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Recoge:1. Introducing the EU biofuels directive - 2. Cleaner transport-the wider context - 3. What are biofuels? - 4. Biofuels-the journey so far - 5. The EU directive on biofules - Steering future policy developments.
Biofuels for a More Sustainable Future: Life Cycle Sustainability Assessment and Multi-criteria Decision Making provides a comprehensive sustainability analysis of biofuels based on life cycle thinking and develops various multi-dimensional decision-making techniques for prioritizing biofuel production technologies. Taking a transversal approach, the book combines life cycle sustainability assessment, life cycle assessment, life cycle costing analysis, social life cycle assessment, sustainability metrics, triple bottom line, operations research methods, and supply chain design for investigating the critical factors and key enablers that influence the sustainable development of biofuel industry. This book will equip researchers and policymakers in the energy sector with the scientific methodology and metrics needed to develop strategies for viable sustainability transition. It will be a key resource for students, researchers and practitioners seeking to deepen their knowledge on energy planning and current and future trends of biofuel as an alternative fuel. - Provides an innovative approach to promoting sustainable development in biofuel production by linking supply chain design and decision support with the life cycle perspective - Features case studies and examples that illustrate the theory and methods developed - Includes material on corporate social responsibility and economic analysis of biofuels that is highly useful to policy-makers and administrators in both government and enterprise sectors
In recent years, there has been increasing recognition of the need for sound regulatory frameworks for bioenergy. Faced with high petroleum and natural gas prices, and increasingly aware of climate change and environmental concerns, many countries are implementing national policies and legislation to encourage bioenergy production and use. These developments stem from the desire to achieve energy security and self-sufficiency, the need to reduce reliance on foreign fossil fuel reserves and the hope of providing increased trade opportunities for some agricultural commodities. Land use, and the competing needs of energy and food security are key issues in the bioenergy debate. International and national regulatory frameworks will have to establish clear guidelines for the sustainable development of the bioenergy industry. This paper aims to stimulate discussion on the elements of appropriate national legal frameworks for bioenergy, particularly in developing countries. It provides legislators and policy-makers with a tool to assist in identifying areas of law which may affect bioenergy regulation, and in designing key elements of national bioenergy laws.
Biofuel is a non polluting, locally available, accessible, sustainable and reliable fuel obtained from renewable sources. In order to deliberate the key issues by scientific and research community and industry to accelerate the growth of biofuel industry, Tropical Forest Research Institute, Jabalpur organized a National Conference on "Biofuels: Potential and Challenges" from 25 - 26 February, 2009. The conference has bought together researchers, policy makers, industries and all other stakeholders so that productive discussions can take place on how best to meet India's growing biofuel needs. This book is a edited collection of papers presented during the conference, published in the form of proceedings.
This book aims to inform readers about the recent developments in bioenergy and biofuels covering current issues from an interdisciplinary approach. It will also feature coverage of anticipated future trends related to each particular biofuel. Chapters will consist of original research presented by world class experts in their respective fields. A number of interdisciplinary areas will be incorporated such as Energy & Fuels, Biotechology, Genomics, Economics, Optimization, Chemical Engineering, Mechanical Engineering and Algae Science. Examples will relate to a matrix of biofuel and energy types such as bioethanol, biobutanol, and biomethane.
Sustainable Biofuels: Opportunities and challenges, a volume in the "Applied Biotechnology Reviews series, explores the state-of-the-art in research and applied technology for the conversion of all types of biofuels. Its chapters span a broad spectrum of knowledge, from fundamentals and technical aspects to optimization, combinations, economics, and environmental aspects. They cover various facets of research, production, and commercialization of bioethanol, biodiesel, biomethane, biohydrogen, biobutanol, and biojet fuel. This book discusses biochemical, thermochemical, and hydrothermal conversion of unconventional feedstocks, including the role of biotechnology applications to achieve efficiency and competitiveness. Through case studies, techno-economic analysis and sustainability assessment, including life cycle assessment, it goes beyond technical aspects to provides actual resources for better decision-making during the development of commercially viable technology by researchers, PhD students, and practitioners in the field of bioenergy. It is also a useful resource for those in adjacent areas, such as biotechnology, industrial microbiology, chemical engineering, environmental engineering, and sustainability science, who are working on solutions for the bioeconomy. The ability to compare different technologies and their outcome that this book provides is also beneficial for energy analysts, consultants, planners, and policy-makers. The "Applied Biotechnology Reviews series highlights current development and research in biotechnology-related fields, combining in single-volume works the theoretical aspects and real-world applications for better decision-making. - Covers current technologies and advancements in biochemical, thermochemical, and hydrothermal conversion methods for production of various types of biofuels from conventional and nonconventional feedstock - Examines biotechnology processes, including genetic engineering of microorganisms and substrates, applied to biofuel production - Bridges the gap between technology development and prospects of commercialization of bioprocesses, including policy and economics of biofuel production, biofuel value chains, and how to accomplish cost-competitive results and sustainable development
This open access book presents a comprehensive analysis of biofuel use strategies from an interdisciplinary perspective using sustainability science. This interdisciplinary perspective (social science-natural science) means that the strategies and policy options proposed will have significant impacts on the economy and society alike. Biofuels are expected to contribute to reducing greenhouse gas emissions, revitalizing economies in agricultural communities and alleviating poverty. However, despite these anticipated benefits, international organizations such as the FAO, OECD and UN have published reports expressing concerns that biofuel promotion may lead to deforestation, water pollution and water shortages. The impacts of biofuel use are extensive, cross-sectoral and complex, and as such, comprehensive analyses are required in order to assess the extent to which biofuels can contribute to sustainable societies. Applying interdisciplinary sustainability science concepts and methodologies, the book helps to enhance the establishment of a sustainable society as well as the development of appropriate responses to a global need for urgent action on current issues related to biofuels.
The world is on the verge of an unprecedented increase in the production and use of biofuels for transport. The combination of rising oil prices, issues of security, climate instability and pollution, deepening poverty in rural and agricultural areas, and
Biofuel is a renewable energy source produced from natural materials. The benefits of biofuels over traditional petroleum fuels include greater energy security, reduced environmental impact, foreign exchange savings, and socioeconomic issues related to the rural sector. The most common biofuels are produced from classic food crops that require high-quality agricultural land for growth. However, bioethanol can be produced from plentiful, domestic, cellulosic biomass resources such as herbaceous and woody plants, agricultural and forestry residues, and a large portion of municipal and industrial solid waste streams. There is also a growing interest in the use of vegetable oils for making biodiesel. “Biofuels: Securing the Planet’s Future Energy Needs” discusses the production of transportation fuels from biomass (such as wood, straw and even household waste) by Fischer-Tropsch synthesis. The book is an important text for students and researchers in energy engineering, as well as professional fuel engineers.
Examining the relationship between biofuels and food security, this book presents an economic analysis of the competition between biofuels and food. It covers the historical and current situation of biofuels and food security in Brazil, China, Japan, USA, EU, Thailand, India, Indonesia, Malaysia, Philippines and other countries. Furthermore it demonstrates that not only feedstock of agricultural product-based biofuels, but also cellulose-based biofuels can compete with food-related demand and agricultural resources. The issue of whether this competition is good or bad for food security is explored, and this topic is examined at global, national, sub-national and household levels. In order to deal with energy security, to reduce greenhouse gas emissions, and to strengthen agricultural/rural development, biofuel production and utilization is increasing all over the world. One of the most crucial problems is the competition for resources between biofuel and food. This biofuel and food security discussion is expected to continue into the future, and this book proposes the action that is needed to deal with this issue on various levels. Biofuel and Food Security provides a valuable resource to undergraduates and researchers of economics, agricultural economics and renewable science, and also policy makers involved in government or international organizations. It will additionally be of interest to those employed in renewable energy and agriculture in an industrial capacity.