Simulation of roof snow loads based on a multi-layer snowmelt model: Impact of building heat transfer

IF 6.1 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Xuanyi Zhou, Heng Chen, Yue Wu, Tiange Zhang
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引用次数: 0

Abstract

To investigate the impact of building heat transfer on roof snow loads, roof snow loads and snow load thermal coefficients from 61 Chinese sites over a period of 50 years are simulated based on basic meteorological data such as temperature, humidity, wind speed, and precipitation, and a multi-layer snowmelt model considering the building heat transfer. Firstly, the accuracy of the multi-layer snowmelt model is validated using the data of observed ground snow load and roof snow melting tests. The relationship between meteorological conditions, snow cover characteristics, and thermal coefficients of snow loads in three representative sites is then studied. Furthermore, the characteristics of thermal coefficients in each zone are analyzed by combining them with the statistical results of meteorological data from 1960 to 2010, and the equations of thermal coefficients in different zones on indoor temperatures and roof heat transfer coefficients are fitted separately. Finally, the equations in this paper are compared with the thermal coefficients in the main snow load codes. The results indicate that the snowmelt model using basic meteorological data can effectively provide samples of roof snow loads. In the cold zone where the snow cover lasts for a long time and does not melt easily, the thermal coefficients of the snow loads on the heating buildings are lower than those in the warm zone due to the long-term influence of the heat from inside the buildings. Thermal coefficients are negatively correlated with indoor temperatures and roof heat transfer coefficients. When the indoor temperature is too low or the roof insulation is good, the roof snow load may exceed the ground snow load. The thermal coefficients for heated buildings in the main snow load codes are more conservative than those calculated in this paper, and the thermal coefficients for buildings with lower indoor temperatures tend to be smaller.

基于多层融雪模型的屋顶雪荷载模拟:建筑物传热的影响
为了研究建筑传热对屋顶雪荷载的影响,根据温度、湿度、风速和降水量等基本气象数据,并考虑建筑传热的多层融雪模型,模拟了中国 61 个地点 50 年间的屋顶雪荷载和雪荷载热系数。首先,利用地面雪荷载观测数据和屋顶融雪试验数据验证了多层融雪模型的准确性。然后研究了三个代表性地点的气象条件、积雪覆盖特征和雪荷载热系数之间的关系。此外,结合 1960 年至 2010 年气象数据的统计结果,分析了各区域热系数的特点,并分别拟合了不同区域热系数对室内温度和屋顶传热系数的影响方程。最后,本文中的方程与主要雪荷载规范中的热系数进行了比较。结果表明,使用基本气象数据的融雪模型可以有效地提供屋顶雪荷载样本。在积雪覆盖时间长且不易融化的寒冷地区,由于建筑物内部热量的长期影响,供暖建筑物的雪荷载热系数低于温暖地区。热系数与室内温度和屋顶传热系数呈负相关。当室内温度过低或屋顶隔热性能良好时,屋顶雪荷载可能会超过地面雪荷载。在主要的雪荷载规范中,供暖建筑的热系数比本文计算的热系数更为保守,室内温度较低的建筑的热系数往往较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Building Simulation
Building Simulation THERMODYNAMICS-CONSTRUCTION & BUILDING TECHNOLOGY
CiteScore
10.20
自引率
16.40%
发文量
0
审稿时长
>12 weeks
期刊介绍: Building Simulation: An International Journal publishes original, high quality, peer-reviewed research papers and review articles dealing with modeling and simulation of buildings including their systems. The goal is to promote the field of building science and technology to such a level that modeling will eventually be used in every aspect of building construction as a routine instead of an exception. Of particular interest are papers that reflect recent developments and applications of modeling tools and their impact on advances of building science and technology.
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