Optimizing Design Layout of a Riverside Residential Settlement in terms of the Thermal Comfort

Lei Yu, Jing Liu, J. Tao
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引用次数: 1

Abstract

The thermal comfort of a riverside residential settlement differs from a non-riverside residential one, which might be caused by a microclimatic difference. Inducing wind from a river to cross the whole riverside residential settlement could improve the outdoor thermal comfort significantly. Such knowledge triggers a study of utilizing river wind to enhance thermal comfort to a riverside residential settlement in southern China. The study explores various possible layouts of a riverside residential settlement using Computational Fluid Dynamic (CFD) simulations. The thermal comfort index OUT_SET* (the Standard Effective Temperature) that combines effects of air temperature, radiation, wind velocity, and the water evaporation, has been used to evaluate thermal comfort of various riverside residential settlements due to different design layouts. The result showed that the loose enclosed layout is the best one for the thermal comfort whereas the back and front aligned determinant layout is the worst. In order to apply the results into a real world, a case study has been made to the Shenzhen Nan Hua Cun. The thermal environment of this Chinese southern riverside residential settlement has been researched. According to thermal problems revealed by CFD simulation, an optimization design layout was proposed by applying the study results. Eventually, the thermal comfort between the current situation and the optimization design has been compared.
基于热舒适性的滨江居民点优化设计布局
滨江人居环境与非滨江人居环境的热舒适性存在差异,这可能是由小气候差异造成的。诱导河风贯穿整个沿江住区,可显著提高室外热舒适性。这样的认识引发了利用河风来提高中国南方河边住区热舒适性的研究。本研究利用计算流体动力学(CFD)模拟探讨了河边居民点的各种可能布局。采用综合气温、辐射、风速、水分蒸发等因素影响的热舒适指数OUT_SET*(标准有效温度),对不同设计布局下的滨江住区进行热舒适评价。结果表明,松散封闭布局的热舒适性最佳,前后对齐行列式布局的热舒适性最差。为了将研究结果应用于实际,本文以深圳南华村为例进行了研究。对中国南方滨江民居聚落热环境进行了研究。针对CFD模拟揭示的热问题,应用研究结果提出了优化设计布局。最后,对优化设计与现状的热舒适性进行了比较。
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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