Lightweight energy : membrane architecture exploiting natural renewable resources
This book explores membrane materials as a means of translating natural and renewable resources into a more flexible, dynamic, and reactive architectural skin. It represents the first time that energy-saving design has been addressed systematically in relation to lightweight building systems and ten...
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| Other Authors | , , , |
|---|---|
| Format | eBook |
| Language | English |
| Published |
Cham :
Springer,
2023.
|
| Series | Research for development (Series)
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9783031081545 9783031081538 |
| Physical Description | 1 online zdroj (265 stran). |
Cover
Table of Contents:
- Intro
- Foreword
- Introduction
- Contents
- Towards the Smart Filter
- 1 Membrane Architecture, Beyond the Translucency
- 1.1 Types of Membranes for Today's Architecture
- 1.2 Membrane Architectures as a Dynamic Filter of Light
- 2 Well-Being of Enclosed Spaces Made of Membranes
- 2.1 Improving the Energetic Performances Through Surface Treatments
- 2.2 Technological Solutions: From Single-layer to Multi-layer Systems
- 2.3 Strategies to Increase the Envelope's Thermo-Optical Comfort Performance
- 3 New Frontiers of Interactivity of the Membrane Skin
- References
- Life Cycle Design for Lightweight Skin
- 1 Life Cycle Principles Applied to Lightweight Building Systems
- 2 Comparative LCA on Membrane Skins
- 2.1 An Environmental Load of Ultra-Lightweight Materials and the Nonlinear Relation with Their Weight
- 2.2 The Ratio of the Environmental Loads Between Different Façade Cladding Systems and Their Structure
- 2.3 The Influence of the Materials and Components Upcycling in the Life Cycle of Lightweight Skins
- 3 Conclusions
- References
- Lightweight Environmental Architecture
- 1 Introduction
- 2 Active and Passive Lightweight Design Strategies
- 2.1 Historical Overview of Active and Passive Design Strategies and Technologies
- 2.2 Toward Active and Passive Lightweight Design Strategies and Technologies
- 3 Solar Lightweight Design
- 3.1 Energy Potential of Lightweight Solar Skins
- 3.2 Temporal Potential of Lightweight Solar Skins
- 3.3 The Spatial Potential of Lightweight Solar Skins
- 3.4 The Economic Potential of Lightweight Solar Skins
- 3.5 Material Potential of Lightweight Solar Skins
- 4 Wind Lightweight Design
- 4.1 Wind Potential Use in Lightweight Skins
- 4.2 Conventional Wind Techniques
- 4.3 Wind Design Strategies
- 5 Water Lightweight Design
- 5.1 Atrapaniebla as a Passive System
- 5.2 Lightweight Fog Harvesting Technology
- 6 Lightweight Design Strategies for Combined Use of Natural Resources
- 7 Conclusions
- References
- Flexible Photovoltaic Solar Design
- 1 Technologies
- 1.1 Rigid and Flexible PVs
- 1.2 Main Flexible PV Technologies
- 1.3 Manufacturing
- 2 LCI of a Novel Concept of Skin
- 2.1 Environmental Profile of Organic Photovoltaic Technologies
- 2.2 Main Flexible Substrate Materials for PVs
- 2.3 Environmental Profile of ETFE Cushion Technology
- 3 Market
- 3.1 Flexible PV Module Products
- 3.2 Market Segments of Flexibles PV
- 3.3 Architectural Application of Flexible Photovoltaic Skins
- 3.4 Challenges Facing Flexibles PV
- 4 Conclusions
- References
- Case Study: The SOFT-PV Skin
- 1 The First Prototype of SOFT-PV
- 1.1 The Plan and the Objectives
- 1.2 Bottleneck and Solutions
- 1.3 Conclusion and Future Work
- 2 Environmental Impact Assessment of a Novel Concept of SOFT-PV Skin
- 2.1 Life Cycle Assessment of a Smart Inflated ETFE Cushion with Integrated OPV Module