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Bioremediation and Nutrients and Other Valuable Products Recovery: Using Bio-electrochemical Systems reviews key applications in transforming fuel waste substrates into simple low impact and easily assimilative compounds that are environmentally non-labile and tolerant. The book emphasizes waste treatment and nutrient removal and recovery from a diverse array of waste substrates, utilizing Bioelectrochemical Systems (BES) approaches. Throughout, the work emphasizes the utilization of electrode and/or electrolyte components in building self-sustaining fuel cell systems that target the removal of both conventional and emerging pollutants, along with the production of energy. Bioremediation strategies with potential scale-up options for wastewater treatment, metal removal and soil remediation drug derivates and emerging contaminants are discussed with particular emphasis. Chapters explore applications for these varied pollutants, together with prospects in waste minimization, nutrient recycling, water purification and bioremediation of natural resources. - Explores a detailed panorama of potential known pollutants with detailed reviews on their removal and recovery - Discusses bioproduct recovery application frontiers across wastewater treatment and bioremediation, metal removal and soil remediation, extraction of drug derivates and emerging contaminants - Emphasizes pilot scale-up and commercialization potential for each recovery application discussed
As the world grapples with pressing environmental challenges, the need for sustainable solutions has never been more urgent. From climate change to resource depletion, our planet faces unprecedented threats that require immediate action. Revolutionizing Automated Waste Treatment Systems: IoT and Bioelectronics emerge as a beacon of hope, offering comprehensive insights and practical guidance to address these critical issues. By delving into the principles and applications of green technologies, this book presents a roadmap towards a greener, more sustainable future. Recognizing the essential role that green technologies play in mitigating environmental degradation, this book emphasizes concepts such as smart technologies, bioelectronics, and the internet of things. It also illustrates how these innovations can be leveraged to create a more sustainable world. Readers will be educated on the importance of adopting these technologies, and the book provides actionable strategies for implementation. Use this impressive resource to grasp a more holistic approach to environmental sustainability, from designing green infrastructure to managing water resources.
In situ bioremediationâ€"the use of microorganisms for on-site removal of contaminantsâ€"is potentially cheaper, faster, and safer than conventional cleanup methods. But in situ bioremediation is also clouded in uncertainty, controversy, and mistrust. This volume from the National Research Council provides direction for decisionmakers and offers detailed and readable explanations of: the processes involved in in situ bioremediation, circumstances in which it is best used, and methods of measurement, field testing, and modeling to evaluate the results of bioremediation projects. Bioremediation experts representing academic research, field practice, regulation, and industry provide accessible information and case examples; they explore how in situ bioremediation works, how it has developed since its first commercial use in 1972, and what research and education efforts are recommended for the future. The volume includes a series of perspective papers. The book will be immediately useful to policymakers, regulators, bioremediation practitioners and purchasers, environmental groups, concerned citizens, faculty, and students.
Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation explores the integration of carbon capture, storage and sequestration technologies with bioelectrochemical fuels cells (BEFC), showing how conventional technologies can be renovated to aid in the reduction in GHG emissions and simultaneously optimize BEFC performance. The book focuses on the integration of algal biogas upgradation with electrochemical systems, providing a guide to the renovation of conventional technologies to combine energy production and carbon sequestration. Chapters discuss the latest advancements in carbon sequestration biocatalyst and microbial platforms and integrations for rapid carbon biotransformations. In addition, the book highlights the potential of algae and chemolithotrophs as candidates for carbon delivery, biocatalyst orientation and architecture for optimal BEFC performance. - Addresses the modification of carbon materials in the strengthening and application of bioelectrochemical fuel cells - Highlights the application of bioelectrochemical systems in carbon sequestration and utilization - Discusses the frontiers of carbon storage biocatalysts such as algae and chemlithotrophs - Includes content supported by analytical tools and detailed schematics and process diagrams that outline the integration of carbon sequestration with bioelectrochemical systems
The book is unique in highlighting the issue of wastewater as one of the important environmental issues. The uniqueness also lies in exploring the concepts of converting waste into resources in the form of bioenergy, biofertilizers through various biological methods. Given the international scenario, the chapters of this book are designed to include both anaerobic and aerobic methods of resource recovery from the industrial wastewater. The book is a step toward design with nature and the concept of green chemistry. Waste menace is one of the most voiced and unsolved problems in the entire world. The whole world is facing the threat of water pollution, soil pollution/ land pollution, odour pollution from the growing waste. Though we find many missions and programs at international, national, and regional level to solve the waste associated issues, this is mostly in context with the solid fraction of the waste. Very little is being done to manage the liquid part of the waste or what we call the wastewater. The conversion of wastewater has the potential to be converted to energy in the form bioenergy, bio-fertilizers, electricity, nutrient recovery, etc. The use of sludge as biofertilizers solves the problem of sludge management on the one hand and production of organic crops on the other. The biological treatment methods like sludge treatment gives the farmers the source of biofertilizers and organic manure for the plants. In the present scenario, energy crisis is also one of the issues that we are facing particularly in context with the thermal power plants which are environmentally highly polluting. Through various techniques like microbial fuel cells or biohydrogen, we get a source of cleaner energy. So, through this book, we try to produce the content and information to give the audience an understanding of the waste water as one of the environmental and health issues and mitigation strategies. The book gives a sufficient understanding of how waste can be turned into a resource.
Emerging Trends and Advances in Microbial Electrochemical Technologies: Hypothesis, Design, Operation and Applications provides a lab to field approach involved in the progress of microbial electrochemical technologies. Focusing on recent trends and advances in this rapidly growing field, the book provides comprehensive information on the basics while also explaining new approaches to microbial electrochemical technologies for environmental applications, including wastewater and waste treatment, bioremediation of contaminated sites, resource recovery, usable electricity generation, greenhouse gas emissions reduction and bio-sensing. Explaining current trends and advances in practice, and elaborating on realistic technological areas and commercialization possibilities and large-scale applications, this book provides new insights into the design of microbial electrochemical technologies and future directions. - Introduces advanced applications, design, processes, and materials in microbial electrochemical technologies - Explores how to translate research into real-world applications - Provides a roadmap for the specific direction of realistic research, including commercialization possibilities
Advanced Oxidation Processes for Wastewater Treatment: An Innovative Approach: This book highlights the importance of various innovative advanced oxidation technology to clean up the environment from pollution caused by human activities. It assesses the potential application of several existing bioremediation techniques and introduces new emerging technologies. This book is an updated vision of the existing advanced oxidation strategies with their limitations and challenges and their potential application to remove environmental pollutants. It also introduces the new trends and advances in environmental bioremediation technology with thorough discussion of recent developments in this field. This book highlights the importance of different innovative advanced oxidation process to deal with the ever-increasing number of environmental pollutants. Features: Illustrates the importance of various advance oxidation processes in effluent treatment plant Points out the reuse of the treated wastewater through emerging advance oxidation technologies for effluent treatment plant Highlights the recovery of resources from wastewater Pays attention to the occurrence of novel micro-pollutants Emphasizes the role of nanotechnology in bioremediation of pollutants Introduces new trends in environmental bioremediation
The ever-increasing number of pollutants discharged into the environment drives the search for new treatment technologies or the modification of the existing ones. In this sense, innovation in bio-nano filtration systems seems very promising and, therefore, a book on the current advances and innovations on this topic is highly appropriate. Bio-nano filtration is a relatively new emerging technology applied to the treatment of wastewater and other toxic compounds. In the last two decades, this technology has begun to emerge as an economically viable process to treat the great variety of recalcitrant pollutants discharged into the environment. Thus, it is speculated that the US biofiltration market will reach over $100 million by 2020. This book aims to present how innovation in bio-nano filtration can provide effective solutions to overcome the serious problem of water pollution worldwide. The removal of contaminants will be the result of the combined effects of biological oxidation, adsorption, and filtration processes. Features: Describes the microbial ecology of bio-nano filtration. Describes the modelling of bio-nano filtration. Describes the design of bio-nanofillers.
Biotechnologies for Wastewater Treatment and Resource Recovery: Current Trends and Future Scope presents up-to-date insights on the water crisis stemming from wastewater production. Edited by experts in the field, the book's chapters are structured around different types of bioremediation approaches (phytoremediation, myco-remediation, bio-stimulation, bio-augmentation, rhizoremediation, etc.) all applied in the context of wastewater treatment. This comprehensive resource equips students, research scholars, and policymakers with a holistic understanding of wastewater treatment and resource recovery through bioremediation techniques. Abundant real-world applications and case studies empower readers to make well-informed decisions, ensuring the efficient utilization of energy and efforts in addressing this critical issue. - Covers a thorough analysis of various bioremediation approaches such as: phytoremediation, myco-remediation, bio-stimulation, bio-augmentation, rhizoremediation, etc. - Offers the most up-to-date information on integrated wastewater treatment using biological and physicochemical methods - Includes case studies on bioremediation of domestic/industrial wastewater for the elimination of heavy metals/emerging water contaminants/pesticides/microplastics, amongst others
Applications of Green Nanomaterials in Analytical Chemistry, Volume 105 in the Comprehensive Analytical Chemistry series, highlights new advances in the field, with this new volume presenting interesting chapters, including Introduction (Modern Perspective of analysis with Green NMs), Green Nanomaterials based Sample Preparation techniques, Molecularly imprinting polymer nanomaterials-based sensing/detection and separation/removal of estrogenic compounds from environmental samples, Green Nanomaterials in Extraction Techniques, Green Nanomaterials in Sample Pre-treatment Processes, Lab on Chip with Green Nanomaterials, and much more.Other chapters cover Emerging green carbon dots: Opto-electronic and Morpho-structural properties for sensing applications, Green Nanomaterials based Nanosensors, Green Nanomaterials in Electroanalytical Chemistry, BioSensors with Green Nanomaterials, Green synthesis of metal based nanomaterials and their sensing application, Analytical Sensing with Green Nanomaterials, Lateral flow assay with green nanomaterials, Green nanomaterials for sorbent-based extraction techniques in food analysis, Green Nanomaterials for Chromatographic Techniques, Membranes with Green Nanomaterials, Conclusion: Future of Analytical Chemistry - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in Comprehensive Analytical Chemistry series - Updated release includes the latest information on Applications of Green Nanomaterials ?in Analytical Chemistry