Environmental chemistry Books

Book SynopsisWater is regarded as an important element for sustainable development and many countries are attempting to provide clean water for municipal and industrial sectors. Owning to population explosion, industrial activities, agricultural practices and urbanisation, water bodies are polluted with various pollutants such as dyes, heavy metals, etc.. This first volume focuses on utilization of different promising nanocomposites for water and wastewater remediation. It provides an overview of wastewater treatment technologies, and explores the performace of materials such as organic-inorganic polymer hybrids, hydroxyapatite, magnetic composites (with polymers and biomaterials), zeolites, and so on in water and wastewater decontamination. The present edition takes into account various types of pristine and modified materials in different water treatment methods such as adsorption, catalysis and photocatalysis. Recent advances and developments are discussed in this book, and it provides a valuable resource for researchers and professionals in different fields such as environmental and chemical engineering.Table of ContentsWastewater Treatment Technologies Organic-Inorganic Polymer Hybrids for Water and Wastewater Treatment Hydroxyapatite-based materials for environmental remediation Sequestration of Heavy Metal Pollutants by Fe3O4-based Composites Zeolite for Treatment of Distillery Wastewater in Fluidized Bed systems Photodegradation of emerging pollutants using catalysts supported in organic and 3 inorganic composite materials Agricultural wastes utilization in water purification Mesoporous Materials for adsorption of Heavy Metals from Wastewater Role of Water/Wastewater/Industrial treatment plants sludge in Pollutant Removal​

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Book Synopsis This book on biopolymers offers a comprehensive source for biomaterial professionals. It covers all elementary topics related to the properties of biopolymers, the production, and processing of biopolymers, applications of biopolymers, examples of biopolymers, and the future of biopolymers. Edited by experts in the field, the book highlights international professionals’ longstanding experiences and addresses the requirements of practitioners and newcomers in this field in finding a solution to their problems. The book brings together several natural polymers, their extraction/production, and physio-chemical features. The topics covered in this book are biopolymers from renewable sources, marine prokaryotes, soy protein and humus oils, biopolymer recycling, chemical modifications, and specific properties. The book also focuses on the potential and diverse applications of biogenic and bio-derived polymers. The content includes industrial applications of natural polymeric molecules and applications in key areas such as material, biomedical, sensing, packaging, biomedicine, and biotechnology, and tissue engineering applications are discussed in detail. The objective of this book is to fill the gap between the researchers working in the laboratory to cutting-edge technological applications in related industries. This book will be a very valuable reference material for graduates and post-graduate students, academic researchers, professionals, research scholars, and scientists, and for anyone who has a flavor for doing biomaterial research. The books are designed to serve as a bridge between undergraduate textbooks in biochemistry and professional literature. The book provides universal perspectives for an emerging field where classical polymer science blends with molecular biology with highlights on recent advances. Table of ContentsBiopolymers: State of the art and new challengesBiopolymers from renewable sources Recent approaches towards Bacterial NanoCellulose (BNS) synthesis Bacterial nanocellulose from agro-industrial wastes Biopolymers from marine prokaryotes Biomolecules from humus oil Soy protein biopolymer Piezoelectric Properties of Biopolymers Optical properties of biopolymers: Theoretical and experimental advancesMechanical properties of biopolymers Thermal properties of biopolymers Gas barrier properties of biopolymers Structural, morphological and textural properties of biopolymers Tuning the hydrophilic/hydrophobic behavior of biopolymers: Surface modificationsBiopolymer based blends Biopolymer Based Interpenetrating Polymer Networks Biopolymer based gels Biopolymer based composites Biopolymer based nanocomposites Biopolymer based blend nanocomposites Nanofibres and Nanomembranes of biopolymers Biopolymer Based Soil Treatment for Geotechnical Engineering Applications Biopolymers as Engineering Materials Biopolymer based nanocomposites for the treatment of organic pollutants from the synthetic wastewater: ApplicationBio-Medical Applications of Chitin Sustainable biodegradation and extraction of keratin with its applications Material applications of gelatin Natural rubber and guttapercha rubber: ApplicationsAlbumin Engineering applicationsTunable biopolymers Biomedical applicationsNanocellulose from cladophoro ApplicationsCellulose nanocrystals(CNCs)supported inorganic nanomaterials for catalytic applications Bacterial nanocellulose (BNCs) supported inorganic nanomaterials for catalytic applications Bio-compatibility of nanocellulose: Emerging biomedical applicationsSensing and biosensing applications of nanocellulose Packaging Applications of Biodegradable Nanocellulose Composites Nanocellulose based (bio)composites for optoelectronic applications Biopolymers for edible films and coatings in food applications Peptide-based biopolymers in biomedicine and biotechnology Cross-linking biopolymers for biomedical application Natural fibre reinforced biopolymers as construction materials Polylactic acid (PLA): ApplicationsBiopolymer films and composite coatings: ApplicationsGas barrier properties and applications of nanocellulose based materials Applications of Biopolymer-Based Nanofibers and Nanomembranes Amylose-Amylopectin ratio: comprehensive understanding of structure, physico-chemical attributes and applications of starchBiopolymers: Building blocks for the synthesis of advanced materials Nature Inspired Biomimetic Polymeric Materials and Its Applications Cosmetic applications of albumin Biodegradation of Biopolymers:Reflections Towards Possible Biomagnification Definitions and AssessmentBiopolymer waste management: Reuse, Recycling and disposalSafety issues, environmental impacts and health effects of biopolymers Challenges and issues in biopolymer applications

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Book SynopsisAmong various industries releasing wastewater into the environment, printing, dyeing and textile industries are of great importance as they frequently contain high amounts of colorful compounds having high chemical and biological oxygen demands. Health related effects of colorants are extensively reported; which necessitates the seriousness of dye removal from water and wastewater. The utilization of advanced oxidation processes (AOPs) in dye degradation has gained considerable attention recently due to the release of high energetic radicals as oxidants that are capable of removing dye compounds. This Volume 1 presents versatile applications of AOPs in dye removal. Accordingly, processes such as Ozone-based AOPs, UV irradiation, catalytic AOPs, etc are discussed with the aim of dye removal under different operational parameters. The role of different nanoparticles is also investigated. By presenting the fundamentals of AOPs as well as recent advances, this book is useful for environmental engineers and chemists who are concerned with wastewater pollution and treatment. Table of ContentsFundamental of Advanced Oxidation Processes Fenton Processes in Dye Removal Treatment of textile industrial dyes using natural sunlight driven methodes Solar Photocatalytic Treatment of Dye Removal Photo(Catalytic) Oxidation Processes for the Removal of Dye: focusing on TiO2 performance Ozone Based Processes in Dye Removal Nanomaterials in Advanced oxidation Processes (AOPs) in anionic dye removal Sustainable development of nanomaterials for removal of dyes from water and wastewater Textile Waste Water Treatment Using Sustainable Technologies: Advanced Oxidation and Degradation using Metal Ions and Polymeric Materials Multiphase reactors in photocatalytic treatment of dye wastewaters: Design and scaleup considerations Enhanced Methylene Blue Degradation onto Fenton-like catalysts based on g-C3N4-MgFe2O4 composites Metal oxide heterostructured nanocomposites for wastewater treatment Electrocoagulation technology for wastewater treatment: Mechanism and applications Carbonaceous-TiO2 Photocatalyst for Treatment of Textile Dye-Contaminated Wastewater ​

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Book Synopsis

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