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首页> 外文期刊>Journal of building performance simulation >Optimization method for perforated solar screen design to improve daylighting using orthogonal arrays and climate-based daylight modelling
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Optimization method for perforated solar screen design to improve daylighting using orthogonal arrays and climate-based daylight modelling

机译:使用正交阵列和基于气候的日光建模来改善日光的带孔太阳能屏幕设计的优化方法

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This paper analyses the influence of different perforated solar screens (PSS) in annual daylight conditions expressed using climate-based daylight metrics. The PSS design require parametric studies that are often complex and time consuming due to a large number of simulations. Hence, a new methodology is proposed to optimize PSS design by applying Design of Experiments using Orthogonal Arrays (DOA). A case study from the DOA perspective has been conducted, which involves an office space in Seville, Spain. The goal is to assess the effect of the following PSS design variables in daylighting performance: perforation percentage, matrix, shape and orientation. DOA results reveal that optimized PSS can increase daylit area by 33% and reduce over lit area by 35%, compared with reference models with no PSS. DOA method reduces the number of simulations from the 256 required to 16, so it could save time during the initial stages of building design.
机译:本文分析了使用基于气候的日光度量标准表示的年度日照条件下不同的穿孔式遮阳板(PSS)的影响。 PSS设计需要进行参数研究,由于进行了大量的仿真,这些研究通常是复杂且耗时的。因此,提出了一种新方法,可通过使用正交阵列(DOA)进行实验设计来优化PSS设计。从DOA角度进行了案例研究,涉及西班牙塞维利亚的办公空间。目的是评估以下PSS设计变量对采光性能的影响:穿孔百分比,矩阵,形状和方向。 DOA结果表明,与没有PSS的参考模型相比,优化的PSS可以将日照面积增加33%,将整个照亮面积减少35%。 DOA方法将模拟次数从所需的256个减少到16个,因此可以在建筑设计的初始阶段节省时间。

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