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The laws of thermodynamics—and their implications for architecture—have not been fully integrated into architectural design. Architecture and building science too often remain constrained by linear concepts and methodologies regarding energy that occlude significant quantities and qualities of energy. The Hierarchy of Energy in Architecture addresses this situation by providing a clear overview of what energy is and what architects can do with it. Building on the emergy method pioneered by systems ecologist Howard T. Odum, the authors situate the energy practices of architecture within the hierarchies of energy and the thermodynamics of the large, non-equilibrium, non-linear energy systems that drive buildings, cities, the planet and universe. Part of the PocketArchitecture series, the book is divided into a fundamentals section, which introduces key topics and the emergy methodology, and an applications section, which features case studies applying emergy to various architectural systems. The book provides a concise but rigorous exposure to the system boundaries of the energy systems related to buildings and as such will appeal to professional architects and architecture students.
How is an energy efficient building created? Which are the most important criteria pertaining to urban development or the conception of the floor plan? What are the optimal dimensions appropriate for the building’s usage but also ensuring energy efficiency? Which building elements and systems are most suitable? This book systematically explains all relevant criteria and parameters as regards urban development, design and the subsequent construction of a sustainable building. The immense potential for cutting costs by modernising the energy systems in old buildings is also demonstrated.Completed projects are presented according to their usage and are analysed and evaluated in the light of the above criteria. For this purpose extensive plans and technical information are used to illustrate the "energy profile" of each building. This shows the particular importance of planning details carefully. An annotated subject index concludes the volume.
Does energy consumption influence architectural style? Should more energy-efficient buildings look different? Can that "look" be used to explain or enhance their performance? Architecture and Energy provides architects and architectural theorists with more durable arguments for environmental design decisions, arguments addressing three different scales or aspects of contemporary construction. By drawing together essays from the leading experts in the field, this book engages with crucial issues in sustainable design, such as: The larger role of energy in forming the cultural and economic systems in which architecture is conceived, constructed, and evaluated The different measures and meanings of energy "performance" and how those measures are realized in buildings The specific ways in which energy use translates into the visible aspects of architectural style. Drawing on research from the UK, US, Europe, and Asia the book outlines the problems surrounding energy and architecture and provides the reader with a considered overview of this important topic.
Convergence is based on the thermodynamic premise that architecture should maximize its ecological and architectural power. No matter how paradoxical it might initially seem, architects should maximize energy intake, maximize energy use, and maximize energy feedback and reinforcement. This presumes that the necessary excess of architecture is in fact an architect’s greatest asset when it comes to an agenda for energy, not a liability. But how do we start to understand the full range of eco-thermodynamic principles which need to be engaged with in order to achieve this? Kiel Moe explicates three factors: materials, energy systems and amortization. When these three factors converge through design, the resulting buildings begin to perform in complex, if not subtle, ways. By drawing on a range of architectural, thermodynamic, and ecological sources as well as illustrated and well-designed case studies, the author shows what architecture stands to gain by simultaneously maximizing the architectural and ecological power of buildings. .
What is the best way to consider energy in buildings? For over a century, the building industry has largely focused on ideas of insulation and isolation for its energetic practices. A growing movement of designers claim that other concepts and practices are required for the non-isolated energy systems of architecture. This book describes the history, theory and facts of the mainstream isolation technologies and the emerging alternative design approaches. It is a book on the scientific, material, and design history of building isolation; but more importantly, it is a book on isolated and non-isolated perspectives on energy in architecture. Written by a registered practicing architect with detailed technical knowledge, who is at the same time a researcher and experienced teacher, the aim is to understand the different scientific, architectural and cultural approaches to energy and to promote a non-isolated perspective: a thermodynamically accurate, ecologically powerful, culturally relevant, and architecturally ambitious perspective on energy in architecture.
Energy Modeling in Architectural Design demonstrates how design elements can lead to energy savings, to help you reduce the energy footprint of your buildings. In addition to identifying climate opportunities, you’ll also learn fundamental passive design elements for software-agnostic energy modeling of your projects from conception. Using parametric models and testing each element during design will lead you to create beautiful and high-performance buildings. Illustrated with more than 100 color images, this book also includes a pattern guide for high-performance buildings, discusses energy and daylighting optimization, and has a glossary for easy reference.
A unique and revolutionary text which explains the principles behind the LT Method (2.1), a manual design tool developed in Cambridge by the BRE. The LT Method is a unique way of estimating the combined energy usage of lighting, heating, cooling and ventilation systems, to enable the designer to make comparisons between options at an early, strategic stage. In addition,Energy and Environment in Architecture the book deals with other environmental issues such as noise, thermal comfort and natural ventilation design. A variety of case studies provide a critique of real buildings and highlight good practice. These topics include thermal comfort, noise and natural ventilation.
Während die Effizienz- und Nachhaltigkeitsoffensive in den meisten Wirtschaftsbereichen in vollem Gang ist, steht das Bauen damit noch ganz am Anfang – ökonomisch wie ökologisch. Die Politik auf globaler, europäischer und nationaler Ebene nimmt sich dieses Defizits inzwischen zunehmend an und versucht es durch rechtliche Anforderungen und Gesetze wie EnEV, Gebäudezertifizierungen und Wettbewerbe wettzumachen. Der Energie Atlas gibt in der bewährten Form der Atlanten eine umfassende Darstellung der konstruktiven Parameter von Energieeffizienz und Nachhaltigkeit wieder. Er nimmt die von der EU geplanten gesetzlichen Regulierungen vorweg und weist als unmittelbar verwendbare Arbeitshilfe für die tägliche Arbeit von Architekten, Ingenieuren und Designern den Weg zu effizientem und nachhaltigem Bauen und Betreiben von Gebäuden. Mit seiner Orientierung am gesamten Lebenszyklus eines Gebäudes leistet er eine ganzheitliche Betrachtung – eine unverzichtbare Voraussetzung für nachhaltiges Wirtschaften.