迈向零碳建筑
摘要:讨论了向零碳建筑过渡的方式,并强调了将自上而下的政策与自下而上的建设活动紧密联系的必要性。在这种过渡中,还需要将技术解决方案整合进整个建筑全系统方案中,从而达到最佳结果。对于使用者以及能源经济模型,零碳建筑具有多重优势。通过阐述零碳建筑政策指导与项目实践之间的差距,指明了其解决方法与未来的发展方向。
关键词:零碳建筑 政策法规 项目实践 全系统方案
尊敬的用户,本篇文章需要2元,点击支付交费后阅读
限时优惠福利:领取VIP会员
全年期刊、VIP视频免费!
全年期刊、VIP视频免费!
参考文献[1] Jones P. Housing:From low energy to zero carbon[M].London:SAGE, 2012.
[2] Coma B, Patterson E, Jones P. A review of the evolution of green residential architecture[J]. Renewable and Sustainable Energy Reviews, 2020(6).
[3] Jones P, Pero M, Taucer F. The role of city-regions in the achievement of a low-carbon economy[EB/OL]. https://core.ac.uk/download/pdf/42534457.pdf, 2016-2-4.
[4] Jones P. A regional approach towards a low carbon built environment[C]//29th International Conference of PLEA Passive and Low Energy Architecture, 2013.
[5] Jones P. A'smart'bottom-up whole-systems approach to a zero-carbon built environment[J]. Building Research&Information, 2017,46(5):1-12.
[6] Jones P. An appetite to lead[J]. Touchstone, 2019(7):4-5.
[7] Jones P, Li X, Coma B, et al. The SOLCER energy positive house:Whole system simulation[C]//Proceedings of Building Simulation 2017:15th Conference of International Building Performance Simulation Association.San Francisco:ERDF, 2017.
[8] Jones P. Cost&value:Multiple benefits of green commercial buildings in western countries[C]//Proceedings of World Sustainable Built Environment Conference. Hong kong:WSBE, 2017.
[9] Jones P. A manifesto for a zero carbon future built environment[J]. Indoor and Built Environment, 2016, 25(7):1013-1015.
[2] Coma B, Patterson E, Jones P. A review of the evolution of green residential architecture[J]. Renewable and Sustainable Energy Reviews, 2020(6).
[3] Jones P, Pero M, Taucer F. The role of city-regions in the achievement of a low-carbon economy[EB/OL]. https://core.ac.uk/download/pdf/42534457.pdf, 2016-2-4.
[4] Jones P. A regional approach towards a low carbon built environment[C]//29th International Conference of PLEA Passive and Low Energy Architecture, 2013.
[5] Jones P. A'smart'bottom-up whole-systems approach to a zero-carbon built environment[J]. Building Research&Information, 2017,46(5):1-12.
[6] Jones P. An appetite to lead[J]. Touchstone, 2019(7):4-5.
[7] Jones P, Li X, Coma B, et al. The SOLCER energy positive house:Whole system simulation[C]//Proceedings of Building Simulation 2017:15th Conference of International Building Performance Simulation Association.San Francisco:ERDF, 2017.
[8] Jones P. Cost&value:Multiple benefits of green commercial buildings in western countries[C]//Proceedings of World Sustainable Built Environment Conference. Hong kong:WSBE, 2017.
[9] Jones P. A manifesto for a zero carbon future built environment[J]. Indoor and Built Environment, 2016, 25(7):1013-1015.
The Transition to Low-Carbon Buildings
Abstract: This paper discusses the transition towards a zero carbon built environment. It looks at the need to link top-down policy and bottomup activities. Technical solutions need to be combined within a whole building system approach in order to optimise solutions. The multiple benefits of a zero carbon built environment provide a more attractive perspective for people and financial models. The gap between policy to practice is addressed and a way forward outlined.
Keywords: low-carbon buildings; policy; practice; whole systems approach;
1108
12
12