Laterite Soil 1 Introduction 2 Materials and Methods 2.1 Chemicals 2.2 Instruments 2.3 Preparation and Characterization of the Adsorbent 2.4 Experimental Studies 3 Results and Discussion 3.1 Characterization Result of the Adsorbent 3.1.1 SEM Result 3.1.2 FTIR Result 3.1.3 EDX Result 3.2 Effect of Contact Time 3.3 Effect of Soil Dose 3.4 Effect of pH 3.5 Isotherm Studies 4 Conclusion References Removal of Methylene Blue from Wastewater by Red Sandy Soil-Based Alkali-Activated Binder 1 Introduction 2 Materials and Methodology 2.1 Reagents 2.2 Adsorbent Preparation 2.3 Instrumentation 2.4 Analytical Method 2.5 Experimental Studies 2.6 Study of Kinetics Models 3 Results and Discussions 3.1 Impact of Particle Size 3.2 Impact of Adsorbent Dosage 3.3 Kinetic Study 3.4 Effect of Agitation Speed 3.5 Study of Isotherm 3.6 Adsorption Thermodynamics Studies 4 Conclusion References Assessment and Treatment of Iron from Industrial Wastewater Using Parkia Speciosa Pod as Activated Carbon 1 Introduction 2 Materials and Methods 2.1 Sample Collection 2.2 Synthesis and Characterization of Adsorbent 2.3 Adsorbent Experiment 2.4 Adsorption Kinetics 2.5 Adsorption Isotherm 2.6 Thermodynamic Study 3 Results and Discussion 3.1 Site Assessment 3.2 Surface Characterization of the Adsorbent 3.3 Effect of pH 3.4 Effect of Time and Adsorption Kinetics 3.5 Adsorbent Dose and Adsorption Isotherms 3.6 Effects of Temperature 4 Conclusion References Activated Carbon Developed from Phumdi Biomass and Deccan Hemp for the Adsorption of Methylene Blue 1 Introduction 2 Materials and Methods 2.1 Collection of Raw Materials 2.2 Synthesis of Activated Carbon 2.3 Methodology 2.4 Batch Adsorption Studies 3 Results and Discussion 3.1 Site Assessment 3.2 Surface Characterization of the Adsorbent 3.3 Effect of pH 3.4 Effect of Time and Adsorption Kinetics 3.5 Adsorbent Dose and Adsorption Isotherms 4 Conclusion References An Experimental Study of Metanil Yellow Dye Remediation Using Fe-Mn Bimetal Oxide Composites 1 Introduction 2 Materials and Methods 2.1 Chemical Reagents and Materials Used 2.2 Methods 2.3 Synthesis of IMBO 3 Results and Discussion 3.1 Characterization of Synthesized IMBO 3.1.1 XRD 3.1.2 FESEM 3.1.3 VSM 3.1.4 FTIR 3.1.5 BET Surface Area 3.2 Impact of Various Experimental Variables on MY Adsorption 3.2.1 Influence of Solution pH 3.2.2 Impact of Adsorption Time 3.2.3 Impact of IMBO Dose 3.2.4 Impact of MY Concentration 3.3 Kinetic Study 3.4 Equilibrium Isotherm Study 3.5 Regeneration Study 4 Conclusion References Optimization of Electrocoagulation Process Parameters Using Magnesium Electrodes for Treating Pharmaceutical Wastewater Contai... 1 Introduction 2 Experimentation 2.1 Materials and Analysis 2.2 Fourier Transform Infrared Spectroscopy (FTIR) and X-Ray Diffraction (XRD) of Sludge 2.3 Electrocoagulation Setup 3 Results and Discussions 3.1 Impact of Current Density (CD) 3.2 Impact of Initial pH 3.3 Impact of Electrolyte Concentration 3.4 Impact of Pollutant Dose 3.5 Removal Kinetics 3.6 FTIR and XRD Analysis of Sludge 3.7 Energy Consumption 4 Conclusion References Optimization of Process Parameters for Biodegradation of Cresol by Mixed Bacterial Culture Using Response Surface Methodology 1 Introduction 2 Materials and Methods 2.1 Kinetic Study of Bacterial Growth and Cresol Removal by the Mixed Bacterial Culture in Various Substrate Concentration and... 2.2 Optimization of Operating Conditions by Response Surface Methodology (RSM) 2.3 Isolation of Pure Bacterial Colonies 2.4 Characterization of Pure Strains 3 Results and Discussion 3.1 Kinetic Study of Growth of Mixed Bacterial Culture (MBC) in Presence of Different Concentrations of Cresol and Under Vario... 3.2 Comparative Study of Maximum Specific Growth Rate (μmax) of MBC in Different Concentrations of Cresol 3.3 Degradation Kinetics of Cresol by MBC in Different Cresol Concentrations and in Presence of Varying Modes of Agitations 3.4 Comparative Study of Maximum Specific Degradation Rate (qmax) of MBC in Different Concentrations of Cresol 3.5 Study of Optimization of Operating Conditions by Response Surface Methodology (RSM) 3.6 Isolation of Pure Bacterial Colonies 3.7 Characterization of Pure Strains 4 Conclusion References Biological Degradation of Cresol Containing Waste Water Using Mixed Microbial Culture in Presence of Heavy Metals 1 Introduction 2 Materials and Methods 3 Results and Discussion 3.1 Effect of Cr(VI) on Biodegradation of Cresol 3.2 Effect of Pb(II) on Biodegradation of Cresol 3.3 Effect of Cd(II) on Biodegradation of Cresol 3.4 Variation of Specific Growth Rate of the Culture with a Variety of Cresol and Metal Combinations 3.5 Determination of IC50 Value of Heavy Metals 3.6 Characterization and Identification of Predominant Bacteria from the Mixed Culture 4 Conclusion References Part III: Monitoring of Industrial Emission and Control Development of a Simplistic Model for the Prediction of Reactive Air Pollutants in the Atmosphere 1 Introduction 2 Materials and Methods 2.1 Development of Model 2.2 Solutions of the Model 3 Results and Discussion 4 Conclusion References Controlling Air and Metal Pollution in Industrial Area Singrauli, India: Role of Plants 1 Introduction 2 Materials and Methods 2.1 Study Area 2.2 Sampling 2.3 Experimental Study 2.3.1 Biochemical Parameter of APTI 2.3.2 Dust-Capturing Capacity (DCC) 2.3.3 Field Emission Scanning Electron Microscopy (FESEM) 2.3.4 Heavy Metal Analysis of Leaf and Soil Sample 2.3.5 Bioaccumulation Factor (BAF) 2.4 Quality Control 2.5 Statistical Analysis 3 Results and Discussion 3.1 Biochemical Parameter of APTI 3.2 Dust-Capturing Capacity 3.3 Estimation of Metals in Soil and Plants 4 Conclusion References Part IV: Industrial Solid Waste Management Enhancing the Dewatering Ability of Sludge by Locally Available Biomass 1 Introduction 2 Materials and Methods 2.1 Materials 2.2 Methodology 2.2.1 Preparation of MCSB-FeCl3 2.2.2 Analytical Methods Capillary Suction Time (CST) Moisture Content (MC) Filterability Settleability 3 Results and Discussion 3.1 Morphological Characteristics 3.2 The Effects of MCSB-FeCl3 on the CST, Moisture Content, Filterability, and Settleability 3.2.1 Effects on CST and Moisture Content 3.2.2 Effects on Filterability and Settleability 3.3 Optimization of the Filterability and Moisture Content 4 Conclusion References Production of Xylose from Water Hyacinth Biomass (WHB) (Lignocellulosic Waste) for Xylitol Production: Waste to Wealth 1 Introduction 2 Materials and Methods 2.1 Substrate 2.2 Chemicals 2.3 Materials 2.4 Glassware 2.5 Equipment 2.6 Screening for Pre-treatment Method 2.6.1 Alkali Pre-treatment 2.6.2 Acid Pre-treatment 2.6.3 Hydrogen Peroxide Treatment 2.7 Analytical Methods 3 Results and Discussion 3.1 Sample Preparation 3.2 Pre-treatment of WHB 3.3 Composition of WHB 3.4 Determination of Xylose in Hydrolyzed Sample 3.5 Effect of KOH on WHB Hydrolysis 4 Conclusions References A Simplistic Mathematical Model for Two-Stage Anaerobic Digestion of Plastic Wastes 1 Introduction 2 Materials and Methods 2.1 Development of Mathematical Model 2.2 Method of Solution of the Proposed Model 2.3 Experimental Validation of the Proposed Model 3 Results and Discussion 4 Conclusion References Part V: Handling and Disposal of Hazardous Waste Modeling of Migration of Cr (VI) Contaminant Through Clay Liner Using HYDRUS-3D 1 Introduction 2 Materials and Methods 2.1 Material 2.1.1 Study Area 1 2.1.2 Study Area 2 2.1.3 Azadiracta indica (AI) 2.1.4 Adsorption Isotherm 2.1.5 Isotherm Model 2.2 Methods 2.2.1 Preparation of Natural Adsorbent 2.2.2 Physical and Numerical Modeling 2.2.3 Methodology for Heavy Metals Estimation 2.2.4 Langmuir Isotherm Model 2.2.5 Freundlich Isotherm Model 2.2.6 Zero-Point Charge Test for Clay Soil 3 Result and Discussion 3.1 Adsorption Isotherms 3.2 Modeling of Hexavalent Chromium Migration Through AI-Amended Clay Soil 4 Conclusions References Electrokinetic Remediation of Total Chromium from Contaminated Soil 1 Introduction 2 Materials and Methods 2.1 Materials 2.2 Electrokinetic Experiment 2.3 Variation of Current Density and Energy Consumption in Electrokinetic Treatment 2.4 Distribution of pH of Soil 3 Results and Discussion 4 Conclusion References Low-Cost Recovery of Cadmium from Wastewater by Soil Bacteria 1 Introduction 2 Materials and Methods 3 Results and Discussion 4 Conclusion References Part VI: Case Studies on Industrial Pollution Control Tannery Waste Management in India: A Case Study 1 Introduction 2 Data Collection 3 Data Assessment 4 Conclusion References Removal of Natural Organics and Selected Antibiotics Using PAC and Al Electrodes: A Study of the Jumar River 1 Introduction 2 Material and Methods 3 Result and Discussion 3.1 River Water Characterization 3.2 Acetaminophen, NOM, and Turbidity Removal Using PAC 3.3 Tetracycline, NOM, and Turbidity Removal Using PAC 3.4 Electrocoagulation Process Affecting Parameter Optimization 3.4.1 Effect on Time 3.4.2 Current and Voltage 3.5 Acetaminophen Removal by Electrocoagulation 3.6 Tetracycline Removal by Electrocoagulation 3.7 Cost Analysis 3.8 Removal Efficiency 3.9 Reaction Kinetics and Drug Degradation Study 4 Conclusion References Quantification of Floating Plastics Using UAV Images and Identification of Microplastics in Ukkadam Tank, Coimbatore, Tamil Na... 1 Introduction 2 Materials and Methods 2.1 Study Area 2.2 Unmanned Aerial Vehicle Image 2.3 Image Classification 2.4 Supervised Classification 2.4.1 Maximum Likelihood Classification 2.4.2 Support Vector Machine Classifier 2.4.3 Random Tree Classifier 2.5 Feature Extraction 2.6 Identification of Microplastics 2.7 Visual Observation 3 Results and Discussion 3.1 Areal Extent of Macroplastics 3.2 Microscopic Observation 4 Conclusion References Study of Wastewater Treatment in Hindustan Coca-Cola Plant at Khurda 1 Introduction 2 Materials and Methods 2.1 Study Site 2.2 Methodology 2.3 Input to Water Purification 2.4 Wastewater Treatment 3 Results and Discussion 4 Conclusion References Part VII: Innovative Technologies in Industrial Waste Management In Vitro Performance Analysis of Ti- and Zn-Doped Hydroxyapatite Made from Waste Eggshells 1 Introduction 2 Methodology 2.1 Preparation of Synthetic and Biosourced Hydroxyapatite and Doped Varieties 2.2 Compaction of Powder and Porosity Measurement 2.3 XRD and FTIR Analysis 2.4 Hardness Study 2.5 SEM Analysis 2.6 Bioresorption Study (Stimulated Body Fluid Study) 2.7 Bactericidal Study 2.8 Hemolysis Study and MTT Assay 3 Results and Discussion 3.1 Physical Properties 3.2 XRD and Lattice Parameter Analysis 3.3 Functional Group and SEM Analysis 3.4 EDAX Study 3.5 In Vitro Biofluid Study 3.6 Bactericidal Study and MTT Assay 3.7 Hemolysis Study 4 Conclusion References Production of Non-toxic, Non-polluting Herbal Soaps Using Plant Extracts Having Antimicrobial Activity 1 Introduction 2 Materials and Methods 2.1 Preparation of Non-polluting Soap Base and Optimization of pH 2.2 Verification of Antimicrobial Properties of Various Herbal Aqueous Extracts 2.3 Kinetics of Bacterial Growth in the Presence of Raw Neem Soap 2.4 Kinetics of Bacterial Growth in Presence of Raw Turmeric Soap 2.5 Determination of Efficacy of the Herbal Soap 3 Results and Discussion 3.1 Preparation of Non-polluting Soap Base and Optimization of pH 3.2 Verification of Antimicrobial Properties of Various Herbal Aqueous Extracts 3.3 Kinetics of Bacterial Growth in the Presence of Raw Neem Soap 3.4 Kinetics of Bacterial Growth in Presence of Raw Turmeric Soap 3.5 Determination of Efficacy of the Herbal Soap 4 Conclusion References Decolorization of Textile Dye RR 141 Using Electrochemical Process 1 Introduction 2 Materials and Methods 2.1 Experimental Setup 2.2 Analytical Procedure 2.3 Influence of pH 2.4 Influence of Time 3 Results and Discussion 3.1 Influence of pH 3.2 Influence of Time 4 Conclusion References Index
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