Field measurements on thermal stratification and cooling potential of natural ventilation for large space buildings

IF 1.1 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Ventilation Pub Date : 2020-01-02 DOI:10.1080/14733315.2018.1544730

Yan Tong, Kai Lin, Q. Hu, X. Niu, Jun-huan Peng, D. Huo, Wenjie Yan

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引用次数: 5

Abstract

Abstract Large space buildings often have high HVAC energy consumption, and the thermal pressure ventilation can be utilized to reduce the using of chiller. Temperatures were tested on two naturally ventilated large spaces, and it increased linearly towards the ceiling with its gradients α being in range of 0.1–0.4 °C/m. The traditional stack effect model is modified by introducing thermal stratification. For three hot and humid cities in China, the acceptable indoor air temperatures are discussed and determined based on its monthly outdoor air temperatures. Investigations are done to find out parameters’ influences on the indoor thermal environment. It is known that both the dimensionless neutral plane height Hn/H and the volumetric flow rate per unit floor area l are not sensitive to outdoor climate, but decrease with increasing of the lower-upper opening area ratio Rab; the occupied air temperature tn increases with the increase of Rab or q but with the decrease of α or H; under case of 0.2 °C/m and 150 W/m2, Nanjing has the maximum scopes of available upper opening areas in transition season to achieve natural ventilation cooling potential. Such results would be useful in design and management of upper openings for large spaces.

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大空间建筑自然通风的热分层和冷却势的现场测量

大空间建筑的暖通空调能耗往往较高，采用热压通风可以减少制冷机的使用。在两个自然通风的大空间中进行温度测试，其梯度α在0.1-0.4°C/m范围内，沿天花板呈线性增加。通过引入热分层对传统的叠加效应模型进行了修正。以中国三个湿热城市为例，根据其每月室外气温，讨论并确定了可接受的室内空气温度。研究了各参数对室内热环境的影响。可知，无量纲中性面高度Hn/H和单位建筑面积容积流量l对室外气候不敏感，但随着上下开口比Rab的增大而减小;占空温度tn随Rab或q的增大而增大，随α或H的减小而减小;在0.2°C/m和150 W/m2条件下，南京在过渡季实现自然通风降温潜力的可用上开口面积范围最大。这些结果将有助于大空间上层开口的设计和管理。

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

International Journal of Ventilation CONSTRUCTION & BUILDING TECHNOLOGY-ENERGY & FUELS

CiteScore

3.50

自引率

6.70%

发文量

审稿时长

>12 weeks

期刊介绍： This is a peer reviewed journal aimed at providing the latest information on research and application. Topics include: • New ideas concerned with the development or application of ventilation; • Validated case studies demonstrating the performance of ventilation strategies; • Information on needs and solutions for specific building types including: offices, dwellings, schools, hospitals, parking garages, urban buildings and recreational buildings etc; • Developments in numerical methods; • Measurement techniques; • Related issues in which the impact of ventilation plays an important role (e.g. the interaction of ventilation with air quality, health and comfort); • Energy issues related to ventilation (e.g. low energy systems, ventilation heating and cooling loss); • Driving forces (weather data, fan performance etc).