Dependence of Thermal Conductivity on Water Content in Vacuum Insulation Panels with Fumed Silica Kernels

Journal of Thermal Envelope and Building Science Pub Date : 2005-04-01 DOI:10.1177/1097196305051792
H. Schwab, U. Heinemann, A. Beck, H. Ebert, J. Fricke
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引用次数: 66

Abstract

The influence of moisture in vacuum insulation panels (VIPs), with fumed silica kernels, on their thermal conductivity has been investigated. The VIPs are produced with different water contents. The thermal conductivities at different water contents are measured under stationary conditions in a hot-plate apparatus with an average temperature of 10°C (plate temperatures are 0 and 20°C). The increase in thermal conductivity is approximately proportional to the water content. The increase is ≈0.5 × 10 -3 W/(m K) per mass% of water. For typical middle European climate, a maximum moisture content of ≈6 mass% can be expected, which corresponds to a maximum increase of thermal conductivity of ≈3 × 10 -3 W/(m K) for VIPs with fumed silica kernels.
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气相硅核真空绝热板导热系数与含水量的关系
研究了气相硅核真空绝热板(VIPs)中水分对其导热性能的影响。vip是用不同的含水量生产的。在平均温度为10°C(板温为0和20°C)的热板仪器中,在固定条件下测量不同含水量下的导热系数。热导率的增加近似与含水量成正比。每质量%的水增加约0.5 × 10 -3 W/(m K)。对于典型的中欧气候,可以预期最大含水量≈6质量%,这对应于热导率的最大增加≈3 × 10 -3 W/(m K)。
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Journal of Thermal Envelope and Building Science
Journal of Thermal Envelope and Building Science
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