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The United States and China are the world's top two energy consumers and, as of 2010, the two largest economies. Consequently, they have a decisive role to play in the world's clean energy future. Both countries are also motivated by related goals, namely diversified energy portfolios, job creation, energy security, and pollution reduction, making renewable energy development an important strategy with wide-ranging implications. Given the size of their energy markets, any substantial progress the two countries make in advancing use of renewable energy will provide global benefits, in terms of enhanced technological understanding, reduced costs through expanded deployment, and reduced greenhouse gas (GHG) emissions relative to conventional generation from fossil fuels. Within this context, the U.S. National Academies, in collaboration with the Chinese Academy of Sciences (CAS) and Chinese Academy of Engineering (CAE), reviewed renewable energy development and deployment in the two countries, to highlight prospects for collaboration across the research to deployment chain and to suggest strategies which would promote more rapid and economical attainment of renewable energy goals. Main findings and concerning renewable resource assessments, technology development, environmental impacts, market infrastructure, among others, are presented. Specific recommendations have been limited to those judged to be most likely to accelerate the pace of deployment, increase cost-competitiveness, or shape the future market for renewable energy. The recommendations presented here are also pragmatic and achievable.
The threat of natural resource depletion due to high energy demands has become a key concern in both the developed and developing worlds. To alleviate these concerns, researchers around the world are exploring sustainable methods for generating energy. Innovative Solutions in Fluid-Particle Systems and Renewable Energy Management presents phenomenological, experimental, and theoretical research, as well as market criteria and business models concerning the development of small- and large-scale chemical and energy plants. Associating academic and industrial experiences, this book highlights current topics in sustainable energy management and development with an emphasis on obtaining liquid, gaseous, and solid fuels using residues and energetic biomasses. Academicians, researchers, and technology developers will find this book useful in furthering their own knowledge and research in this field. A pivotal publication in the field of engineering, this title covers a range of topics including, among others, cellulosic feedstock, agricultural biomass, fluid dynamics, gasification processes, energy extraction from raw materials, and environmental sustainability.
"This book examines the nature of the process of technological change in different sectors of various countries, analyzing the impact of innovation as well as research and development activities on different outcomes in different fields and assessing the design and impact of policies aimed at enhancing innovation in organizations"--Provided by publisher.
Waste incineration is the art of completely combusting waste, while maintaining or reducing emission levels below current emission standards. Where possible, objectives include the recovering of energy as well as the combustion residues. Successful waste incineration makes it possible to achieve a deep reduction in waste volume, obtain a compact and sterile residue, and eliminate a wide array of pollutants. This book places waste incineration within the wider context of waste management, and demonstrates that, in contrast to landfills and composting, waste incineration can eliminate objectionable and hazardous properties such as flammability and toxicity, result in a significant reduction in volume, and destroy gaseous and liquid waste streams leaving little or no residues beyond those linked to flue gas neutralization and treatment. Moreover, waste incineration sterilizes and destroys putrescible matter, and produces usable heat. Incineration Technologies first appeared as a peer-reviewed contribution to the Encyclopedia of Sustainability Science and Technology. It provides detailed treatment of the challenges of this technically complex process, which requires huge investment and operating costs, as well as good technical skills in maintenance and plant operation. Particular attention is paid to technologies for ensuring the complete burn-out of flue gas and residues and for controlling the resulting pollutants.
Comprehensive Renewable Energy is the only multi-volume reference work of its type at a time when renewable energy sources are seen increasingly as realistic alternatives to fossil fuels. As the majority of information published for the target audience is currently available via a wide range of journals, seeking relevant information (be that experimental, theoretical, and computational aspects of either a fundamental or applied nature) can be a time-consuming and complicated process. Comprehensive Renewable Energy is arranged according to the most important themes in the field
Nonfossil Energy Development in China: Goals and Challenges explores the development of non-fossil energy sources, which is very important for China to protect its energy supply, deal with climate change and adjust its energy structure. At present, the development of energy and electricity is undergoing profound change. The core and most prominent feature is the sudden emergence of clean energy, exerting a decisive influence on the future energy industry. Due to history and resource limitation, a series of problems in the energy development of China have existed for a long time, such as poor energy structure, serious environmental pollution, large carbon emissions, low energy efficiency, regional supply and demand imbalances. The Chinese government has set the development goal for nonfossil energy to 15% in primary energy consumption in 2020. The connotation and interpretation of the goal, possible development scenarios, feasible implementation paths, and corresponding benefit costs are all the major issues this book explains in detail and demonstrates by models. - Demonstrates how to safely, economically and efficiently meet the Chinese government's energy development target for non-fossil energy - Analyzes energy development scenarios by using the energy demand and supply model, electricity demand forecasting model and power system optimization planning models - Focuses on practical problems and algorithms
A component in the America's Energy Future study, Electricity from Renewable Resources examines the technical potential for electric power generation with alternative sources such as wind, solar-photovoltaic, geothermal, solar-thermal, hydroelectric, and other renewable sources. The book focuses on those renewable sources that show the most promise for initial commercial deployment within 10 years and will lead to a substantial impact on the U.S. energy system. A quantitative characterization of technologies, this book lays out expectations of costs, performance, and impacts, as well as barriers and research and development needs. In addition to a principal focus on renewable energy technologies for power generation, the book addresses the challenges of incorporating such technologies into the power grid, as well as potential improvements in the national electricity grid that could enable better and more extensive utilization of wind, solar-thermal, solar photovoltaics, and other renewable technologies.
This proceedings volume represents the culmination of nearly three years of planning, organizing and carrying out of a NATO Ad vanced Study Institute on Biomass Utilization. The effort was initi ated by Dr. Harry Sobel, then Editor of Biosources Digest, and a steering committee representing the many disciplines that this field brings together. . When the fiscal and logistical details of the original plan could not be worked out, the idea was temporarily suspended. In the spring of 1982, the Renewable Materials Institute of the State University of New York at the College of Environmental Science and Forestry in Syracuse, New York revived the plan. A number of modifications had to be made, including the venue which was changed from the U.S.A. to Portugal. Additional funding beyond the basic support provided by the Scientific Affairs Division of NATO had to be obtained. Ul timately there were supplementary grants from the Foundation for Microbiology and the Anne S. Richardson Fund to assist student participants. The New York State College of Forestry Foundation, Inc. provided major support through the Renewable Ma terials Institute. The ASI was held in Alcabideche, Portugal from September 26 to October 9, 1982. Eighty participants including fifteen principal lecturers were assembled at the Hotel Sintra Estoril for the program that was organized as a comprehensive course on biomass utilization. The main lectures were supplemented by relevant short papers offered by the participants.
This publication sets out the Government's response to two of the Committee's reports on energy policy issues: on targets for renewable energy resources (4th report, HLP 126, session 2003-04, ISBN 0104005068); and on the contribution that energy efficiency can make towards achieving the Government's objective to reduce carbon dioxide emissions (2nd report, HLP 21, session 2005-06, ISBN 0104007230). It also includes responses to the report on energy efficiency from Ofgem and from the Chairman of Committees on behalf of the House of Lords administration. The Government's Energy White Paper (Our energy future: creating a low carbon economy, Cm 5761, ISBN 0101576129) was published in February 2003.