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Green Catalysis and Reaction Engineering
Discover how to perform Life Cycle Analysis and develop next-generation sustainable chemical technologies.
Expanding Biofuel Production and the Transition to Advanced Biofuels
While energy prices, energy security, and climate change are front and center in the national media, these issues are often framed to the exclusion of the broader issue of sustainability-ensuring that the production and use of biofuels do not compromise the needs of future generations by recognizing the need to protect life-support systems, promote economic growth, and improve societal welfare. Thus, it is important to understand the effects of biofuel production and use on water quality and quantity, soils, wildlife habitat and biodiversity, greenhouse gas emissions, air quality, public health, and the economic viability of rural communities.
Catalysis for Energy
This book presents an in-depth analysis of the investment in catalysis basic research by the U.S. Department of Energy (DOE) Office of Basic Energy Sciences (BES) Catalysis Science Program. Catalysis is essential to our ability to control chemical reactions, including those involved in energy transformations. Catalysis is therefore integral to current and future energy solutions, such as the environmentally benign use of hydrocarbons and new energy sources (such as biomass and solar energy) and new efficient energy systems (such as fuel cells). Catalysis for Energy concludes that BES has done well with its investment in catalysis basic research. Its investment has led to a greater understanding of the fundamental catalytic processes that underlie energy applications, and it has contributed to meeting long-term national energy goals by focusing research on catalytic processes that reduce energy consumption or use alternative energy sources. In some areas the impact of the research has been dramatic, while in others, important advances in catalysis science are yet to be made.
Water, Energy & Food Sustainability in the Middle East
This book provides a survey of technologies available to tackle the problems associated with climate change in the energy, water and food security nexus with a special focus on the Middle East. It is divided into three main sections. The energy Section consists of six chapters, the water section of seven chapters and finally the food security section has six chapters. The individual chapters are authored by experts and provide discussions and in-depth views on the current status of each topic.
Silver Bullets II
How America can achieve energy independence and industrial renaissance through new technologies.
Bioinspired Chemistry for Energy
Faced with the steady rise in energy costs, dwindling fossil fuel supplies, and the need to maintain a healthy environment - exploration of alternative energy sources is essential for meeting energy needs. Biological systems employ a variety of efficient ways to collect, store, use, and produce energy. By understanding the basic processes of biological models, scientists may be able to create systems that mimic biomolecules and produce energy in an efficient and cost effective manner. On May 14-15, 2007 a group of chemists, chemical engineers, and others from academia, government, and industry participated in a workshop sponsored by the Chemical Sciences Roundtable to explore how bioinspired chemistry can help solve some of the important energy issues the world faces today. The workshop featured presentations and discussions on the current energy challenges and how to address them, with emphasis on both the fundamental aspects and the robust implementation of bioinspired chemistry for energy.
