埃及新行政首都办公楼早期设计采光与能耗多目标参数化优化

Ahmed Toutou
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引用次数: 8

摘要

在过去的几年里,建筑优化方法取得了很大的进步。Mustapha Sadeghipour Roudasri等人发现了新的工具“Ladybug, Honeybee and Butterfly”,它可以聚集许多仿真引擎和可视化工具“Energyplus, OpenStudio, Radiance, Daysim, CFD, OpenFOAM等”。因此,这些仿真引擎将与Grasshopper中的参数化建模和通过Octopus插件的多目标优化相结合,在一个画布中形成一个早期的参数化优化框架。本文旨在通过基于参数的优化方法,对埃及新行政首都办公大楼的采光水平和能耗进行多目标优化,寻找合适的平面形状和建筑构型。研究了这类建筑最常用的平面形状之一。这种形状和许多建筑配置“WWR,窗户材料,墙壁材料和遮阳装置”被参数化建模。这些参数将形成许多权衡,这些权衡将由前面的框架模拟和优化。空间日光自主性(SDA300/50%)用于优化采光,能源使用强度(EUI)用于优化能耗。通过章鱼插件,采用遗传算法进行多目标优化。实现了平面形状和建筑结构的接近最佳设计,以平衡采光和能耗,将成为埃及该地区快速发展的办公大楼的参考模型。本研究中使用的框架将指导设计师在一个画布中找到有效的解决方案,从而避免多个引擎和脚本之间的冲突。
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Parametric Approach for Multi-Objective Optimization for Daylighting and Energy Consumption in Early Stage Design of Office Tower in New Administrative Capital City of Egypt
In the last few years, great improvements have been achieved in building optimization methods. Mustapha Sadeghipour Roudasri and others found new tools ” Ladybug, Honeybee and Butterfly” which could gather many simulation engines and visualization tools ” Energyplus, OpenStudio, Radiance, Daysim, CFD, OpenFOAM, etc ”. Consequently, These simulation engines will integrate with parametric modeling in Grasshopper and multiobjective optimization through Octopus plug-in to form an early stage parametric optimization framework in one canvas. This paper aims at finding the suitable plane shape and building configurations for multi-objective optimization to the daylighting levels and energy consumption of office tower building in the new administrative capital city in Egypt through parametric based optimization method. One of the most commonly used plan shapes of these types of buildings was studied. This shape and many building configurations ”WWR, window material, wall material and shading devices” were parametrically modeled. These Parameters will form many tradeoffs which will be simulated and optimized by the previous framework. Spatial Daylight Autonomy ”SDA300/50%” is examined to optimize Daylighting while Energy Use Intensity ” EUI” is used for energy consumption optimization. Multi-Objective Optimization was performed by genetic algorithms via Octopus plug-in. The near optimum design for plan shape and building configuration to balance between daylighting and energy consumption is achieved and will be a reference model for office tower buildings in this zone in Egypt which is under rapid development. The framework used in this study will guide designers to find effective solutions for early-stage design of office building in one canvas without any conflict between several engines and scripts.
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