通过半透明结构确定热损失的方法

IF 0.3 Q4 ENERGY & FUELS Problemele Energeticii Regionale Pub Date : 2023-08-01 DOI:10.52254/1857-0070.2023.3-59.08
Vitaliy Malyarenko, Natalia Alyokhina, Svetlana Orlova
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引用次数: 0

摘要

这项工作的目的是确定半透明围栏的传热系数,考虑建筑物的层数、气候因素,如风速和室外温度。为了实现这一目标,解决了以下任务:将半透明外壳中的传热分析作为一个准静止过程;半透明屏障的传热过程分析,半透明屏障是由实心透明板和由框架结构连接的气隙组成的;根据气候因素和辐射成分确定玻璃表面的传热系数。最重要的结果是窗块外表面传热系数对雷诺准则的经验依赖性,考虑到气候参数,改进了确定窗块传热系数的依赖性。考虑到建筑物的位置及其高度、风速和室外温度的变化,整个窗户块的传热系数以解析比的形式表示。以某民用行政建筑为例,对非标准系列窗户结构的传热系数进行了评价。研究结果的意义在于,可以利用所获得的相关性来评估非标准形状的窗口结构的热特性。本文给出的传热系数与风速和室外空气温度的关系式可用于建筑的能量审计。
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Methodology for Determining Heat Losses through Translucent Construction
The purpose of this work is to determine the heat transfer coefficient of translucent fences, considering the number of storeys of buildings, climatic factors, such as wind velocity and outdoor temperature. To achieve this goal, the following tasks were solved: analysis of heat transfer in translucent enclosures as a quasi-stationary process; analysis of heat transfer processes in translucent barriers, which are a combination of solid transparent plates and air gaps connected by a frame structure; determination of the heat transfer coefficient on the glass surface depending on climatic factors and the radiant component. The most important result is the empirical dependence of the heat transfer coefficient on the outer surface of the window block on the Reynolds criterion, the dependences for determining the heat transfer coefficient of window blocks are improved, considering climatic parameters. The heat transfer coefficient of the window block as a whole is presented in the form of analytical ratios, considering the location of the building and its height, changes in wind velocity and outdoor temperature. This methodology was tested on the example of a civil administrative building, for which the heat transfer coefficients of window structures of non-standard series were evaluated. The significance of the research results lies in the possibility of using the obtained dependencies to assess the thermal characteristics of window structures of non-standard shapes. The dependences of the heat transfer coefficient on wind speed and outside air temperature given in the paper can be used in the energy audit of buildings.
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
38
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