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Sustainable Energy Democracy and the Law offers a legal account of the concept of sustainable energy democracy. The book explains what the concept means in a legal context and how it can be translated into concrete legal instruments.
Bright Green Future chronicles a renaissance at the edge of a crisis. As climate change shifts our planet towards an uncertain future, a movement of unlikely heroes are building a blueprint for a better world. It’s a world where clean power grows wealth for local communities, resources regenerate themselves, city planning is driven by the people, and healthy soil is our greatest asset. These changemakers have opened a gateway for ordinary people to begin imagining and building the bright future we deserve.
This proceedings volume brings together selected peer-reviewed papers presented at the 2014 International Conference on Frontier of Energy and Environment Engineering. Topics covered include energy efficiency and energy management, energy exploration and exploitation, power generation technologies, water pollution and protection, air pollution and
The local economic development is becoming increasingly important, and governments are going to develop strategies in order to lead the chance to widespread prosperity of the people and the ecosystem. To aim at holistic wellbeing, specific and punctual solutions should be got over and tend to approach that creates connections between local material, energetic and informational resources, generating multiple and complex solutions. In particular, energy is considered a fundamental need and shared by the society, furthermore it increases our own capability. In this book, the Energy issue is faced in a scientific and broad way, looking at Systemic Design Theory and its concrete applications and solutions. This first volume gives some contributions and reflections that generate a framework in support of decision makers. It is demonstrated that the green energy production in systemic nets of small and distributed plants helps the success and the sustainability of territories.
This book introduces advanced methods of computational and information systems allowing readers to better understand the state-of-the-art design and implementation technology needed to maintain and enhance the safe operation of nuclear power plants. The subjects dealt with in the book are (i) Full digital instrumentation and control systems and human–machine interface technologies (ii) Risk monitoring methods for large and complex plants (iii) Condition monitors for plant components (iv) Virtual and augmented reality for nuclear power plants and (v) Software reliability verification and validation for nuclear power plants. The target readers of this book are Ph.D. students, researchers and engineers in the field of nuclear power engineering.
The world’s economy is fuelled by energy. Depletion of resources and severe environmental effects resulting from the continuous use of fossil fuels has motivated an increasing amount of interest in renewable energy resources and the search for sustainable energy policies. This volume contains research papers presented at the 9th International Conference on Energy and Sustainability. The changes required to progress from an economy mainly focussed on hydrocarbons to one taking advantage of sustainable renewable energy resources require considerable scientific research, as well as the development of new engineering systems. Energy policies and management are of primary importance to achieve the development of sustainability and need to be consistent with recent advances in energy production and distribution. In many cases, the challenges lie as much in the conversion from renewable energies (wind, solar, etc.) to useful forms (electricity, heat, fuel) at an acceptable cost including damage to the environment as in the integration of these resources into the existing infrastructure. The diverse topics covered by the papers in this book involve collaboration between different disciplines in order to arrive at optimum solutions, including studies of materials, energy networks, new energy resources, storage solutions, waste to energy systems, smart grids and many others.
This monograph provides foundations, methods, guidelines and examples for monitoring and improving resource efficiency during the operation of processing plants and for improving their design. The measures taken to improve their energy and resource efficiency are strongly influenced by regulations and standards which are covered in Part I of this book. Without changing the actual processing equipment, the way how the processes are operated can have a strong influence on the resource efficiency of the plants and this potential can be exploited with much smaller investments than needed for the introduction of new process technologies. This aspect is the focus of Part II. In Part III we discuss physical changes of the process technology such as heat integration, synthesis and realization of optimal processes, and industrial symbiosis. The last part deals with the people that are needed to make these changes possible and discusses the path towards a resource efficiency culture. Written with industrial solutions in mind, this text will benefit practitioners as well as the academic community.
This book opens up a critical dimension to the interdisciplinary field of Industrial Ecology (IE) and one of its four areas - Industrial Symbiosis (IS). Presenting the concept of closed-loop thinking, this timely book explains how industries and societies can achieve environmental sustainability, a necessity for today’s businesses. Providing a critical review of the definitions and developments of both IE and IS, this study establishes their fundamental role in improving environmental sustainability. The author identifies valuable lessons to be learned and presents conceptual frameworks to guide future IE and IS applications. Transforming industrial systems into closed-loop industrial ecosystems dramatically reduces the negative impact of industrial activities on the environment. Therefore, this book is an important read not only for operations management scholars, but also those who are interested in ensuring an environmentally sustainable future.