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Bioenergy Options for a Cleaner Environment describes the biomass resource and its delivery. A panel of international experts describe the range of conversion technologies both commercially available and under development, and explore the technical, environmental and socio-economic barriers and benefits of using biomass in both developed and developing countries. - Covers a number of perspectives, taking the reader through the whole process from the bioenergy resource through conversion to fuel, to policy issues - World class Editor and contributors - Accessible and useful to those working in agriculture, forestry and planning, as well as energy researchers
Today, the effect of global climate change is clear to all. It is clearly dangerous in developing countries such as Bangladesh. The industrial revolution caused major changes in technology, socio-economy and cultures in the late 18th and early 19th century, beginning in Britain and spreading throughout the world. The technology dominated economy was mostly dependent on energy produced from fossil fuel, which still holds true today. It is well known that fossil fuel burning has increased the GHGs to the atmosphere, thus creating global warming. Among the GHGs, the concentration of CO2 has been confirmed as the largest. Terrestrial ecosystems are clearly influencing the concentration of GHGs in the atmosphere. Greenhouse gases are constantly entering and leaving the atmosphere. Actively growing trees and other plants absorb CO2 from the atmosphere, combine it with water through photosynthesis and create sugars and more stable carbohydrates. Through this process, trees capture and store atmospheric CO2 in vegetation, soils and biomass products. The Kyoto Protocol, in 1997, explored a flexible mechanism, CDM (Clean Development Mechanism) where Annex I and non-Annex I parties interact for climate change mitigation. Forestry activities have been considered important in the arena of climate change as they act both as a sink and sources of carbon. The purpose of this book is to highlight the means of efficiently reducing global warming through forestry options in Bangladesh and the positive implications of CDM.
The Climate Change 2007 volumes of the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC) provide the most comprehensive and balanced assessment of climate change available. This IPCC Working Group III volume provides a comprehensive, state-of-the-art and worldwide overview of scientific knowledge related to the mitigation of climate change. It includes a detailed assessment of costs and potentials of mitigation technologies and practices, implementation barriers, and policy options for the sectors: energy supply, transport, buildings, industry, agriculture, forestry and waste management. It links sustainable development policies with climate change practices. This volume will again be the standard reference for all those concerned with climate change, including students and researchers, analysts and decision-makers in governments and the private sector.
Encyclopedia of Sustainable Technologies, Eight Volume Set provides an authoritative assessment of the sustainable technologies that are currently available or in development. Sustainable technology includes the scientific understanding, development and application of a wide range of technologies and processes and their environmental implications. Systems and lifecycle analyses of energy systems, environmental management, agriculture, manufacturing and digital technologies provide a comprehensive method for understanding the full sustainability of processes. In addition, the development of clean processes through green chemistry and engineering techniques are also described. The book is the first multi-volume reference work to employ both Life Cycle Analysis (LCA) and Triple Bottom Line (TBL) approaches to assessing the wide range of technologies available and their impact upon the world. Both approaches are long established and widely recognized, playing a key role in the organizing principles of this valuable work. Provides readers with a one-stop guide to the most current research in the field Presents a grounding of the fundamentals of the field of sustainable technologies Written by international leaders in the field, offering comprehensive coverage of the field and a consistent, high-quality scientific standard Includes the Life Cycle Analysis and Triple Bottom Line approaches to help users understand and assess sustainable technologies
Environmental and energy dependency problems derived from high fossil fuels consumption have made necessary the development of new energy models to be renewable and sustainable, efficient, practical and economical, and cost effective, to meet the demand for a sustainable energy supply. Among renewable resources, biomass is destined to play an important role in these new energy models since agricultural and forestry residues are an energy resource which is produced in relatively large amounts throughout the world and regarded as a renewable and environmentally safe way of providing energy. Compiling information on the conversion of energy from biomass, the book focuses on the use of pellets as homogeneous solid biofuels. It describes all the changes that forestry and agricultural biomass undergo to be converted into thermal energy and analyses the inputs and outputs of the process. It has to be noted that the standards used as guidelines and references in all the chapters of the book are there in order to not to forget the thresholds and guidelines established and thus to ensure a proper use. This book guides the reader through the entire biomass-to-energy process, emphasising important aspects and how the quality of the biofuel can be identified. It acts as a starting point for professionals and researchers interested in working with biomass and a guide for those people interested in the implementation of the technologies described.
This book aspires to be a comprehensive summary of current biofuels issues and thereby contribute to the understanding of this important topic. Readers will find themes including biofuels development efforts, their implications for the food industry, current and future biofuels crops, the successful Brazilian ethanol program, insights of the first, second, third and fourth biofuel generations, advanced biofuel production techniques, related waste treatment, emissions and environmental impacts, water consumption, produced allergens and toxins. Additionally, the biofuel policy discussion is expected to be continuing in the foreseeable future and the reading of the biofuels features dealt with in this book, are recommended for anyone interested in understanding this diverse and developing theme.
Energy and the Environment is conceived and written at a level suitable for use as an introductory undergraduate textbook in energy and environment for students with very little mathematics or science background. It can also be used by anyone interested in technical, political, environmental, and economical issues related to energy. To make the text appropriate for engineering and science students, additional topics are included within information boxes placed throughout the book, and in the appendices. Examples requiring algebra are indicated in a similar manner. Depending on the audience, instructors can decide to eliminate all or part of this material without loss of continuity. Each chapter in Energy and the Environment stands alone, and the text can be taught in any order that the instructor deems suitable. Widely different curricula can therefore be designed and tailored for any audience simply by focusing on the appropriate sections from the appropriate chapters. For example, an environmental engineering course might include the summaries of various energy sources types, with an emphasis on air pollution, radiation, and environmental economics. A science curriculum might alternately emphasize the various technological sections and incorporate some of the engineering designs. This book is now available and can be purchased at http://vervepublishers.com. You may also order a free examination copy if you are considering adopting the Energy and the Environment for your classes. I would be most pleased to receive comments and thank you for your time!
In 2000, the leaders of member states of the United Nations adopted the Millennium Declaration, which set out a series of clear commitments, goals and targets to achieve Human Development. These ambitious goals were subsequently refined into eight Millennium Development Goals (MDGs), designed to provide a framework for accountability, donor coordination and resource mobilization. The MDGs are: Eradicate extreme poverty and hunger; achieve universal primary education; promote gender equality and empower women; reduce child mortality; improve maternal health; combat HIV/AIDS, malaria and other diseases; ensure environmental sustainability; and develop a global partnership for development. The first seven of these Goals are concerned with outcomes, identifying the progress towards certain standards of human well-being and decent living which should be achieved globally and nationally by 2015. The eighth Goal is concerned with relationships, identifying various aspects of a “global partnership for development” which must be forged to support the realization of these poverty reduction, human development and environmental sustainability standards. The MDGs provide opportunities to start working from real-life development problems. Addressing these problems requires multidisciplinary approaches that combine the natural sciences, the life sciences and technical approaches with social-science approaches. The challenge is to integrate social, economic, political and institutional concerns into research strategy. To be able to achieve this, there is a need to establish a linking pin between research, policy and practice in Nigeria. The aim of such a linking pin would be to synthesize research outcomes on specific MDGrelated topics and to translate these into implications for policy – and decision – making through easily accessible gathering where individual stakeholders can air their views. The articles contained in this book address research outcomes from stakeholders (Sociologists, Economists, Agronomists, Agricultural Engineers, Civil Engineers, Environmental Scientists and Engineers, Geographers, Geologists, Microbiologists, Medical Practitioners, Policy Makers, Educationists, etc.) to confirm achievement of Millennium Development Goals in Nigeria and other neighboring countries.
Taiwan experienced a highly successful economic transformation in the last 50 years that produced one of Asia’s genuine ‘miracles’ of modern development, in terms of improvement in per capita income and overall quality of material well being for its citizens. The process, though, involved rapid industrialization and urbanization, and breakneck mass consumption, that inevitably resulted in rapid escalation in degradation of the island’s fragile air, water, and land, and produced some of the worst environmental pollution to be found anywhere in Asia This book examines the causes of Taiwan's environmental predicament, engaging in Taiwan's unique geological, geographical, demographical, political, industrial, historical and economic circumstances. In addition, Jack Williams and Ch'ang-yi David Chang assess the efforts of the government, NGOs and private citizens to create a "green" environmentally sustainable island, with a high tech economy based on the silicon chip, the backbone of Taiwan’s highly successful IT industry. Finally the authors discuss what can be done to improve Taiwan's environmental future. As the first commercially available book in English on Taiwan’s environmental problems this is an invaluable read for students and scholars interested in environmental studies, sustainable development and the island of Taiwan.
The development of renewable and sustainable lignocellulosic biofuels is currently receiving worldwide attention and investment. Despite decades of research, there remain significant challenges to be overcome before these biofuels can be produced in large volumes at competitive prices. One obstacle is the lack of efficient and affordable catalytic systems to dissolve and hydrolyze polysaccharides into sugars. These sugars are then fed to microrganisms and fermented into biofuels. The price of these catalysts, be they biological, thermochemical, or chemical in nature, represent one of the largest costs in the conversion process. There are a number of catalytic schemes, each with their own advantages and disadvantages, available. This book presents a general yet substantial review of the most promising processes and the spectrum of biomass pretreatment, enzymes, chemical catalysts, and hybrid approaches of hydrolyzing biomass into fermentable sugars. It is the only currently available book that compares the biochemical, chemical, and thermochemical conversion processes to biofuel production.