Optimizing the design of courtyard houses for passive cooling in hot, dry regions

IF 2.2 4区工程技术 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Building Performance Simulation Pub Date : 2022-10-28 DOI:10.1080/19401493.2022.2134460

H. M. Khan, G. F. Lane-Serff, J. Dewsbury

引用次数: 1

Abstract

The courtyard is an architectural element found in hot arid regions due to its thermal performance that gives it cooler temperatures than the outside resulting from shading and night cooling. Previous papers focus only on either shading or ventilation and never together. This paper employs CFD techniques to simulate heat transfer in the courtyard. The results are presented through time constants showing the response of the thermal mass of the building containing the courtyard toward solar radiation and night cooling and the effect of both being combined in a factor called the Night-Time Effectiveness Ratio (NTER). The research includes simulation for different courtyard sizes and other building elements around the courtyard, like galleries. The results show the importance of the courtyard’s width in changing the performance of night ventilation. Adding extra shading elements such as galleries can enhance thermal performance by 30–60%.

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在炎热干燥地区，优化四合院被动制冷的设计

庭院是炎热干旱地区的一个建筑元素，因为它的热性能使它的温度比外面更低，这是由于遮阳和夜间冷却。以前的论文只关注遮阳或通风，从未同时关注。本文采用CFD技术对庭院内的传热进行模拟。结果通过时间常数呈现，显示了包含庭院的建筑的热质量对太阳辐射和夜间冷却的响应，以及两者结合在一个称为夜间有效比(NTER)的因素中的影响。研究包括模拟不同大小的庭院和庭院周围的其他建筑元素，如画廊。结果表明，庭院宽度对夜间通风性能的影响。增加额外的遮阳元素，如走廊，可以提高30-60%的热性能。

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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来源期刊

Journal of Building Performance Simulation CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

5.50

自引率

12.00%

发文量

审稿时长

12 months

期刊介绍： The Journal of Building Performance Simulation (JBPS) aims to make a substantial and lasting contribution to the international building community by supporting our authors and the high-quality, original research they submit. The journal also offers a forum for original review papers and researched case studies We welcome building performance simulation contributions that explore the following topics related to buildings and communities: -Theoretical aspects related to modelling and simulating the physical processes (thermal, air flow, moisture, lighting, acoustics). -Theoretical aspects related to modelling and simulating conventional and innovative energy conversion, storage, distribution, and control systems. -Theoretical aspects related to occupants, weather data, and other boundary conditions. -Methods and algorithms for optimizing the performance of buildings and communities and the systems which service them, including interaction with the electrical grid. -Uncertainty, sensitivity analysis, and calibration. -Methods and algorithms for validating models and for verifying solution methods and tools. -Development and validation of controls-oriented models that are appropriate for model predictive control and/or automated fault detection and diagnostics. -Techniques for educating and training tool users. -Software development techniques and interoperability issues with direct applicability to building performance simulation. -Case studies involving the application of building performance simulation for any stage of the design, construction, commissioning, operation, or management of buildings and the systems which service them are welcomed if they include validation or aspects that make a novel contribution to the knowledge base.