Teknisk hygiejne

Waste-to-Energy: Sustainable Approaches for Emerging Economies presents the latest developments and applications for the conversion of waste into biofuels and other energy products. Divided into two parts, Section I reviews the major sources of solid waste and their management strategies in developing countries, and includes the collection, composition, segregation, and dispersal of various waste streams, as well as the generation of biogas and other value-added products. Section II examines the transformation of waste into biofuels and the management strategies required to efficiently implement waste-to-energy processes. Methods for the production of hydrogen, biomethane, biofuels, and bioenergy, as well as resource recovery are discussed in depth, and mathematical models are provided for anaerobic digestion techniques. The benefits and challenges of waste-to-energy as a waste management strategy are explored through dedicated chapters on the techno-economics, environmental and social regulation, and the operation of WtE plants. The final chapter of the book presents a lifecycle assessment and environmental impact analysis of the technologies and strategies discussed.

Waste-Based Zeolite: Synthesis and Environmental Applications focuses on the use of waste-based materials to fabricate zeolite and its subsequent use in environmental applications. It presents recent progress in zeolite synthesis using wastes products such as fly ash, steel slag, biomass waste, water treatment plant sludge, and municipal waste, among others. It discusses the application of waste-based zeolite for environmental applications such as biodiesel production, as well as considering techniques for recovering spent zeolite. Many industries produce substantial quantities of waste material comprising various hazardous constituents that lead to pollution and threaten the environment. However, such waste can often be a rich source of precursor ingredients for zeolite synthesis, and waste-based zeolites could potentially provide an economically and environmentally viable alternative to commercially available zeolites. This book illuminates this fascinating avenue of research.

Emerging Developments in Constructed Wetlands aims to provide comprehensive, up-to-date information on recent trends and advances in the domain of constructed wetlands. The book contains consolidated insights into distinctive research areas with application potential and commercialization possibilities. It also offers access to updated fundamental knowledge, current trends, and research advances worthy of potential implementations in the field. Although there has been significant research progress in the domain of constructed wetlands over the last years, there is no book available with actual case studies to meet growing demands.

Bio Refinery of Wastewater Treatment: Way to Generate Waste to Value focuses on the exploitation of various wastewater treatment technologies and microbial, chemical, and physical processes as tools for simultaneous value generation during treatment, degradation, detoxification, and stabilization of toxic and hazardous contaminants and restoring contaminated sites. The book provides recents advancements in integrative and cost-effective wastewater treatment strategies and stipulates all pros and cons of each strategy. Bio Refinery of Wastewater Treatment: Way to Generate Waste to Value is valuable to researchers and scientists, who are working in the field of effluent treatment plants/biodegradation of environmental contaminants for environmental protection and sustainable development.

Analyzing rural wastewater management in the People's Republic of China, this publication considers current financing, policy, and institutional frameworks, and proposes ways forward.It outlines the health, social and economic impacts of inadequate wastewater management in rural areas, considers cost recovery methods, and assesses the challenges of pulling in private sector investment. Drawing on case studies and international best practices, it suggests ways of strengthening rural wastewater services.

This multidisciplinary book provides insights into the applications of the Internet of Things (IoT) to combined sewer overflows (CSO) and stormwater management (SWM) systems. It explores technical challenges and presents recent results to improve sewer and drainage system management using wireless underground communications and sensing in IoT. The book addresses both existing sensing network technologies and those currently in development in three major areas of CSO: combined sewer overflow management, subsurface sensing, and antennas in the layered medium. It explores new applications of IoT in sewer systems to improve public health, foster economic growth, and enhance environmental quality and responsibility for the community.Internet of Things in Smart Sewer and Drainage Systems: Theory and Applications will be a valuable reference for graduate students and academic researchers, as well as a hands-on guide for wastewater technicians, sanitary engineers, environmental specialists, and related industry practitioners.

This book provides a detailed study and assessment of water resources management andpollution control in different BRICS countries. The regions involved areBrazil, Russia, India, China and South Africa. This book gives importantinsight into how future sustainability depends on the development of effectivewater governance mechanisms at the level of countries. According to theregional characteristics from different aspects it cuts into the waterenvironment problems and studies in different ways, which is multifaceted andtargeted. Using case studies that include environmentally integrated basinexperiments (eibex) of Brazil, groundwater overflow zone of India, semi-aridriver basin of South Africa and so on, this volume provides criticalinformation for researchers and policymakers.

Agricultural waste can be a source of energy, fertilizer, and other inputs at farm and industrial levels. Handling and managing agricultural waste are challenging tasks worldwide, especially in the context of environmental pollution control and sustainable agriculture. Thus, efficient management in terms of reuse, recycling, and reduction of agricultural waste is principally needed not only for the green economy but also for farmers¿ profitability. Agricultural Waste ¿ New Insights provides an understanding of agricultural waste production and management, discussing crop residue, biodegradables, biomass, composting and vermiculture, agricultural waste economics, air pollution, environmental safety, waste management and handling, on-farm waste reuse, and agricultural waste value addition. It provides key aspects of emerging technologies and their applications in the domain of agriculture waste management.

This book and its 2 sister books (Volumes 2 and 3) of the Handbook of Environmental Engineering (HEE) series have been designed to serve as a mini-series covering agricultural and green biotechnologies. It is expected to be of value to advanced undergraduate and graduate students, to designers of sustainable biological resources systems, and to scientists and researchers. The aim of these books is to provide information on treatment and management of agricultural, pharmaceutical and food wastes and to serve as a basis for advanced study or specialized investigation of the theory and analysis of various integrated environmental control and waste recycle systems. Volume 1 covers topics on: treatment and management of livestock wastes; waste treatment in the pharmaceutical biotechnology industry using green environmental technologies; vermicomposting process for treating agricultural and food wastes; the impacts of climate change on agricultural, food, and public utility industries; innovative PACT activated sludge, CAPTOR activated sludge, activated bio-filter, vertical loop reactor, and PHOSTRIP processes; agricultural waste treatment by water hyacinth aquaculture, wetland aquaculture, evapotranspiration, rapid rate land treatment , slow rate land treatment, and subsurface infiltration; production and applications of crude polyhydroxyalkanoate-containing bioplastic from agricultural and food-processing wastes; optimization processes of biodiesel production from pig and neem seeds blend oil using alternative catalysts from waste biomass; making castor oil a promising source for the production of flavor and fragrance through lipase mediated biotransformation; and waste treatment and minimization in baker's yeast industry.

Biorefinery of Industrial Effluents for a Sustainable Circular Economy provides a combined approach on environmental engineering, which involves the improvement of the natural environment or remediation of polluted sites. In addition, it discusses bioprocess engineering involving the development of processes for the manufacture of products from biological materials to produce a valuable bioproduct. It covers sources, impacts, and applications of industrial effluents that could potentially be used as feedstock for the IEB with examples of applied research that demonstrates the relationship between the effluents, biorefinery, treatment and bioproduct recovery. Materials that can be produced from IEB and the treatment processes for such are considered.

Environmental Materials and Waste: Circular Economy and Pollution Abatement, Second Edition, contains the latest information on environmental sustainability as a wide variety of natural resources are increasingly being exploited to meet the demands of a worldwide growing population and economy. The book takes a multidisciplinary approach to fully realize the number of by-products which can be remanufactured, providing the foundation needed across disciplines to tackle this issue. As awareness and opportunities to recover valuable resources from process and bleed streams is gaining interest, sustainable recovery of environmental materials, including wastewater, offers tremendous opportunity to combine profitable and sustainable production. In this 2nd edition, operational principles of circular economy for sustainable development with reference to environmental waste shall be covered. Circular economy research is discussed in depth as it has gained considerable momentum in the scientific literature thus far, and both conceptual debates and the creation of useful implementation strategies are still in their infancy. Although circular systems are now being implemented, this book will emphasize the importance to properly consider and convert circular economy goals and principles into actions. As a whole, this 2nd edition of Environmental Materials and Waste covers a wide range of issues that must be covered in order to improve environmental sustainability.

This proposed book chapter is expected to provide the readers with wide aspects of green technologies for industrial waste remediation. The first chapter is dedicated to the introduction to the title of the book. The chapter discusses various green technologies for industrial waste remediation. After that, the second chapter emphasizes the different types of applications of microorganisms in industrial waste treatment. After that, chapters emphasize the specific area of the title, including the micro and nanofiltration technology for the treatment of industrial wastewater, methods for the recovery and removal of heavy metals from industrial effluents, algal photobioreactor technology for industrial wastewater treatment, carbon capture and energy recovery, bioremediation of radioactive wastes, membrane-based technologies for industrial waste management, valorization of agro-industrial wastes for biorefinery products, bioaccumulation and detoxification of metals through genetically engineered microorganism, application of biochar in waste remediation, constructed wetlands for industrial wastewater remediation, bioelectrochemical treatment of recalcitrant pollutants, microplastics, petrochemicals including BTEX, applications of biosorbents in industrial wastewater treatment, Microbial biofilm reactor for sustainable wastewater treatment, dye adsorption and degradation using microbial consortium, sustainable treatment of endocrine disruptive chemicals released from industries, biological nanomaterials for industrial wastewater management, vermifiltration as a natural, cost-effective and green technology for biomanagement of industrial wastewater, biocatalytic remediation of industrial pollutants, and green treatment of poly aromatic hydrocarbons released from industrial waste. All the chapters cover various aspects of sustainable management of industrial wastes covering relevant literature and data.Further, this book discusses the various advanced techniques/methods adopted for the enhancement of waste management, like the application of nanoparticles. This book discusses other related topics such as algal photobioreactors for carbon dioxide sequestration. Further, chapters are included to discuss about life cycle assessment of the wastewater treatment tools and commercialization aspects.

This book discusses the key problems and solutions with various applicable approaches to combat antibiotic-resistant genes in industrial waste water. Several genes are selected within the chapters to illustrate the past and future roles of molecular ecophysiology and genomics in the development of wastewater microbiology as an important subdiscipline of microbial ecology. As we have very limited knowledge of composition, dynamics and stability of microbial communities, various processes in wastewater treatment have been generally considered to be "black box." In recent years, with the development of several new high throughput sequencing platforms, metagenome sequencing strategies and bioinformatics toolboxes, the analysis of the genome of complex communities has become much more accessible and means easier.The opening of the biological wastewater treatment ¿black box¿ is not the unpleasant experience it was before. The viable, but not cultural, ceases tobe the inconsequential, uncharacterizable enigma that existed today. Metagenomics leads the way for more specific studies in related fields. Finally, genomic studies of wastewater treatment microbes, in addition to their biotechnological applications, are also an excellent testing ground for variety of other ecological and environmental burns questions. Wastewater treatment plants are considered hotspots for the environmental dissemination of antimicrobial-resistant determinants. Comparative genomics of antibiotic resistant genes isolated from conventional activated sludge and biological aerated filter wastewater treatment plants is discussed.

Water chemistry, water sources, water pollutants, and microbiological contaminants are all covered in the book. The basic concepts of water chemistry are well taught. Along with stormwater management and green infrastructure, the book also examines the theoretical underpinnings of a number of water treatment and analysis procedures. Graduate and advanced undergraduate students, environmental researchers, chemists, and lab technicians who work in water and environmental laboratories could all benefi t from this book. Chemical engineers and operators are the primary target audience for the majority of books on the market, thus both technicians and chemists can gain a lot from this book.

Environmental Approach to Remediate Refractory Pollutants from Industrial Wastewater Treatment Plants discusses the emerging trends in the bioremediation of hazardous pollutants found in wastewater, including the fate of pollutants produced after the treatment process both at the laboratory scale and at the industrial scale. Describing a broad area of biological processes and water research - considered key components for advanced water purification - it also includes the desalination technologies that remove, reduce, or neutralize water contaminants that threaten human health.Exploring the unique biological aspects of the wastewater treatment process, the book highlights the advantages they provide for engineering applications in industry, with each chapter covering a different biological-based approach, examining the basic principles, practical applications, recent breakthroughs and associated limitations.

Emerging Innovative Trends in the Application of Biological Processes for Industrial Wastewater Treatment discusses new and emerging innovative trends in the application of biological processes in industrial wastewater treatment. The book also includes the fate of chemicals produced after the treatment process both at the laboratory scale and at the industrial scale, explores the unique biological aspects of the wastewater treatment process, and highlights the advantages they provide for engineering applications in the industries. Each chapter covers a different biological-based approach and examines the basic principles, practical applications, recent breakthroughs, and associated limitations.In addition, it also provides in-depth knowledge on the biological process for application in wastewater research which presents an array of cutting-edge wastewater treatment research and thereafter its applications in treatment, remediation, sensing, and pollution prevention processes which has a significant impact on maintaining the long-term quality, availability, and viability of water.

Microbial Metagenomics in Effluent Treatment Plant introduces a metagenomic approach characterizing microbial communities¿in industrial wastewater treatment, providing an overall picture of metagenomics, its application, processes, and future prospects in the field of bioremediation. It also discusses culture-dependent methods, culture-independent methods, and¿enzymatic methods¿used to estimate bacterial diversity to monitor temporal and spatial changes in bacterial communities. In addition, a metagenomic approach id discussed to characterize the microbial communities in industrial wastewater treatment. Researchers, scientists, professors, and students in environmental engineering, applied microbiology, and water treatment will find this book helpful in understanding the importance and role of metagenomics in biogeochemical cycles, degradation, and detoxification of environmental pollutants.

This book aims at presenting a unified framework for the description of working principles, recent advances and applications of cutting-edge measurement technologies for the water sector. Instrumentation and measurement technologies are currently playing a key role in the monitoring, assessment and protection of environmental resources. Measurement techniques and sensing methods for the observation of water systems are rapidly evolving and are requiring an increased multi-disciplinary participation.The whole water sector is characterised by multiple technological contexts concerning the monitoring of the resource, given the broad coverage that includes water from its natural domains to the men-made infrastructures. In particular, instrumentation and measurement technologies have a pervasive presence in all the necessary aspects for the assessment, monitoring and control of the water resource and of its relationship with the various environmental stressors, including the anthropic pressures.Therefore, the book aims at presenting how the diagnostics/monitoring methodologies and the related technologies can give an answer to the issues raised by the complex scenario characterising the water cycle management (WCM). The book is structured in five topical sections, grouped by similarity of their technological and/or applicative contexts.

This book provides a comprehensive overview of recent developments to valorize fish waste as a source of useful products. In the first few chapters, an introductory section unearths global fish waste production, its detrimental effects and its role in the circular economy. The next section of the book discusses recent applications of fish waste and by-products utilization for the production of useful products such as fertilizers, biogas, biodiesel, fish sauce, enzymes and many more. This book will serve as an important source of recent research developments and applications of fish waste generated at different stages of fish processing. This book will also act as an important reference to the research group conducting research on fish and fish by-product utilization and valorization.

This book discusses selected waste and by-products of the food industry. Two commonly used methods of managing these are discussed: anaerobic digestion and composting. The book reviews current research and also brings in the author¿s own research insights to the discussion. The book is aimed at food industry specialists, waste management specialists, scientists, and students. However, the book describes problems in an accessible way, which will make this book useful for beginners in the waste/biogas/composting sector.

This book describes emerging and established industrial processes of biomining technologies used for the recovery of metals of economic interest from, e.g. mineral ores, mining and electronic wastes using microbiological technologies. Multiple chapters focus on engineering design and operation of biomining systems. Several industrial case studies from China, Chile, Peru, Russia/Kazakhstan and Finland are included, which emphasises the practical approach of the book. The reader not only learns more about the biology, diversity and ecology of microorganisms involved in biomining processes, but also about microbial biomolecular and cultivation tools used in the biomining industry. Special emphasis is put on emerging biotechnologies enabling the use of biomining for recycling metals from e-wastes, waste streams and process waters. Finally, the future impacts and direction of biomining towards sustainability in a metal-demanding world are also highlighted.The book is aimed at an interdisciplinary audience involving operators and researchers working across disciplines including geology, chemical engineering, microbiology and molecular biology. This is reflected by the content of this book, as well as by its authors, who are all leading practitioners and authorities in their fields.

This concise text provides the concepts, methods, and application examples for integrating sustainability into engineering design and production. It discusses the role of sustainability in the value creation processes of various enterprises and different tools and methods for systematic incorporation of social and environmental aspects into the product's life cycle. The following topics are covered: sustainable development in engineering systems and the life cycle concept, norms and standards in the sustainable development and integration of socio-economic assessment into technical valuation, production systems, management of the production systems based on circular economy principles, ecodesign practices, and value creation and innovative design in the circular economy.Provides a concise guide for engineering students for applying circular economy practicesPresents examples and short case studies for understanding the methods and toolsFacilitates understanding and application of the life cycle perspective in product manufacturing and green engineering

This book addresses the growing need for a standard textbook on input-output analysis (IO) within the context of industrial ecology (IE). IE is a discipline dedicated to providing system-wide, quantitative, and science-based solutions for sustainable development challenges, and its global importance has been rapidly increasing. The primary analytical tools of IE are life-cycle assessment (LCA) and material flow analysis (MFA). IO has been widely utilized for LCA since the late 1990s and is increasingly being applied to MFA as well. This trend is being driven by the greater availability and application of global IO data, which now includes an ever-expanding number of countries and regions. Despite the presence of excellent textbooks on IO and IE individually, there is a lack of resources that integrate these two fields. This book seeks to fill that gap by focusing on the practical application of IO to IE, specifically in the context of LCA and MFA. By combining these methodologies, readers can gain valuable insights into sustainable development issues and contribute to more effective solutions in the field of IE.

This book gives an overview of electronic waste (e-waste) management and the latest technological aspects of recycling and disposal of obsolete electronic components while minimizing the environmental impact of toxic chemicals and heavy metals from e-waste. As electronics become more accessible worldwide, this effect generates up to 50 tonnes of e-waste that is only set to increase every year. The chapters in this book explore different strategies through recycling practices, green computing, and eco-friendly approach in handling e-waste through government policies to mitigate the growing side effects of e-waste. This book caters to researchers, policymakers, and industrial practitioners who are interested in more sustainable practices in e-waste management.  

Carbon dioxide has great importance as a greenhouse gas in the atmosphere and as a carbonic acid system in water. Since the CO2 in the two spheres of air and water is connected by gas exchange, these spheres cannot be considered separately. The basics of the systems are covered, the role as a greenhouse gas, the carbon cycles, and the solution in water. The carbonic acid system in water and the importance of lime are presented in detail. The occurrence in the natural water cycle as well as in raw waters for drinking water treatment and the corresponding treatment processes for drinking water are also described.Sample calculations for the aqueous phase supplement the theoretical considerations. The required constants are attached in tables. Chemical fundamentals are presented in brief in conclusion.

Zero Waste Manufacturing: Recent Advancements in Sustainable Manufacturing, addresses processes and practices for zero waste manufacturing to promote a more sustainable society and provides readers with a proper understanding of the most recent advances for solving waste management issues. The book covers numerous mechanisms supported by scientific evidence and case studies that will help the administrations and technological professions in adopting the best possible methodology at grassroot levels and various interdisciplinary approaches towards sustainable development.