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In order to significantly lower the environmental impact from human activities, numerous efforts and approaches related to the transformation of human activities have developed during the last decades. Examples of such efforts are policies and strategies at different levels, some with a top-down approach focusing on extensive institutional changes, and some with a bottom-up approach focusing on industrial actors and industry-led activities. One essential aspect of these efforts concerns the energy used producing the products and services provided within our society. This includes, for example, improved efficiency of processes in order to minimise the amount of energy used, or optimisation of efficiency by using energy with the lowest possible exergy value. It can also be about re-use of energy, which is the focus of this thesis. Heat, which is the main by-product of all energy systems, can be utilised for heating purposes to lower the primary energy demand for heating. Increased utilisation of excess heat, however, requires collaboration between normally unrelated actors, those with a supply of and those demanding excess heat. In Sweden, which is a Northern European country with high demand for heat, the tradition of large energy-intensive manufacturing industries generating large amounts of excess heat, in combination with well-established district heating distribution systems, constitute good conditions for excess heat utilisation. Despite the fact that Sweden is among the world leaders in utilising excess heat, there is however, still a large unutilised potential. From this background, the objective of this thesis is to identify challenges behind excess heat utilisation for heating purposes, and to propose practical suggestions to facilitate expanded excess heat utilisation. The overall objective is analysed with a focus on drivers and barriers behind interorganisational collaborations on excess heat utilisation, important components of interorganisational business models and how the technical conditions regarding supply and demand could be facilitated by strategic municipal spatial planning processes. The research is largely based on interviews conducted with societal actors with different perspectives on excess heat utilisation; energy companies, industries generating high-grade excess heat, facilities generating low-grade excess heat, facilities demanding low-grade excess heat, experts of utilisation of low-grade excess heat, branch organisations, municipal spatial planners, energy- and climate advisors, and developers. Document studies have been conducted in order to collect case specific knowledge. The research questions are explored based on literature studies on the principles of industrial symbiosis, business model perspective and strategic planning. Further, they are examined in a Swedish context. It is concluded that the three perspectives complement each other by providing a system perspective on increased utilisation of excess heat as they seek to contribute both environmental and financial benefits at both a company and societal level. In order to facilitate further utilisation of excess heat it is important to focus on the organisational factors of humility, honesty, transparency, trust, fine-grained information transfer, joint problem solving, and shared visions of common goals, which are important conditions behind development of functional and long-term durable collaborations. Business models for collaboration could contribute to the creation of these organisationally important conditions. Such business models could also provide knowledge on how to create and capture joint values. For some collaborations involving actors lacking the technical knowledge related to the capturing and distribution of excess heat, a third-party providing services related to the technical knowledge required could be beneficial. Collaborations in which one of the actors consists of an energy company often entail the technical knowledge required. This implies that different collaborations involving different types of actors and under different prevailing financial, technical and organisational conditions require customised and flexible business solutions. Local authorities could, through their overall function, initiate interorganisational collaborations on excess heat within the framework of municipal spatial planning. The results do however show that the investigated planning processes could develop more extensive stakeholder participation to include further societal actors related to excess heat. More extensive stakeholder participation, have the potential to initiate new development of collaborations on excess heat between normally unrelated actors, both with and without involvements of third-party knowledge brokers. A broader participation is also expected to result in increased knowledge on how to plan to further facilitate the condition of excess heat utilisation.
A Circular Economy seeks to rebuild capital, whether this is financial, manufactured, human, social or natural, and offers opportunities and solutions for all organisations. This book, written by Walter Stahel, who is widely recognised as one of the key people who formulated the concept of the Circular Economy, is the perfect introduction for anyone wanting to quickly get up to speed with this vitally important topic for ensuring sustainable development. It sets out a new framework that refines the concept of a Circular Economy and how it can be applied at industrial levels. This concise book presents the key themes for busy managers and policymakers and some of the newest thinking on the topic of the Circular Economy from one of the leading thinkers in the field. Practical examples and case studies with real-life data are used to elucidate the ideas presented within the book.
The transition to a circular economy requires innovation at all levels of society. This insightful Research Handbook is the first comprehensive edited work examining how innovation can contribute to a more circular economy.
This groundbreaking handbook leads the way in accelerating the transition to a sustainable circular economy by introducing the concept of a catalyst as a positive and enhancing driving force for sustainability. Catalysts create and maintain favourable conditions for complex systemic sustainability transition changes, and a discussion and understanding of catalysts is required to move from a linear economy to a sustainable and circular economy. With contributions from leading experts from around the globe, this volume presents theoretical insights, contextualised case studies, and participatory methodologies, which identify different catalysts, including technology, innovation, business models, management and organisation, regulation, sustainability policy, product design, and culture. The authors then show how these catalysts accelerate sustainability transitions. As a unique value to the reader, the book brings together public policy and private business perspectives to address the circular economy as a systemic change. Its theoretical and practical perspectives are coupled with real-world case studies from Finland, Italy, China, India, Nigeria, and others to provide tangible insights on catalysing the circular economy across organisational, hierarchical, and disciplinary boundaries. With its broad interdisciplinary and geographically diverse scope, this handbook will be a valuable tool for researchers, academics, and policy-makers in the fields of circular economy, sustainability transitions, environmental studies, business, and the social sciences more broadly.
This book highlights the notion of Circular Economy under the umbrella of Sustainability because of the widespread momentum it is gaining. Today the whole world is certainly in emergent need of an alternative system to traditional economy which is linear, i.e. make, use and dispose to get rid-off the waste and very important to ensure continuous use of resources, which is possible by the advent of circular economy. A circular economy aims to utilize the resources in use for as long as possible, extract the maximum value from them during use, then recover and regenerate products and materials at the end of each service life vis-à-vis traditional linear model. This book discusses circular economy in terms of assessment with various case studies.
This book presents the advantages of the circular economy as a powerful - and inevitable - model for tackling the current challenges against shrinking resources and establishing the resource efficient economy. The experienced contributors present the status and strategies of circular economy implementation in several countries with hands on experience to protect the environment while promoting the circular economy through legislative requirements, best practices adopted and popularizing the idea of circulation of resources amongst the researchers & academia, policy makers, industry, and the general public at large. The book advocates model that consists of designing products and processes with a view to endlessly recycling them evolving a greater scope of sustainable development.
Circular Economy Processes for CO2 Capture and Utilization: Strategies and Case-Studies presents an innovative resource or integrating carbon capture, storage and utilization into the sustainable circular economy of the future. Split into two parts, the book offers readers a grounding in the fundamentals of the circular economy and the potential contribution of CCS. Strategies for implementing CCS into a circular economy are explained, with benefits and limitations analyzed. The book then offers a gallery of case studies from the newest research in the area, allowing readers to access lessons learned and critical considerations for integrating CCS into the circular economy. Marrying theory and practice for a holistic perspective, this book offers readers an essential guide to theorizing and implementing a sustainable future economy that utilizes the full potential of carbon capture. - Presents strategies for the cutting-edge integration of carbon capture and storage with a sustainable circular economy - Approaches process design challenges, successful stories and limitations in a practical and comprehensive way - Brings together theoretical processes and real-world case studies to support both research and implementation
The acute energy problems facing China today are characterized by their own histories and realities. Some have come about because of China's energy endowment and stage of development, while others have been created by a combination of domestic and global factors. Some are the results of an accumulation of longstanding contradictions, while others are new challenges posed by the new order. There are no "miracle cures" to solve these problems instantly. What is needed is a tireless enquiry, with goals, planning and procedures, guided by a clear energy strategy. With China's increasing dependence on foreign energy sources, and the global energy situation and greenhouse gas issue exerting an increasingly prohibiting effect on China's energy development, energy diplomacy has become an important component of Chinese diplomatic affairs. Based on a "broad energy outlook", this book studies and analyzes China's energy issues and energy strategies from the perspective of electric power. Discusses a variety of issues, including energy transportation and allocation, end-user consumption, markets, early warning and emergency, technical innovation As a leading player in the power and energy area, China’s strategies attracts global attention Proposes the innovative idea of "Macro Energy Perspective" As a key player in China's energy industrial circle, the author's perspective can help global audiences to understand China's energy strategies better Electric Power and Energy in China is ideal for government energy policy makers, engineers, scientists and enterprise managers to understand China’s strategy in electric power and energy. It is also a good reference for energy economics researchers, consultants and university students.
Do you know how to design for a circular economy? A truly sustainable, circular economy is both a robust and viable option for architecture. Through 24 inspirational case studies, interviews and essays, this book is an accessible and practical guide to how architects can move from a linear economy towards a circular economy. This atlas to sustainable, closed-loop systems takes the reader on a journey through four distinct steps (Recycle, Reuse, Reduce, Circular Economy) that show how they can dramatically reduce the negative impact humans have on the planet. It gives architects the skills and knowledge to navigate through the emerging fields of resource management towards a true Circular Economy. Each step is supplemented with an in-depth interview with an expert who is successfully tacking one or more of the challenges facing all designers today. If we change our behaviour, we enable humanity to work with nature rather than against it. Be part of the change.
Energy Materials: A Circular Economy Approach emphasizes the engineering scalability of a circular economy approach to development and use of energy materials. It focuses on waste minimization and its valorization, recycling and reuse, and emerging sustainable materials and technologies. It offers a view of the eco-friendly energy materials and state-of-the-art technologies required for production of these materials in the process industry and manufacturing sectors. • Covers fundamentals, concepts, and current initiatives within the circular economy • Outlines technologies and materials with specific applications for energy systems, sustainability aspects and societal benefits • Focuses on detailed aspects of processing of energy materials, kinetics, their utilization, and end-of-life management and application of circular economy in waste utilization and valorization • Discusses technologies, processing methods, and production of materials related to fuel cells, super capacitors and battery materials, carbon based hetrostructures, catalysis, functional materials, nanotechnology, biofuels, solar and wind energy, and valuable chemicals • Details topics related to synthesis and application of energy materials, their recycle, reuse, and life cycle This book is aimed at students, researchers and professional engineers and scientists working in chemical, materials, energy, and environmental engineering, as well as materials chemistry.