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This book presents an overview of municipal solid waste recycling, and how it can be used to generate clean power, transport fuels that can substitute fossil fuels, and value-based chemicals with minimal environmental impact. It also explains how hazardous wastes and sewage sludge can be treated and disposed of without affecting human and environmental health. A full discussion of established thermal conversion technologies that generate heat, electricity, liquid fuels and useful chemicals from solid waste and supporting case studies describing global waste-to-energy plants in operation make this work highly suited to an introductory course on waste thermal conversion processes.
Increasing global consumerism and population has led to an increase in the levels of waste produced. While integrated waste management practices help to divert as much of the mixed general waste back to be recycled or reused as possible, there are limited options available for residual wastes. Energy recovery represents an additional option in support of an improved and sustainable waste management hierarchy. Rather than sending residual wastes direct to landfill, advanced conversion technologies coupled with advanced pollution control systems can be employed to convert these calorific materials into clean energy. These systems can be integrated into buildings, distributed energy networks and even national electricity grids, allowing for residual wastes to play an important role in local energy supply and wider energy security. The editors and contributors provide an integrated, comprehensive reference on waste to energy (WTE) conversion technology. Introductory chapters review the waste hierarchy and WTE systems options along with the corresponding environmental, regulatory and techno-economic issues facing this technology. This coverage is extended with reviews of the development of WTE systems, from initial processing and pretreatment of wastes onto the range of combustion and advanced conversion and energy recovery technologies, including anaerobic digestion routes that can also utilize landfill gas. The final section reviews the highly developed pollution controls applicable to these systems, as well as routes to optimize overall systems performance and approaches to integrate WTE technology into local power and heat networks.
Through Waste-to-Energy (WtE) technology, plants use waste as a renewable fuel to co-produce electricity, heating, and cooling for urban utilization. This professional book presents the latest developments in WtE technologies and their global applications. The first part of the book covers thermal treatment technologies, including combustion, novel gasification, plasma gasification, and pyrolysis. It then examines 35 real-world WtE case studies from around the world, analyzing technical information behind planning, execution, goals, and national strategies. Results through the years show the benefits of the technology through the life cycle of the products. The book also examines financial and environmental aspects.
"Thermal Energy Waste Recovery Technologies and Systems comprehensively covers thermal energy recovery technologies and systems. It considers thermal sources, working principles, products, application status, prospects, and challenges. In an effort to achieve energy security, carbon neutralization, and sustainable development, the book discusses waste recovery from thermal energy technologies and systems from varying temperatures. The book features case studies of advanced multi-generation systems for different industrial applications. The book is intended for senior undergraduate and graduate mechanical engineering students taking courses in thermal energy, energy systems, and renewable energy, as well as researchers studying thermal energy utilization, low-carbon technologies, thermal dynamic analysis, and energy system design"--
Energy conversion technology has always been a main focus for researchers in order to meet the increasing demand as well as securing a clean, consistent and reliable energy supply. The constantly rising fuel price is another good reason to develop alternative systems such as wind turbines, hydropower, photovoltaic systems and other renewable energy solutions. This book contains a collection of selected research works in the areas of electric energy generation, renewable energy sources, hybrid system, electromechanical energy conversion, electric machines, power electronic converters and inverters, energy storage, smart grid and traditional energy conversion systems. The book intends to provide academic and industry professionals working in the field of energy conversion and related applications with an update in energy conversion technology, particularly from the applied perspective.