Actions Towards Sustainable OutcomesududEnvironmental Issues/Principal ImpactsudThe increasing urbanisation of cities brings with it several detrimental consequences, such as:ud• Significant energy use for heating and cooling many more buildings has led to urban heat islands and increased greenhouse gas emissions.ud• Increased amount of hard surfaces, which not only contributes to higher temperatures in cities, but also to increased stormwater runoff.ud• Degraded air quality and noise.ud• Health and general well-being of people is frequently compromised, by inadequate indoor air quality.ud• Reduced urban biodiversity.ududBasic StrategiesudIn many design situations, boundaries and constraints limit the application of cutting EDGe actions. In these circumstances, designersudshould at least consider the following:ud• Living walls are an emerging technology, and many Australian examples function more as internal feature walls. However,as understanding of the benefits and construction of living walls develops this technology could be part of an exterior facade that enhances a building’s thermal performance.ud• Living walls should be designed to function with an irrigation system using non-potable water.ududCutting EDGe Strategiesud• Living walls can be part of a design strategy that effectively improves the thermal performance of a building, thereby contributing to lower energy use and greenhouse gas emissions.ud• Including living walls in the initial stages of design would provide greater flexibility to the design, especially of the facade, structural supports, mechanical ventilation and watering systems, thus lowering costs.ud• Designing a building with an early understanding of living walls can greatly reduce maintenance costs.ud• Including plant species and planting media that would be able to remove air impurities could contribute to improved indoor air quality, workplace productivity and well-being.udSynergies and Referencesud• Living walls are a key research topic at the Centre for Subtropical Design, Queensland University of Technology: http://www.subtropicaldesign.bee.qut.edu.auud• BEDP Environment Design Guide: DES 53: Roof and Facade Gardensud• BEDP Environment Design Guide: GEN 4: Positive Development – Designing for Net Positive Impactsud(see green scaffolding and green space frame walls).ud• Green Roofs Australia: www.greenroofs.wordpress.comud• Green Roofs for Healthy Cities USA: www.greenroofs.org
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机译:朝着可持续成果的方向发展 ud ud环境问题/主要影响 ud城市日益城市化带来了一些不利后果,例如: ud•大量供暖和制冷建筑物使用的大量能源导致城市热岛和温室效应的增加 ud•坚硬表面的数量增加,这不仅导致城市温度升高,而且导致雨水径流增加。 ud•空气质量和噪音下降。 ud•人们的健康和总体福祉 ud•减少城市生物多样性。 ud ud基本策略 ud在许多设计情况下,边界和约束条件限制了削减EDGe作用的应用。在这种情况下,设计人员至少应该考虑以下几点:居住墙是一种新兴技术,许多澳大利亚的例子更多地用作内部功能墙。但是,随着对活动墙的好处和构造的理解的发展,该技术可能成为增强建筑物热性能的外墙的一部分。 ud•活动墙的设计应与使用非饮用水的灌溉系统配合使用。 ud ud削减EDGe策略 ud•居住墙可以成为设计策略的一部分,该策略可有效改善建筑物的热性能,从而有助于降低能源消耗和温室气体排放。 ud•在设计的初始阶段包括居住墙将为设计提供更大的灵活性,尤其是立面,结构支撑,机械通风和浇水系统,从而降低成本。 ud•设计出对活动墙有早期了解的建筑物可以大大降低维护成本。 ud•包括厂房能够去除空气杂质的物种和种植介质可以有助于改善室内空气质量,工作场所生产力和健康ng。 ud协同作用和参考资料 ud•居住墙是昆士兰科技大学亚热带设计中心的一项重要研究课题:http://www.subtropicaldesign.bee.qut.edu.au ud•BEDP环境设计指南:DES 53:屋顶和立面花园 ud•BEDP环境设计指南:第4代:积极发展–设计净正面影响 ud(请参见绿色脚手架和绿色空间框架墙)。 ud•澳大利亚绿色屋顶:www.greenroofs .wordpress.com ud•美国健康城市的绿色屋顶:www.greenroofs.org
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