| Nota di contenuto |
Intro -- Preface -- About This Book -- Contents -- About the Author -- Chapter 1: The Building Envelope -- 1.1 Definition of Building Envelope Systems -- 1.2 The Building Concept in a Changing World -- 1.3 Requirements and Parameters -- 1.3.1 Influencing Factors -- 1.3.2 Building Envelope Requirements -- Technological Requirements -- Energetic Issues -- Acoustic Issues -- Typological Requirements -- References -- Chapter 2: The Smart Concept Definition -- 2.1 Definition of the Smart Concept in Architecture -- 2.2 Applying ICT in Smart Buildings -- References -- Chapter 3: Technology Advancements Changing Architecture -- 3.1 How Technology Is Transforming Architectural Practice -- 3.2 Reconciling the Multiple Performance in a Holistic Way: The CABS -- 3.3 Smart Advanced Technologies: Innovation and Experimentation -- References -- Chapter 4: What Is a Smart Architecture? -- 4.1 Smart Architecture: Recent Developments and Examples -- 4.1.1 Selection -- 4.1.2 Classification: Assessment Criteria and Definition of Parameters -- 4.1.3 Smart Architecture Examples -- 4.1.4 Factsheets -- Gemini House (1991) -- Heliotrope (1994) -- Museum of Paper Art (2002) -- Lumenhaus (2002-2010) -- Esplanade Complex (2002) -- Jubilee Church (2003) -- EWE Arena (2003) -- Offices 'La Defense' (2004) -- Chanel Ginza (2004) -- Selimex Offices (2005) -- Kiefer Technic Showroom (2007) -- Pola Ginza building (2009) -- North House (2009) -- Surry Hills Library and Community Centre (2009) -- 100 11th Avenue (Sunset façade) (2010) -- GEOX Megastore (The breath building) (2010) -- ThyssenKrupp Corporate Headquarter (2010) -- Adaptive Solar Façade (2011) -- Media-ICT Building (2011) -- F24 Commercial building (2011) -- Quadracci Pavilion, Milwaukee Art Museum (2011) -- Kuggen (2011) -- RMIT's Design School (2012) -- Smart Material Houses Project: Smart is green (2012).
Smart Material Houses Project: Soft House (2012) -- South Australian Health and Medical Research Institute-SAHMRI (2012) -- Windswept at Randall Museum (2012) -- One Ocean Thematic Pavilion EXPO (2012) -- Al Bahar Towers (2013) -- Hanwha Headquarters Remodeling (2013) -- Smart Material House BIQ (2013) -- Torre de Especialidades, Hospital Manuel Gea Gonzales (2013) -- Festo's Automation Centre (2014) -- May-September, Eskenazi Hospital façade (2014) -- SDU Campus (2014) -- The W.I.N.D. House (2014) -- Umbrella façade at Madrid pavilion (2014) -- The Breathing Skins, Showroom (2015) -- Shangai Natural History Museum (2015) -- Forti Holding | Centro Direzionale "Umberto Forti" (2016) -- Siemens Headquarters (2016) -- King Abdullah Petroleum Studies and Research Centre (2017) -- Metropole Rouen Normandy (2017) -- US Embassy (2017) -- The Bund Finance Centre (2017) -- Futurium Belin (2017) -- 4.2 Lessons Learned: The Role of Transparent Building Components -- References -- Chapter 5: Why Windows Matter? -- 5.1 Design Features -- 5.1.1 General Properties of Glass -- Chemical Properties -- Physical Properties -- Acoustic Properties -- Mechanical Properties -- 5.1.2 Window Panes -- 5.1.3 Frames, Spacers, and Other Devices -- 5.2 Energy Performance Features -- 5.2.1 Introduction to Light and Color -- 5.2.2 Reference Parameters for Performance Evaluation of Windows -- References -- Chapter 6: Glazing for Smart Architecture -- 6.1 Passive | Static Glazing Technologies -- 6.1.1 Tinted Glass -- 6.1.2 Reflective Glass -- 6.1.3 Selective Glass -- 6.1.4 Low-Emissive Glass -- 6.1.5 Vacuum Insulated Glass (VIG) -- 6.1.6 TIM Glass -- 6.1.7 Self-Cleaning (SC) Glass -- 6.1.8 Heating Glass -- 6.1.9 Photovoltaic (PV) Glass -- 6.2 Active | Dynamic Glazing Technologies -- 6.2.1 PCM Glass -- 6.2.2 Suspended Particle Devices (SPDs) | Liquid Crystal Devices (LCDs).
6.2.3 OLEDs -- 6.2.4 Electrochromic (EC) Glass -- 6.2.5 Thermochromic (TC) Glass -- 6.2.6 Thermotropic (TT) Glass -- 6.2.7 Photochromic (PC) Glass -- 6.2.8 Gasochromic (GC) Glass -- 6.2.9 Electrochemical (ECh) Glass -- 6.2.10 Electrothermal (ET) Glass -- 6.3 Emerging Solutions -- 6.3.1 Bio-adaptive Glass -- 6.3.2 Heat Insulation Solar Glass -- 6.3.3 Air Sandwich -- 6.3.4 Vacuum Tube Window Technology -- 6.3.5 Water-Flow Window -- 6.3.6 Solar-Pond Window -- 6.3.7 Self-Sufficient Smart Window -- 6.3.8 Electro-Kinetic Pixel Window technology -- 6.3.9 Elastomer-Deformation Tunable Window -- References -- Chapter 7: Smart Windows Technologies -- 7.1 State of the Art: A General Overview -- 7.1.1 Tinted Glass -- 7.1.2 Reflective Glass -- 7.1.3 Selective Glasses -- 7.1.4 Low-Emissive Glass -- 7.1.5 Vacuum Insulated Glass (VIG) -- 7.1.6 TIM Glass -- 7.1.7 Self-Cleaning (SC) Glass -- 7.1.8 Heating Glass -- 7.1.9 Photovoltaic (PV) Glass -- 7.1.10 PCM Glass -- 7.1.11 SPD Glass -- 7.1.12 LCD Glass -- 7.1.13 Electrochromic (EC) Glass -- 7.1.14 Thermochromic (TC) Glass -- 7.1.15 Photochromic (PC) Glass -- 7.2 Brief Comparison and Critical Reasoning -- References -- Chapter 8: Transparent Building Components' Design -- 8.1 A Decision Support Tool for Early-Stage Design of Transparent Building Components -- 8.2 Structure and Workflow -- 8.3 The Smart Windows' Configurator -- 8.3.1 Output Strategies -- References -- Chapter 9: A Sustainable Approach for Design of Transparent Building Components: Conclusions and Future Perspectives -- References -- Index.
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Smart architecture : a sustainable approach for transparent building components design / / Valentina Frighi
