Microalgae in Waste Water Remediation
Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify potential paths for future research regarding microalgaebased bioremediation. To achieve this goal, the book also assessing and analyzes the topi...
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| Main Authors | , |
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| Format | eBook |
| Language | English |
| Published |
Milton
CRC Press
2021
Taylor & Francis Group |
| Edition | 1 |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify potential paths for future research regarding microalgaebased bioremediation. To achieve this goal, the book also assessing and analyzes the topics that attract attention among the scientific community and their evolution through time. This book will be useful to the students, scientists and policy makers concerned with the microalgae mediated management of wastewater effluents and its applications in overall future sustainable development. |
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| AbstractList | Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify potential paths for future research regarding microalgaebased bioremediation. To achieve this goal, the book also assessing and analyzes the topics that attract attention among the scientific community and their evolution through time. This book will be useful to the students, scientists and policy makers concerned with the microalgae mediated management of wastewater effluents and its applications in overall future sustainable development. Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify potential paths for future research regarding microalgaebased bioremediation. To achieve this goal, the book also assessing and analyzes the topics that attract attention among the scientific community and their evolution through time. This book will be useful to the students, scientists and policy makers concerned with the microalgae mediated management of wastewater effluents and its applications in overall future sustainable development. Microalgae I: Origin, Distribution and Morphology. Microalgae II: Cell Structure, Nutrition and Metabolism. Microalgae III: Stress Response and Wastewater Remediation. Municipal Wastewater. Petroleum Wastewater. Distillery and Sugar Mill Wastewater. Tannery Wastewater. Pulp and Paper Wastewater. Textile Wastewater. Food Processing Wastewater. Integrated Microalgal Wastewater Remediation and Microalgae Cultivation. Microalgal Biomass: An Opportunity for Sustainable Industrial Production. "Kumar and Singh begin by examining microalgae origins, distribution, morphology, and nutritional needs. They subsequently examine their usefulness in remediating wastewater associated with several industry-specific waste streams. The various categories are presented in particular chapters examining, e.g., the impacts of temperature, salinity, and pH on each system. Chemical contaminants requiring remediation vary by wastewater stream category. In general, they include the widely recognized persistent organic pollutants (POPs) and heavy metals, e.g., arsenic, cadmium, chromium, barium, lead, mercury, nickel, zinc. Discussions cover volatile organic compounds (VOCs), e.g., styrene, phenol, biphenyls, mercaptans, and ammonia-based products. Biochemical oxygen demand (BOD), chemical oxygen demand (COD), and turbidity are also described. Results of chemical analysis are summarized in well-labeled tables. Some figures are presented in color, and diagrams are well drawn and easy to understand." — A. S. Casparian, Community College of Rhode Island, Choice, November 2022 Dr. Arun Kumar is currently working in the field of Microalgal ecology and their applications in bioremediation and sustainable environment. Dr. Kumar has published various research and review papers in reputed journals like Frontier in Microbiology, Frontiers in Biosciences (Landmark) and Environment and Sustainability Indicators (Elsevier); in the area of microalgal bioremediation, biofuels and bioproducts production from microalgae. He obtained his doctoral degree in Environmental Microbiology from Babasaheb Bhimrao Ambedkar University, Lucknow, India. In his doctoral work, Dr. Kumar successfully metabolized a widely used and hazardous insecticide Chlorpyrifos by cyanobacterial strain Oscillatoria sp. CYA8 CPF isolated from paddy fields; which could be useful to decontaminate the pesticide residue from paddy fields and also provide a means to fix the atmospheric nitrogen. Dr. Jay Shankar Singh is faculty member at Department of Environmental Microbiology, Babasaheb Bhimrao Ambedkar University, India. Dr. Singh has contributed significantly to the subject of land uses, restoration ecology and natural resource management. He is acquainted with the area of natural resource management and demonstrated that application of beneficial microbes, pyrite, coal fly ash (FA), crop residues based farm yard manure (FYM) and rice husk biochar (RHB) amendments in enhancement of paddy crop productivity, green house gas CH 4 mitigation and restoration of degraded soil. Dr. Singh has published his research outputs in international journals ( Trends in Biotechnology, Agriculture Ecosystem and Environment, Frontiers, Journal of Environmental Management, etc.) with high impact factors and good citations on Scopus, Google Scholar (Total citation as on December 10, 2020=>3968; h-index=32; i10 index=64) and other scientific databases. He is also actively serving as member of various scientific committees, holding editorial responsibilities for journals. He has published several books from Springer, Taylor & Francis, Elsevier, among others. Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify potential paths for future research regarding microalgae-based bioremediation. |
| Author | Singh, Jay Shankar Kumar, Arun |
| Author_xml | – sequence: 1 givenname: Arun surname: Kumar fullname: Kumar, Arun organization: Department of Environmental Science Guru Nanak Khalsa College Yamuna Nagar, Haryana, India – sequence: 2 givenname: Jay Shankar surname: Singh fullname: Singh, Jay Shankar organization: Department of Environmental Microbiology Babasaheb Bhimrao Ambedkar University Lucknow, Uttar Pradesh, India |
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| Keywords | Endosymbiotic Event Paper Wastewater PS II Microalgal Species Microalgal Strains Tannery Wastewater Cod Reduction Municipal Wastewater Asp Textile Wastewater Food Processing Wastewater Microalgal Cells Cod Level Microalgal Biofilms Chlorella Vulgaris Adsorbable Organic Halides Distillery Wastewater High Cod Dissolved Air Flotation Eukaryotic Microalgae High Bod Petroleum Wastewater Energy Source Galdieria Sulphuraria Microalgal Biomass |
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| Snippet | Microalgae in Waste Water Remediation aims to point out trends and current topics concerning the use of microalgae in wastewater treatment and to identify... |
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| SubjectTerms | Ecology - Environment Studies ENVIROnetBASE Environmental Change & Pollution Environmental Management ENVIRONMENTALSCIENCEnetBASE Microalgae mediated management Microalgae-Industrial applications Microalgae-Utilization Municipal wastewater treatment Pollution Management Resource Management - Environmental Studies SCI-TECHnetBASE Sewage-Purification-Biological treatment STMnetBASE Sustainable development Waste & Recycling Waste water remediation Water Engineering Water Science WATERnetBASE |
| TableOfContents | Melanoidin Degradation -- Enzymes Involved in Lignin and Melonidin Degradation -- Conclusion -- 7. Tannery Wastewater -- Introduction -- Tannery Industry: A Brief Description -- Tannery Wastewater: Characteristics and Specific Pollutants -- Impacts on Environment and Public Health -- Current Treatment and Challenges -- Microalgal Remediation -- Metal Biosorption Mechanism -- Role of pH in Metal Biosorption -- Role of Immobilized Microalgae -- Conclusion -- 8. Pulp and Paper Wastewater -- Introduction -- Pulp and Paper Industry: A Brief Description -- Pulp and Paper Industry Wastewater: Characteristics and Specific Pollutants -- Impacts on Environment and Public Health -- Current Treatment and Its Challenges -- Microalgal Bioremediation -- Phenol and Their Derivatives Degradation -- Role of Light in Phenol Degradation -- AOX Removal -- Conclusion -- 9. Textile Wastewater -- Introduction -- Textile Industry: A Brief Description -- Textile Dyes: Classification and Characteristics -- Textile Wastewater: Characteristics and Specific Pollutants -- Impacts on the Environment and Public Health -- Current Treatment and Challenges -- Microalgal Remediation -- Dye Discoloration and Degradation -- Mechanism of Dye Degradation -- Conclusion -- 10. Food Processing Wastewater -- Introduction -- Food Processing Industry: Types and Their Brief Description -- Food Industry Wastewater: Characteristics and Specific Pollutants -- Impacts on the Environment and Public Health -- Current Treatment and Challenges -- Microalgal Remediation -- Role of Microalgae Consortia in Nutrient Removal -- Thermophilic, Psychrophilic or Acidophilic Microalgae -- Benefits of Micro-Algal Activated Sludge Process (MAAS) -- Conclusion -- 11. Integrated Microalgal Wastewater Remediation and Microalgae Cultivation -- Introduction -- Conventional Wastewater Treatment: A Brief Description Cover -- Title Page -- Copyright Page -- Preface -- Contents -- 1. Microalgae I: Origin, Distribution and Morphology -- Introduction -- Origin and Evolution -- Phylogeny and Classification -- Ecology and Distribution -- Morphology, Colony Features and Adaptations -- Conclusion -- 2. Microalgae II: Cell Structure, Nutrition and Metabolism -- Introduction -- Cell Structure: Prokaryotic Microalgae -- Cell Structure: Eukaryotic Microalgae -- Nutrition Mode -- Photosynthesis: Process, Components and Reactions -- Uptake and Assimilation of Nutrients -- Conclusion -- 3. Microalgae III: Stress Response and Wastewater Remediation -- Introduction -- Physical Stress -- Nutritional Stress -- Synergistic Effects of Combinations of Physical and Nutritional Stress -- Microalgae Mediated Wastewater Remediation -- Conclusion -- 4. Municipal Wastewater -- Introduction -- Municipal Wastewater: Characteristics and Specific Pollutants -- Impact on the Environment and Public Health -- Current Treatment Technologies and Their Challenges -- Microalgal Remediation -- Microalgae/Microalgae-Bacteria Consortia -- Microalgal Biofilms -- Conclusion -- 5. Petroleum Wastewater -- Introduction -- Crude Oil: Composition and Types -- Petroleum Industry: A Brief Description -- Petroleum Wastewater: Characteristics and Specific Pollutants -- Impacts on the Environment and Public Health -- Current Treatment and Challenges -- Microalgal Remediation -- Mechanism of Degradation of PAHs -- Role of Cyanobacteria Mats in Oil Degradation -- Conclusion -- 6. Distillery and Sugar Mill Wastewater -- Introduction -- Distillery and Sugar Mills: A Brief Description -- Distillery and Sugar Mill Wastewater: Characteristics and Specific Pollutants -- Impacts on Environment and Public Health -- Current Treatment and Its Challenges -- Microalgal Bioremediation -- Removal of Lignin and Tannins Sludge Problem and Its Management -- Conventional or Modern Wastewater Treatment Systems -- Integration of Microalgal Remediation with Wastewater Treatment: An Opportunity for Microalgal Biomass Cultivation -- Microalgal Biomass Cultivation Systems -- Harvesting of Microalgal Biomass -- Biomass Processing and its Valorization -- Conclusion -- 12. Microalgal Biomass: An Opportunity for Sustainable Industrial Production -- Introduction -- Food Supplements and Animal Feed -- Pharmaceuticals -- Natural Colorants -- Bio-plastics (Poly-hydroxybutyrate) -- Biofertilizers -- Biodiesel -- Bio-ethanol -- Biomethane or Biogas -- Biohydrogen -- Conclusion -- Index |
| Title | Microalgae in Waste Water Remediation |
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