外真空绝缘复合系统的性能概述

N. Simões, M. Gonçalves, C. Serra, I. Flores-Colen
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引用次数: 0

摘要

外保温复合体系(ETICS)是一种常用的建筑墙体保温施工技术。结合超级绝缘材料,如真空隔热板(VIP), ETICS是一种具有巨大潜力的解决方案,可以改善立面的热性能,实现几乎零能耗的建筑。然而,vip在建筑中的应用提出了一些需要考虑的挑战。也就是说,那些与处理和安装问题、设计因素、面板之间的边缘热桥接、围绕真空技术长期性能和高投资成本的疑虑有关的问题。此外,常规ETICS通常会出现异常的早期迹象,而使用vip可能会使情况恶化。因此,在基于VIP的ETICS成为可行的解决方案之前,需要对许多方面进行评估。本文的主要目的是研究将VIP解决方案纳入ETICS的可行性。为此,对该解决方案进行了广泛的调查,主要采用实验方法。首先,重点放在VIP热性能上,特别是关于边缘热桥接效应。然后,根据整个系统的湿热性能和耐久性对基于vip的ETICS墙体进行了评估。真实的现场墙壁和实验室大型测试标本进行了评估。制定了新的实验程序,以评估溶液的耐久性,并能够早期识别潜在的异常,特别是当暴露在太阳辐射下时。最后,采用全寿命周期成本法对真空技术的成本效益进行了分析。本研究表明,vip可以成功应用于ETICS。然而,这种集成需要一丝不苟地执行,因为需要考虑到VIP安装的具体问题。
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OVERVIEW OF THE PERFORMANCE OF AN EXTERNAL VACUUM INSULATION COMPOSITE SYSTEM
The external thermal insulation composite system (ETICS) is a construction technology commonly used for insulating building walls. Incorporating a super-insulation material, such as vacuum insulation panel (VIP), ETICS is a solution with great potential for improving the thermal performance of façades towards achieving nearly-zero energy buildings. However, the application of VIPs in buildings presents several challenges that need to be taken into account. Namely, those associated with handling and installation issues, design factors, as well as with the edge thermal bridging that occurs between panels, the doubts surrounding long-term performance and the high investment costs of vacuum technology. Also, conventional ETICS often presents early-signs of anomalies that could be worsened by using VIPs. Thus, many aspects need to be evaluated before VIP based ETICS become a viable solution. The main goal of this paper was to study the feasibility of incorporating a VIP solution into ETICS. For this purpose, an extensive investigation into the solution was carried out, following mainly experimental approaches. First, focus was put on the VIP thermal performance, in particular regarding the edge thermal bridging effect. Then, VIP-based ETICS walls were evaluated in terms of the whole system hygrothermal performance and durability. Real onsite walls and laboratory large-scale test specimens were assessed. New experimental procedures were defined to evaluate the durability of the solution and to enable the early identification of potential anomalies, in particular when exposed to solar radiation. Lastly, the cost-effectiveness of vacuum technology was analysed by means of a life cycle costing assessment. This research indicates that VIPs can be successfully used in ETICS. Nevertheless, such integration needs to be meticulously performed, since concerns specific to VIP installation need to be taken into account.
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