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SU+RE : sustainable + resilient design systems /
In the 21st century, architects and engineers are being challenged to produce work that is concurrently sustainable and resilient. Buildings need to mitigate their impact on climate change by minimizing their carbon footprint, while also countering the challenging new weather conditions. Globally, s...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford :
John Wiley & Sons,
2018.
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| Colección: | Profile (Chichester, England) ;
251. Architectural design (London, England : 1971) ; v. 88, no. 1. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright Page; Contents; About the Guest-Editors; Introduction: Climate Change is the New Gravity; A Complex Problem with a Simple Solution; The Mandate for Quantitative Sustainable and Resilient Design Systems; The Nuts and Bolts: Energy Demand, Production and the Changing Site; Architects as the Executive Directors of Creative World-Saving; Notes; Unsustainability and the Architecture of Efficiency; Our Addiction to Energy; The Future of Efficiency; Sustainable Architecture: The Passive Mandate; Notes; Resilient Design: 'Systems Thinking' as a Response to Climate Change.
- Change is ConstantResilient Design and Economic Development; Resilient Design at All Scales; Resilient Design in Extreme Conditions; Resilient Design and Financing; Everything is Connected; Notes; Global Responses to Local Conditions: Sustainability and Resilience are Nowhere the Same; São Paulo: What Might Have Been; Singapore: Turning Risk into Reward; New York: Resilience from the Bottom Up; The Measure of Limits; Notes; â#x80;#x98;Global Warming is Realâ#x80;#x99;: Superstorm Sandy, Stevens and the SU+RE House; Stevens Institute of Technology; The SU+RE House; A New Pedagogical Paradigm; Note.
- High-Performance Enclosures: Designing for Comfort, Durability and SustainabilityBuilding Science Principles; A Clear and Coordinated Approach; A Timber-Frame Example; Notes; Practical Resilience: Low-Tech Plug-and-Play Innovation in the SU+RE House; Design Constraints: Quantifying Sustainability and Resilience; Low-Tech Floodproofing: Passive House and the Marine Industry; Pricing for the Market; Research Versus Reality; Notes; SU+RE Power: Energy Independence and the Sustainable Resilient Sun; SU+RE Energy: Production Linked to Demand; SU+RE Energy: Resilience Through Decentralisation.
- The Future is SU+RENotes; Modelling to Drive Design: Honing the SU+RE House through Performance Simulations; Multiple Models for Multiple Problems: The SU+RE House Example; Lessons from the SU+RE House Process; Defining Environments: Understanding Architectural Performance through Modelling, Simulation and Visualisation; Simulation for Science and Architecture; Designing Thermal Comfort; Masterplan Massing Optimisation; Computing Architectural Understanding; Notes; Data Buildings: Sensor Feedback in Sustainable Design Workflows; Interactive Sustainability in a Net-Zero School.
- Designers Need FeedbackEcological Design for Zero Waste; Designing for the Future; Notes; Building Physics, Design, and the Collaborative Build: Sustainability and Resilience in Architectural Education; Sustainability and Design-Build at TU Wien; LISI: Living Inspired by Sustainable Innovation; Combining Research and Teaching; Promising New Paths in Design Education; Notes; Climate Change and the Bottom Line: Delivering Sustainable Buildings at Market Rate; People: Relationships as a Driver of Performance; Process: Lean Integrated Project Delivery (IPD); Technology: Big BIM.