大涡模拟,以确定建筑物特定的相似关系的自然通风流量

IF 2.8 Q2 MECHANICS
Y. Hwang, C. Gorl'e
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引用次数: 1

摘要

摘要自然通风在防止室内空气传播感染方面发挥着重要作用。然而,由于驱动气流的边界条件的显著可变性,量化自然通风流速是一项具有挑战性的任务。在当前的研究中,我们提出并验证了一种有效的策略,即使用计算流体动力学来评估可变条件下的自然通风流量,考虑到密集城市贫民窟中单间住宅的测试案例。该方法将无量纲通风率表征为无量纲通风理查森数和风向的函数。首先,通过全尺寸通风率测量验证了高保真度大涡模拟(LES)预测。接下来,对具有相同理查森数但不同维度风速和温度的模拟进行比较,以验证所提出的相似关系。最后,基于32个LES确定相似关系的函数形式。根据全尺寸测量对替代模型的验证表明,所提出的策略可以有效地为复杂城市环境中自然通风流量的准确建筑特定相似关系提供信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large-eddy simulations to define building-specific similarity relationships for natural ventilation flow rates
Abstract Natural ventilation can play an important role towards preventing the spread of airborne infections in indoor environments. However, quantifying natural ventilation flow rates is a challenging task due to significant variability in the boundary conditions that drive the flow. In the current study, we propose and validate an efficient strategy for using computational fluid dynamics to assess natural ventilation flow rates under variable conditions, considering the test case of a single-room home in a dense urban slum. The method characterizes the dimensionless ventilation rate as a function of the dimensionless ventilation Richardson number and the wind direction. First, the high-fidelity large-eddy simulation (LES) predictions are validated against full-scale ventilation rate measurements. Next, simulations with identical Richardson numbers, but varying dimensional wind speeds and temperatures, are compared to verify the proposed similarity relationship. Last, the functional form of the similarity relationship is determined based on 32 LES. Validation of the surrogate model against full-scale measurements demonstrates that the proposed strategy can efficiently inform accurate building-specific similarity relationships for natural ventilation flow rates in complex urban environments.
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来源期刊
CiteScore
2.40
自引率
0.00%
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