Alternative Envelope Components for Energy Efficient Buildings

During the past century, we have witnessed some major crisis – the post-world war crisis and the energy crisis of the seventies – and we began the twenty-first century with two major similar events: the great recession of 2008 and the ...

Alternative Envelope Components for Energy Efficient Buildings

This book examines ways of saving energy by using green roofs and facades, solar devices such as building-integrated photovoltaics (BIPV), and thermal solar panels, as components of energy-efficient building envelopes. The author takes an interdisciplinary / multidisciplinary approach to the subject that analyzes several different scientific fields connected to building research—sustainability, sustainable architecture, energy efficiency in buildings, and building envelopes—while approaching other collateral domains, including history, archaeology, botanics, physics, engineering, and landscape architecture. Alternative Envelope Components for Energy-Efficient Buildings will be a welcome resource for researchers, students, and postgraduates in the fields of energy, building materials, and renewable energy, as well as architects, engineers, and specialists in industries related to building products. Looks at the impact of building envelopes on energy usage; Offers readers an introduction to the principles of sustainability; Presents passive and active approaches to using solar devices.

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Alternative Envelope Components for Energy-Efficient Buildings
Language: en
Pages: 99
Authors: Ana-Maria Dabija
Categories: Architecture
Type: BOOK - Published: 2021-08-24 - Publisher: Springer Nature

This book examines ways of saving energy by using green roofs and facades, solar devices such as building-integrated photovoltaics (BIPV), and thermal solar panels, as components of energy-efficient building envelopes. The author takes an interdisciplinary / multidisciplinary approach to the subject that analyzes several different scientific fields connected to building
Alternative Envelope Components for Energy-Efficient Buildings
Language: en
Pages: 109
Authors: Ana-Maria Dabija
Categories: Architecture
Type: BOOK - Published: 2021-07-08 - Publisher: Springer

This book examines ways of saving energy by using green roofs and facades, solar devices such as building-integrated photovoltaics (BIPV), and thermal solar panels, as components of energy-efficient building envelopes. The author takes an interdisciplinary / multidisciplinary approach to the subject that analyzes several different scientific fields connected to building
Thermal Inertia in Energy Efficient Building Envelopes
Language: en
Pages: 374
Authors: Francesca Stazi
Categories: Technology & Engineering
Type: BOOK - Published: 2017-08-29 - Publisher: Butterworth-Heinemann

The design and construction of the appropriate building envelope is one of the most effective ways for improving a building’s thermal performance. Thermal Inertia in Energy Efficient Building Envelopes provides the optimal solutions, tools and methods for designing the energy efficient envelopes that will reduce energy consumption and achieve thermal
Alternate Energy
Language: en
Pages: 243
Authors: James J. Winebrake
Categories: Science
Type: BOOK - Published: 2003-12-02 - Publisher: CRC Press

Here's your opportunity to look into the future of energy technologies, with emphasis on alternative, or non-conventional technologies, their potential impacts, and the technical, economic and policy issues that will affect their successful integration into global energy markets. Over the past several years, industry and government have turned to a
Informing Energy-Efficient Envelope Design Decisions for Residential Buildings in Hong Kong
Language: en
Pages:
Authors: Xiaoxia Sang, 桑曉夏
Categories: Science
Type: BOOK - Published: 2017-01-27 - Publisher:

This dissertation, "Informing Energy-efficient Envelope Design Decisions for Residential Buildings in Hong Kong" by Xiaoxia, Sang, 桑曉夏, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered