Exploring and defining flats geometry for minimizing dust

ARTEKS Jurnal Teknik Arsitektur Pub Date : 2022-08-01 DOI:10.30822/arteks.v7i2.1418

R. T. Maharani, S. Ekasiwi, F. Samodra, Yusvika Ratri Harmunisa, W. Sunarya

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引用次数: 1

Abstract

Residential houses such as flats located near industrial areas are vulnerable to the threat of high-intensity dust, thereby, exposing the occupants to Sick Building Syndrome (SBS) in the form of health problems, especially in the upper respiratory system. Therefore, this research was conducted to find appropriate design solutions to minimize dust from entering buildings through the application of geometric planes as a form of defense. It is also important to note that dust is closely related to the direction of the wind which is its conveying medium. This led to the determination of the right geometric shape to be applied as a dust barrier in the building facade. Moreover, this research was based on the force-based framework which proposes a form-refine-assembly stage consisting of several methods to determine the shape through simulation and evaluation associated with existing theories. The results were able to determine the position and shape of the facade area to serve as the barrier to the arrival of dust. The design is expected to be integrated into the shape and landscape layout of buildings to reduce dust in the site area.

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探索和定义平面几何，以尽量减少灰尘

住宅，如靠近工业区的公寓，容易受到高强度粉尘的威胁，从而使居住者以健康问题的形式暴露于病态建筑综合症(SBS)，特别是在上呼吸道系统。因此，本研究旨在通过应用几何平面作为一种防御形式，找到适当的设计解决方案，以最大限度地减少进入建筑物的灰尘。同样重要的是要注意，粉尘与作为其输送介质的风的方向密切相关。这导致了正确几何形状的确定，作为建筑立面的防尘屏障。此外，本研究基于基于力的框架，提出了一个由几种方法组成的形式优化装配阶段，通过与现有理论相关联的仿真和评估来确定形状。结果能够确定立面区域的位置和形状，作为灰尘到达的屏障。该设计有望融入建筑的造型和景观布局，减少场地区域的粉尘。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ARTEKS Jurnal Teknik Arsitektur

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