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Integrated Design Process for High-Performance Buildings; A Case Study from Dubai
Sustainability ( IF 3.9 ) Pub Date : 2021-07-30 , DOI: 10.3390/su13158529
Amna Shibeika , Maatouk Khoukhi , Omar Al Khatib , Nouf Alzahmi , Shamma Tahnoon , Maryam Al Dhahri , Nouf Alshamsi

Due to the scarcity of water and the harsh desert climate of the United Arab Emirates (UAE), water and energy are two of the main challenges for the design of sustainable buildings in the UAE. Relevant literature calls for the consideration of building systems and materials at the design stage to achieve high-performing buildings and to save on the operational costs of the building. The aim of this research was to design a high-performance building that meets the environmental sustainability requirements for water and energy, in the city of Dubai to reflect the technological advancements of the UAE Mars mission. This has been achieved through following an integrated design process, which was mainly focused on the evaluation and specification of the building engineering systems based on performance, besides the goal of achieving visually appealing building with advanced structural design. The performance verification of the final building design, which considered engineering systems design from conception and through the design and detailed design stages, revealed a 15% reduction in water consumption and a 60% reduction in energy consumption. This provides a valuable contribution to architectural engineering practice, by demonstrating a case study for enhancing energy and water efficiency via building design, which consequently contributes to the environmental sustainability of the built environment.

中文翻译:

高性能建筑的集成设计流程;来自迪拜的案例研究

由于阿拉伯联合酋长国 (UAE) 缺水和恶劣的沙漠气候,水和能源是阿联酋可持续建筑设计的两大挑战。相关文献呼吁在设计阶段考虑建筑系统和材料,以实现高性能建筑并节省建筑运营成本。这项研究的目的是在迪拜市设计一座满足水和能源环境可持续性要求的高性能建筑,以反映阿联酋火星任务的技术进步。这是通过遵循集成设计过程实现的,该过程主要侧重于基于性能的建筑工程系统的评估和规范,除了通过先进的结构设计实现具有视觉吸引力的建筑的目标。最终建筑设计的性能验证从概念到设计和详细设计阶段都考虑了工程系统设计,结果表明用水量减少了 15%,能耗减少了 60%。通过展示通过建筑设计提高能源和水效率的案例研究,这为建筑工程实践提供了宝贵的贡献,从而有助于建筑环境的环境可持续性。水消耗量减少 15%,能源消耗量减少 60%。通过展示通过建筑设计提高能源和水效率的案例研究,这为建筑工程实践提供了宝贵的贡献,从而有助于建筑环境的环境可持续性。水消耗量减少 15%,能源消耗量减少 60%。通过展示通过建筑设计提高能源和水效率的案例研究,这为建筑工程实践提供了宝贵的贡献,从而有助于建筑环境的环境可持续性。
更新日期:2021-07-30
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