优化混合通风和与日光联动的调光控制,在亚热带高层办公楼中实现减碳和热舒适性

F.W. Yu, W.T. Ho
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引用次数: 0

摘要

现有建筑耗电量的主要来源是空调和照明系统。本研究旨在优化亚热带高层办公大楼的混合通风和日光关联调光控制。目标是在确保热舒适和视觉舒适的同时减少碳排放。这两种策略可以在具有垂直窗户的典型幕墙系统中进行改造,而不会遇到任何技术限制。EnergyPlus用于分析这些策略对提高高层办公大楼的热舒适性和照度的影响,同时实现节电。以香港的典型气象年为例,根据窗墙比,在建筑物四周采用自然通风,可使建筑物的能源使用强度在总运行时数的30.09至34.97%内,降低2.6%至3.41%。此外,在总运行时间的91.39%至98.28%期间,周边区域的日光关联调光控制可以将暖通空调部分的EUI降低18.91%至21.9%,将照明部分的EUI降低8.09%至12.25%。使用高水比的采光有助于减少6.31%至9.21%的温室气体排放总量。该研究还开发了一个使用三个气候变量的逻辑回归模型来预测自然通风状况。总的来说,采光的使用极大地提高了可接受的预测平均投票(PMV)的百分比,在中间楼层面向东和向西的周边区域观察到最大的改善。然而,这两种策略的结合应用导致了适度的改善。本研究的新颖之处在于为实施这两种策略以实现碳减排提供了合适的wwr指导。此外,重要的是提供定量评估如何加强通风和照明控制有助于降低碳排放,同时提高热舒适。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Optimizing hybrid ventilation and daylight-linked dimming control for carbon reduction and thermal comfort in a subtropical high-rise office building

Optimizing hybrid ventilation and daylight-linked dimming control for carbon reduction and thermal comfort in a subtropical high-rise office building

The dominant contributors to electricity consumption in existing buildings are air-conditioning and lighting systems. This study aims to optimize hybrid ventilation and daylight-linked dimming control in a subtropical high-rise office building. The objective is to reduce carbon emissions while ensuring thermal and visual comfort. These two strategies can be retrofitted in a typical curtain wall system with vertical windows without encountering any technical limitations. EnergyPlus is used to analyze the impact of these strategies on enhancing thermal comfort and illuminance while achieving electricity savings in the high-rise office building. Based on the typical meteorological year of Hong Kong, using natural ventilation in perimeter zones can reduce the energy use intensity (EUI) by 2.6 to 3.41 % for 30.09 to 34.97 % of total operating hours, depending on window-to-wall ratios (WWRs). Furthermore, daylight-linked dimming control in perimeter zones can reduce EUI by 18.91 % to 21.9 % in the HVAC portion and 8.09 % to 12.25 % in the lighting portion during 91.39 % to 98.28 % of total operating hours. Using daylighting with a high WWR helps reduce 6.31 to 9.21 % in total greenhouse gas emissions. The study also develops a logistic regression model using three climatic variables to predict the natural ventilation status. Overall, the use of daylighting greatly improves the percentage of acceptable predicted mean vote (PMV), with the greatest improvements observed in perimeter zones facing east and west on the middle floors. However, the combined application of both strategies results in a tempered improvement. The novelty of this study lies in providing guidance on suitable WWRs for implementing both strategies to achieve carbon reduction. Moreover, the significance lies in providing a quantitative assessment of how enhanced ventilation and lighting controls contribute to lower carbon emissions while improving thermal comfort.

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