Sustainable Energy Conversion for Electricity and Coproducts

Sustainable Energy Conversion for Electricity and Coproducts

Author: Ashok Rao

Publisher: John Wiley & Sons

Published: 2015-04-17

Total Pages: 436

ISBN-13: 1119064554

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Sustainable Energy Conversion for Electricity and Coproducts Comprehensive and a fundamental approach to the study of sustainable fuel conversion for the generation of electricity and for coproducing synthetic fuels and chemicals Both electricity and chemicals are critical to maintain our modern way of life; however, environmental impacts have to be factored in to sustain this type of lifestyle. Sustainable Energy Conversion for Electricity and Coproducts provides a unified, comprehensive, and a fundamental approach to the study of sustainable fuel conversion in order to generate electricity and optionally coproduce synthetic fuels and chemicals. The book starts with an introduction to energy systems and describes the various forms of energy sources: natural gas, petroleum, coal, biomass, and other renewables and nuclear. Their distribution is discussed in order to emphasize the uneven availability and finiteness of some of these resources. Each topic in the book is covered in sufficient detail from a theoretical and practical applications standpoint essential for engineers involved in the development of the modern power plant. Sustainable Energy Conversion for Electricity and Coproducts features the following: Discusses the impact of energy sources on the environment along with an introduction to the supply chain and life cycle analyses in order to emphasize the holistic approach required for sustainability. Not only are the emissions of criteria pollutants addressed but also the major greenhouse gas CO2 which is essential for the overall sustainability. Deals with underlying principles and their application to engineering including thermodynamics, fluid flow, and heat and mass transfer which form the foundation for the more technology specific chapters that follow. Details specific subjects within energy plants such as prime movers, systems engineering, Rankine cycle and the Brayton–Rankine combined cycle, and emerging technologies such as high-temperature membranes and fuel cells. Sustainable energy conversion is an extremely active field of research at this time. By covering the multidisciplinary fundamentals in sufficient depth, this book is largely self-contained suitable for the different engineering disciplines, as well as chemists working in this field of sustainable energy conversion.


Advanced Ceramics for Energy Conversion and Storage

Advanced Ceramics for Energy Conversion and Storage

Author: Olivier Guillon

Publisher: Elsevier

Published: 2019-11-20

Total Pages: 750

ISBN-13: 0081027842

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In order to enable an affordable, sustainable, fossil-free future energy supply, research activities on relevant materials and related technologies have been intensified in recent years, Advanced Ceramics for Energy Conversion and Storage describes the current state-of-the-art concerning materials, properties, processes, and specific applications. Academic and industrial researchers, materials scientists, and engineers will be able to get a broad overview of the use of ceramics in energy applications, while at the same time become acquainted with the most recent developments in the field. With chapters written by recognized experts working in their respective fields the book is a valuable reference source covering the following application areas: ceramic materials and coatings for gas turbines; heat storage and exchange materials for solar thermal energy; ceramics for nuclear energy; ceramics for energy harvesting (thermoelectrics, piezoelectrics, and sunlight conversion); ceramic gas separation membranes; solid oxide fuel cells and electrolysers; and electrochemical storage in battery cells. Advanced Ceramics for Energy Conversion and Storage offers a sound base for understanding the complex requirements related to the technological fields and the ceramic materials that make them possible. The book is also suitable for people with a solid base in materials science and engineering that want to specialize in ceramics. - Presents an extensive overview of ceramic materials involved in energy conversion and storage - Updates on the tremendous progress that has been achieved in recent years - Showcases authors at the forefront of their fields, including results from the huge amount of published data - Provides a list of requirements for the materials used for each energy technology - Includes an evaluation and comparison of materials available, including their structure, properties and performance


Plant Biotechnology for Sustainable Production of Energy and Co-products

Plant Biotechnology for Sustainable Production of Energy and Co-products

Author: Peter N. Mascia

Publisher: Springer Science & Business Media

Published: 2010-09-15

Total Pages: 462

ISBN-13: 3642134408

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This book is a collection of chapters concerning the use of biomass for the sustainable production of energy and chemicals–an important goal that will help decrease the production of greenhouse gases to help mitigate global warming, provide energy security in the face of dwindling petroleum reserves, improve balance of payment problems and spur local economic development. Clearly there are ways to save energy that need to be encouraged more. These include more use of energy sources such as, among others, manure in anaerobic digesters, waste wood in forests as fuel or feedstock for cellulosic ethanol, and conservation reserve program (CRP) land crops that are presently unused in the US. The use of biofuels is not new; Rudolf Diesel used peanut oil as fuel in the ?rst engines he developed (Chap. 8), and ethanol was used in the early 1900s in the US as automobile fuel [Songstad et al. (2009) Historical perspective of biofuels: learning from the past to rediscover the future. In Vitro Cell Dev Biol Plant 45:189–192). Brazil now produces enough sugar cane ethanol to make up about 50% of its transportation fuel needs (Chap. 4). The next big thing will be cellulosic ethanol. At present, there is also the use of Miscanthus x giganteous as fuel for power plants in the UK (Chap. 2), bagasse (sugar cane waste) to power sugar cane mills (Chap. 4), and waste wood and sawdust to power sawmills (Chap. 7).


Sustainable Food Waste-to-Energy Systems

Sustainable Food Waste-to-Energy Systems

Author: Thomas Trabold

Publisher: Academic Press

Published: 2018-09-05

Total Pages: 294

ISBN-13: 0128111585

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Sustainable Food Waste-to-Energy Systems assesses the utilization of food waste in sustainable energy conversion systems. It explores all sources of waste generated in the food supply chain (downstream from agriculture), with coverage of industrial, commercial, institutional and residential sources. It provides a detailed analysis of the conventional pathways for food waste disposal and utilization, including composting, incineration, landfilling and wastewater treatment. Next, users will find valuable sections on the chemical, biochemical and thermochemical waste-to-energy conversion processes applicable for food waste and an assessment of commercially available sustainable food waste-to-energy conversion technologies. Sustainability aspects, including consideration of environmental, economic and social impacts are also explored. The book concludes with an analysis of how deploying waste-to-energy systems is dependent on cross-cutting research methods, including geographical information systems and big data. It is a useful resource for professionals working in waste-to-energy technologies, as well as those in the food industry and food waste management sector planning and implementing these systems, but is also ideal for researchers, graduate students, energy policymakers and energy analysts interested in the most recent advances in the field. - Provides guidance on how specific food waste characteristics drive possible waste-to-energy conversion processes - Presents methodologies for selecting among different waste-to-energy options, based on waste volumes, distribution and properties, local energy demand (electrical/thermal/steam), opportunities for industrial symbiosis, regulations and incentives and social acceptance, etc. - Contains tools to assess potential environmental and economic performance of deployed systems - Links to publicly available resources on food waste data for energy conversion


Biorefinery Co-Products

Biorefinery Co-Products

Author: Chantal Bergeron

Publisher: John Wiley & Sons

Published: 2012-04-23

Total Pages: 383

ISBN-13: 0470973579

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In order to successfully compete as a sustainable energy source, the value of biomass must be maximized through the production of valuable co-products in the biorefinery. Specialty chemicals and other biobased products can be extracted from biomass prior to or after the conversion process, thus increasing the overall profitability and sustainability of the biorefinery. Biorefinery Co-Products highlights various co-products that are present in biomass prior to and after processing, describes strategies for their extraction , and presents examples of bioenergy feedstocks that contain high value products. Topics covered include: Bioactive compounds from woody biomass Phytochemicals from sugar cane, citrus waste and algae Valuable products from corn and other oil seed crops Proteins from forages Enhancing the value of existing biomass processing streams Aimed at academic researchers, professionals and specialists in the bioenergy industry, Biorefinery Co-Products is an essential text for all scientists and engineers working on the efficient separation, purification and manufacture of value-added biorefinery co-products. For more information on the Wiley Series in Renewable resources, visit www.wiley.com/go/rrs


The Economic Utilisation of Food Co-Products

The Economic Utilisation of Food Co-Products

Author: Abbas Kazmi

Publisher: Royal Society of Chemistry

Published: 2013

Total Pages: 247

ISBN-13: 1849736154

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No longer considered simply as "waste", many food co-products are being identified as economically-viable raw materials and their potential is enhanced by modern processing technologies and the biorefinery concept.


Sustainability Engineering

Sustainability Engineering

Author: Eric C.D. Tan

Publisher: CRC Press

Published: 2023-08-11

Total Pages: 359

ISBN-13: 1000914143

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Sustainability Engineering: Challenges, Technologies, and Applications focuses on emerging topics within sustainability science and engineering, including the circular economy, advanced recycling technologies, decarbonization, renewable energy, and waste valorization. Readers will learn the trends driving today’s sustainability research and innovation as well as the latest in sustainable process technologies. This book: Addresses emerging sustainability development challenges, progress, and disruptive technologies Discusses biological sustainability, recycling technologies, and sustainable process design and manufacture Features a comprehensive view from renowned experts who are leaders in their respective research areas This work is aimed at an interdisciplinary audience of engineers and scientists working on solutions to advance the development and application of sustainable technologies, including – but not limited to – chemical and environmental engineers.


Handbook of Sustainable Energy

Handbook of Sustainable Energy

Author: Ibon Galarraga

Publisher: Edward Elgar Publishing

Published: 2011

Total Pages: 625

ISBN-13: 0857936387

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Ô. . . was impressed by the scope of the contributions and their clarity. All appear to have been written specifically for this ÒHandbookÓ and all are readily comprehensible without a large amount of assumed previous knowledge. . . a very useful source document and many of the chapters represent a good starting point for student research projects.Õ Ð Tony Owen, Economics of Energy and Environmental Policy ÔIn todayÕs modern world where energy resources are increasingly scarce, climate change is a hot-button issue, and population growth continues to push the need to promote sustainable living, Handbook of Sustainable Energy is highly recommended as an absolutely invaluable contribution to graduate school libraries and the pool of literature available to professionals in the field.Õ Ð The Midwest Book Review Major contemporary issues and debates relating to the sustainable use of energy are addressed in this far-reaching Handbook. The contributing authors discuss the ongoing debates about sustainability and energy use, energy economics, renewable energy, efficiency and climate policy. New and original chapters from leading academics cover the full spectrum of relevant research including: definitions of sustainability in energy use; consumer behaviour and energy markets; the impacts of innovation and new technologies; energy economics and climate modelling; low carbon economies and renewable energies. The authors critically engage with perspectives from developed and developing countries from both global and regional standpoints. This Handbook will make a timely and important contribution to the study of energy, climate change and climate economics, and will prove essential reading for international researchers in the fields of natural resources, climate change and energy. Students in environmental science faculties, economics departments, business schools and engineering schools will also find this important and enriching compendium insightful. Similarly, policy-makers in energy and environment ministries and international organizations will find much topical debate to engage them.