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Energy and Urban Built Form contains the papers that were presented at the International Seminar on Urban Built Form and Energy Analysis, held at Darwin College in Cambridge on June 26 and 27, 1986. The seminar focused on energy use in the built environment at an intermediate scale, between individual buildings and cities, where urban and architectural factors interact. It also covers the simulation and analysis of the performance of groups of buildings, from city blocks and industrial developments to mixed-use urban developments, housing estates, and stocks of buildings such as schools and houses. Organized into four parts encompassing 13 chapters, this volume describes techniques for calculating and minimizing energy consumption in groups of buildings, cities or entire regions. It first provides an overview of mathematical models, as well as approaches to the computation of the energy demand or energy-related properties of housing designs or groups of buildings. It then explores the politics of energy and the built environment, the mechanisms by which technical developments may be translated into effective action, and the energy efficiency of the urban built form. The reader is also introduced to passive solar scenarios for the UK domestic sector, intermediate-scale energy initiatives in the United Kingdom, thermal efficiency of building clusters, and glazed courtyards as an element of the low-energy city. This book is a valuable resource for city planners and engineers, scientists, and anyone interested in energy conservation.
Both the number and percentage of people living in urban areas is growing rapidly. Up to half of the world's population is expected to be living in a city by the end of the century and there are over 170 cities in the world with populations over a million. Cities have a huge impact on the local climate and require vast quantities of energy to keep them functioning. The urban environment in turn has a big impact on the performance and needs of buildings. The size, scale and mechanism of these interactions is poorly understood and strategies to mitigate them are rarely implemented. This is the first comprehensive book to address these questions. It arises out of a programme of work (POLISTUDIES) carried out for the Save programme of the European Commission. Chapters describe not only the main problems encountered such as the heat island and canyon effects, but also a range of design solutions that can be adopted both to improve the energy performance and indoor air quality of individual buildings and to look at aspects of urban design that can reduce these climatic effects. The book concludes with some examples of innovative urban bioclimatic buildings. The project was co-ordinated by Professor Mat Santamouris from the University of Athens who is also the editor of the book. Other contributions are from the University of Thessaloniki, Greece, ENTPE, Lyons, France and the University of Stuttgart, Germany.
This book analyses the technical and social systems that satisfy these needs and asks how methods can be put into practice to achieve this.
Achieving Sustainable Urban Form represents a major advance in the sustainable development debate. It presents research which defines elements of sustainable urban form - density, size, configuration, detailed design and quality - from macro to micro scale. Case studies from Europe, the USA and Australia are used to illustrate good practice within the fields of planning, urban design and architecture.
Building Types and Built Forms weaves two books together in alternating chapters: one about the history of building types, the other about their geometry. The first book follows the histories of some common types of building: houses, hospitals, schools, offices and prisons. Examples are drawn from the 19th and early 20th centuries in France, America and Britain, with the central focus on London. They include the 'pavilion hospitals' associated with the name of Florence Nightingale, English Board and Modernist schools of the 1920s and 30s, tall office buildings in Chicago and New York, Jeremy Bentham's Panopticon penitentiary, and 'radial prisons' on the model of Cherry Hill and Pentonville. The second book takes these histories and uses them to explore how the forms of these buildings are constrained by some of the basic functions of architecture: to provide daylight and ventilation to the interior, to provide access to all rooms, or to allow occupants to see from one part of a building to another. A new way of thinking about these 'worlds of geometrical possibility' is introduced, in which the forms of many buildings can be catalogued and laid out systematically in 'morphospaces', or theoretical spaces of forms. As building types change over time, they come to occupy different positions within the worlds of possible forms. Building Types and Built Forms is filled with over 400 illustrations, many drawn especially for the book. It offers a new theoretical approach, combined with a series of historical accounts of building types, some well known, some less familiar. It should appeal to academics, practitioners, historians and students of architecture.
The first full synthesis of modern scientific and applied research on urban climates, suitable for students and researchers alike.
With a foreword from Paul King, Chief Executive, UK Green Building Council and Chairman, Zero Carbon Hub As concerns over climate change and resource constraints grow, many cities across the world are trying to achieve a low carbon transition. Although new zero carbon buildings are an important part of the story, in existing cities the transformation of the current building stock and urban infrastructure must inevitably form the main focus for transitioning to a low carbon and sustainable future by 2050. Urban Retrofitting for Sustainability brings together interdisciplinary research contributions from leading international experts to focus on key issues such as systems innovation, financing tools, governance, energy, and water management. The chapters consider not only the knowledge and technical tools available, but looks forward to how they can be implemented in real cities by 2050.
Energy security, rising energy prices (oil, gas, electricity), 'peak oil', environmental pollution, nuclear energy, climate change and sustainable living are hot topics across the globe. Meanwhile, abundant and perpetual wind resources offer opportunities, via recent technological developments, to provide part of the solution to address these key issues. The rapid growth of large-scale wind farm installations has now led to the generation of clean electricity for tens of millions of homes around the world. However, despite the potential to reduce the losses and costs associated with transmission and to use local wind acceleration techniques to improve energy yields, the potential for urban wind energy has yet to be realised. Although there is increasing public interest, the uptake of urban wind energy in suitable areas has been slow. This is in part due to a lack of understanding of key issues such as: available wind resources; technology integration; planning processes (include assessment of environmental impacts and public safety due to close proximity to people and property); energy consumption in buildings versus energy production from turbines; economics (including grants, subsidies, maintenance); and the effect of complex urban windscapes on performance. Urban Wind Energy attempts to illuminate these areas, addressing common concerns highlighting pitfalls, offering real world examples and providing a framework to assess viability in energy, environmental and economic terms. It is a comprehensive guide to urban wind energy for architects, engineers, planners, developers, investors, policy-makers, manufacturers and students as well as community organisations and home-owners interested in generating their own clean electricity.
Effective building performance simulation can reduce the environmental impact of the built environment, improve indoor quality and productivity, and facilitate future innovation and technological progress in construction. It draws on many disciplines, including physics, mathematics, material science, biophysics and human behavioural, environmental and computational sciences. The discipline itself is continuously evolving and maturing, and improvements in model robustness and fidelity are constantly being made. This has sparked a new agenda focusing on the effectiveness of simulation in building life-cycle processes. Building Performance Simulation for Design and Operation begins with an introduction to the concepts of performance indicators and targets, followed by a discussion on the role of building simulation in performance-based building design and operation. This sets the ground for in-depth discussion of performance prediction for energy demand, indoor environmental quality (including thermal, visual, indoor air quality and moisture phenomena), HVAC and renewable system performance, urban level modelling, building operational optimization and automation. Produced in cooperation with the International Building Performance Simulation Association (IBPSA), and featuring contributions from fourteen internationally recognised experts in this field, this book provides a unique and comprehensive overview of building performance simulation for the complete building life-cycle from conception to demolition. It is primarily intended for advanced students in building services engineering, and in architectural, environmental or mechanical engineering; and will be useful for building and systems designers and operators.
Providing a global overview of experiments around the transformation of cities' electricity networks and the social struggles associated with this change, this book explores the centrality of electricity infrastructures in the urban configuration of social control, segregation, integration, resource access and poverty alleviation. Through multiple accounts from a range of global cities, this edited collection establishes an agenda that recognises the uneven, and often historical, geographies of urban electricity networks, prompting attempts to re-wire the infrastructure configurations of cities and predicating protest and resistance from residents and social movements alike. Through a robust theoretical engagement with established work around the politics of urban infrastructures, the book frames the transformation of electricity systems in the context of power and resistance across urban life, drawing links between environmental and social forms of sustainability. Such an agenda can provide both insight and inspiration in seeking to build fairer and more sustainable urban futures that bring electricity infrastructures to the fore of academic and policy attention.