The book provides an overview of the Active House (AH) vision, intended as a building design method “beyond” the passive approach for buildings of the future that will be more and more connected, smart and innovative. It offers a novel philosophical design approach in which buildings, new or renovated, are in balance with natural, renewable energies and become “concentrators-distributors” of energies instead of being consumers of resources. The book is composed of five chapters, providing information on fundamental aspects of innovations toward resource-efficient buildings, as well as case studies presenting the concept in practice. It demonstrates that a completely new design approach is possible, and that a turning point has been reached. Lastly, it shows how the AH Alliance, along with designers, institutions, industries and academies, is bringing a breath of fresh air to the world of construction.
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1 What is an Active House? A Vision Beyond 2020 |
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1.1 The Need for a New Perspective |
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1.1.2 Active Beyond Passive |
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1.2 The Alliance---A Global Conversation |
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1.3 AH Technical Specifications (2013 Edition) |
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1.3.1 Active House Vision |
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1.3.2 Key Principles of Active House |
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1.3.7 Qualitative Parameters |
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2 A New Paradigm for Holistic Design: Active House Prototypes at Politecnico di Milano |
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2.1 Houses for the Future Now! |
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2.1.1 Experimental Houses at Politecnico di Milano: Prototypes and Monitoring Campaign |
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3 A Reflection on Active House in Warm Climates |
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3.1 Methodology for Southern European Climate |
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3.1.1 Active House Vision and the Mediterranean Region |
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3.1.2 Mediterranean Region? |
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3.1.3 A Model of Mediterranean Active House |
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3.1.4 Sensitivity Analysis: A Tool to Understand the Most Influential Parameters for Sustainable Design in Warm Regions |
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3.1.5 An Award-Winning Prototype of Active House for Warm Climates: RhOME |
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4 NZEB and Active House: A Case Study of Residential Building in Northern Italy |
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4.1 The Nearly-Zero Energy Building Standard Definition |
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4.2 The Nearly-Zero Energy Building and Main Construction Features in Europe |
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4.3 The Maison Verte Building. A Case Study of Nearly Zero-Energy and Active House Building in Italy |
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4.3.1 Technological Design |
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4.4 Maison Verte: The Active House Standard Evaluation |
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4.5 Building Information Modeling for Performance Optimization |
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5 Relevant Case Studies: A Benchmark for Future Design |
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5.1 Active House: Beyond 2020, Now! |
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5.1.1 The Active House Label and Award |
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5.1.2 AH Relevant Case Studies |
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Copenhagen International School |
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Great Gulf Active House Centennial Park |
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House by the Garden of Venus |
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The Poorters van Montfort |
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| Bibliography |
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Lone Feifer holds a Master of Architecture from Royal Danish Academy, and a postgraduate international master in Energy & Green Architecture from Århus School of Architecture and Tsinghua University. He joined VELUX Group in 1999 as architect, where she now serves as director of sustainability & architecture: from her position at VELUX Group she leads the international Active House Alliance, a global member organization of planners, producers and knowledge institutions in the building industry. Active speaker and advisor on sustainability, design and innovation, and education, she is member of the board of Danish Architects Association and of Danish Design Council.
Prof. Marco Imperadori is full professor of Building Engineering at Politecnico di Milano, Italy. Lecturer and visiting professor in many universities and institutions worldwide, his research interests focus on high energy-efficient buildings, structure/envelope building systems, and sustainability.He was responsible for Politecnico di Milano in the building Resilience Network Android (EU-LLP), and currently serves as Rectors Delegate for the Far East representing Politecnico di Milano in Asia. He represents Politecnico di Milano in the Active House Alliance board of advisory committee.
Dr. Graziano Salvalai is assistant professor of Energy Efficient Buildings and Building Engineering at Politecnico di Milano, Italy, where he is member of the research group RE3_Lab (REfurbishment and Energy Efficiency Lab). He was visiting scientist at Fraunhofer Institute for Solar Energy System in Freiburg (Germany) and at National Renewable Energy Lab - NREL, Golden, Colorado (USA). His research interests focus on innovative technology solution for energy efficient buildings.
Dr. Arianna Brambilla is lecturer of Architectural Technology at University of Sydney, NSW, Australia. She holds a PhD in Building Physics and Systems from Politecnico di Milano, Italy, witha thesis on Active House in Mediterranean climate which investigated building strategies to enhance resilience to climate change and users interaction with the building automation system, applied to very efficient model homes. Her research interests focus on the perceived and subjective thermal comfort in relation to the objective environmental comfort, hygro-thermal performance of building components and materials, low-carbon design strategies and thermal energy storage.
Federica Brunone is a construction engineer and PhD student in Construction Systems and Processes at Politecnico di Milano, Italy. During her graduation she was a guest researcher at i.lab Reseach and Development department of Italcementi Group, developing new and innovative materials. Since 2015 she has carried out research activities at VELUXlab laboratory of Politecnico di Milano, in the field of integrated building design between comfort, environmental impact, and energy saving.
