Virtually all residential and commercial windows in the U.S. have some form of window attachment, but few have been designed for energy savings. ISO 15099 presents a simulation framework to determine thermal performance of window attachments, but the model has not been validated for these products. This paper outlines a review and validation of the ISO 15099 centre-of-glass heat transfer correlations for perimeter gaps (top, bottom, and side) in naturally ventilated cavities through measurement and simulation. The thermal transmittance impact due to dimensional variations of these gaps is measured experimentally, simulated using computational fluid dynamics, and simulated utilizing simplified correlations from ISO 15099. Results show that the ISO 15099 correlations produce a mean error between measured and simulated heat flux of 2.5 +/- 7%. These tolerances are similar to those obtained from sealed cavity comparisons and are deemed acceptable within the ISO 15099 framework.
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机译:实际上,美国的所有住宅和商业窗户都具有某种形式的窗户附件,但是很少有人设计用于节能。 ISO 15099提供了一个模拟框架来确定窗户附件的热性能,但是该模型尚未针对这些产品进行验证。本文概述了通过测量和模拟对自然通风腔中周向间隙(顶部,底部和侧面)的ISO 15099玻璃中心传热相关性的审查和验证。通过实验测量由于这些间隙尺寸变化而引起的热传输率影响,使用计算流体动力学进行模拟,并使用来自ISO 15099的简化相关性进行模拟。结果表明,ISO 15099相关性在测量和模拟的热通量之间产生2.5 +的平均误差/-7%。这些公差与通过密封腔比较获得的公差相似,在ISO 15099框架内被认为是可以接受的。
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