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...
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Oxford : John Wiley & Sons,
2018
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author | Nastasi, John, editor May, Ed, editor Snell, Clarke, editor Barry, Bronwyn, contributor Carpenter, Alex, contributor Cohen, Adam, contributor Holtzman, Ann, contributor Levenson, Ken, contributor Peters, Terri, contributor Robertson, Craig, contributor Stieldorf, Karin, contributor Washburn, Alexandros, contributor Weisz, Claire, contributor Wright, Graham S., contributor Peters, Brady, contributor |
author_facet | Nastasi, John, editor May, Ed, editor Snell, Clarke, editor Barry, Bronwyn, contributor Carpenter, Alex, contributor Cohen, Adam, contributor Holtzman, Ann, contributor Levenson, Ken, contributor Peters, Terri, contributor Robertson, Craig, contributor Stieldorf, Karin, contributor Washburn, Alexandros, contributor Weisz, Claire, contributor Wright, Graham S., contributor Peters, Brady, contributor |
author_sort | Nastasi, John, editor |
collection | OCEAN |
description | 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, severe storms, extreme droughts and rising sea levels are becoming an increasingly reoccurring feature. To respond, a design process is required that seeks to integrate resiliency by building in the capacity to absorb the impacts of these disruptive events and adapt over time to further changes, while simultaneously being part of the solution to the problem itself. This issue of AD is guest-edited by the interdisciplinary team at Stevens Institute of Technology who developed the winning entry for the 2015 US Department of Energy Solar Decathlon competition, the SU+RE House. While particular focus is paid to this student designed and built prototype home, the publication also provides a broader discussion of the value of design-build as a model for tackling the issue of integrating sustainability and resilience, and what changes are required across education, policy, practice and industry for widespread implementation |
first_indexed | 2024-03-05T15:46:48Z |
format | |
id | KOHA-OAI-TEST:545250 |
institution | Universiti Teknologi Malaysia - OCEAN |
language | eng |
last_indexed | 2024-03-05T15:46:48Z |
publishDate | 2018 |
publisher | Oxford : John Wiley & Sons, |
record_format | dspace |
spelling | KOHA-OAI-TEST:5452502020-12-19T17:20:36ZSU+RE : Sustainable + Resilient Design Systems / Nastasi, John, editor May, Ed, editor Snell, Clarke, editor Barry, Bronwyn, contributor Carpenter, Alex, contributor Cohen, Adam, contributor Holtzman, Ann, contributor Levenson, Ken, contributor Peters, Terri, contributor Robertson, Craig, contributor Stieldorf, Karin, contributor Washburn, Alexandros, contributor Weisz, Claire, contributor Wright, Graham S., contributor Peters, Brady, contributor Oxford : John Wiley & Sons,2018engIn 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, severe storms, extreme droughts and rising sea levels are becoming an increasingly reoccurring feature. To respond, a design process is required that seeks to integrate resiliency by building in the capacity to absorb the impacts of these disruptive events and adapt over time to further changes, while simultaneously being part of the solution to the problem itself. This issue of AD is guest-edited by the interdisciplinary team at Stevens Institute of Technology who developed the winning entry for the 2015 US Department of Energy Solar Decathlon competition, the SU+RE House. While particular focus is paid to this student designed and built prototype home, the publication also provides a broader discussion of the value of design-build as a model for tackling the issue of integrating sustainability and resilience, and what changes are required across education, policy, practice and industry for widespread implementationAbout the guest-editors, John Nastasi, Ed May, and Clarke Snell -- Climate change is the new gravity / Clarke Snell -- Unsustainability and the architecture of efficiency / Graham S. Wright -- Resilient design: 'Systems Thinking' as a response to climate change / Claire Weisz -- Global responses to local conditions: sustainability and resilience are nowhere the same / Alexandros Washburn -- Global warming is real: Superstorm Sandy, Stevens and the SU+RE House / John Nastasi -- High-performance enclosures: designing for comfort, durability and sustainability / Ken Levenson -- Practical resilience: low-tech plug-and-play innovation in the SU+RE House / Clarke Snell -- SU+RE power: energy independence and the sustainable resilient sun / Clarke Snell and Alex Carpenter -- Modelling to drive design: honing the SU+RE House through performance simulations / Ed May -- Defining environments: understanding architectural performance through modelling, simulation and isualisation / Brady Peters -- Data building: sensor feedback in sustainable design workflows / Terri Peters -- Building physics, design, and the collaborative build: sustainability and resilience in architectural education / Karin Stieldorf -- Climate change and the bottom line: delivering sustainable buildings at market rate / Adam Cohen and Clarke Snell -- Energy and design criticism: is it time for a new measure of beauty? / Bronwyn Barry -- The design of public policy: sustainability and resilience at the city scale / Ann Holtzman -- Aim high: pressing for a radical and global approach to sustainable design / Craig Robertson.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, severe storms, extreme droughts and rising sea levels are becoming an increasingly reoccurring feature. To respond, a design process is required that seeks to integrate resiliency by building in the capacity to absorb the impacts of these disruptive events and adapt over time to further changes, while simultaneously being part of the solution to the problem itself. This issue of AD is guest-edited by the interdisciplinary team at Stevens Institute of Technology who developed the winning entry for the 2015 US Department of Energy Solar Decathlon competition, the SU+RE House. While particular focus is paid to this student designed and built prototype home, the publication also provides a broader discussion of the value of design-build as a model for tackling the issue of integrating sustainability and resilience, and what changes are required across education, policy, practice and industry for widespread implementationPSZJBLSustainable architectureSustainable designURN:ISBN:9781119379515 |
spellingShingle | Sustainable architecture Sustainable design Nastasi, John, editor May, Ed, editor Snell, Clarke, editor Barry, Bronwyn, contributor Carpenter, Alex, contributor Cohen, Adam, contributor Holtzman, Ann, contributor Levenson, Ken, contributor Peters, Terri, contributor Robertson, Craig, contributor Stieldorf, Karin, contributor Washburn, Alexandros, contributor Weisz, Claire, contributor Wright, Graham S., contributor Peters, Brady, contributor SU+RE : Sustainable + Resilient Design Systems / |
title | SU+RE : Sustainable + Resilient Design Systems / |
title_full | SU+RE : Sustainable + Resilient Design Systems / |
title_fullStr | SU+RE : Sustainable + Resilient Design Systems / |
title_full_unstemmed | SU+RE : Sustainable + Resilient Design Systems / |
title_short | SU+RE : Sustainable + Resilient Design Systems / |
title_sort | su re sustainable resilient design systems |
topic | Sustainable architecture Sustainable design |
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