Microclimate Parameters Evaluation for Spaces with Windows of Different Thermal Protection

IF 0.3 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Light & Engineering Pub Date : 2021-10-01 DOI:10.33383/2021-078

A. Frolova, S. Landyrev

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引用次数: 2

Abstract

Radiation cold flows from the windows in the winter period play an important role in the formation of the room overall thermal microclimate. The compliance with the requirements of GOST 30494–2011 for the resulting temperature and the local asymmetry of the resulting temperature in the centre of the room, as well as the boundaries of its serviced area, is not subject to any verification during the expert examination of the building projects. The designers do not perform such a check due to the absence of a method for calculating the influence of the temperature of all surrounding surfaces on these indicators. The standards for reduced heat transfer resistances of windows in residential and commercial public buildings have recently been increased. However, for the buildings of medical and preventive, preschool educational, general education institutions, and boarding schools these standards have remained the same. In the proposed work, the problem of the indoor microclimate parameter assessment is solved by calculations using the example of a library reading room with higher thermal protection of the windows and a classroom of the art school, where the window thermal protection has remained the same, in the city of Irkutsk. The percentage of the facade glazing in both cases was 34.5 %. The calculations, which have been made for the coldest calculation period, showed that for windows with an increased heat transfer resistance, the heating devices of the water heating system neutralize the cooling effect of the window radiation fluxes. In the rooms with an air heating system, the optimal norms of the resulting temperature are not met. For various regions of Russia, provision should be made of larger studies as to the combinations of the window heat transfer resistance and the window size to follow the daylighting standards, when the norms of the resulting temperature and the asymmetry of the resulting temperature are not possible to be met.

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不同防热窗空间小气候参数评价

冬季窗口辐射冷流对室内整体热小气候的形成起着重要作用。符合GOST 30494-2011对产生的温度和房间中心产生的温度的局部不对称性的要求，以及其服务区域的边界，在建筑项目的专家审查期间不受任何验证。由于缺乏计算所有周围表面温度对这些指标的影响的方法，设计人员不进行这样的检查。最近，住宅和商业公共建筑的窗户传热阻力降低标准有所提高。但是，对于医疗和预防、学前教育、普通教育机构和寄宿学校的建筑物，这些标准保持不变。在本文中，以伊尔库茨克市的一个具有较高窗户热保护的图书馆阅览室和一个保持窗户热保护不变的艺术学校教室为例，通过计算解决了室内小气候参数评估的问题。在这两种情况下，立面玻璃的百分比都是34.5%。对最冷计算期的计算结果表明，对于传热阻力增大的窗口，水加热系统的加热装置抵消了窗口辐射通量的冷却作用。在有空气加热系统的房间中，产生的温度不符合最佳规范。对于俄罗斯的各个地区，当产生的温度的规范和产生的温度的不对称不可能满足时，应该提供更大的研究，关于窗户传热阻力和窗户尺寸的组合，以遵循采光标准。

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

Light & Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-OPTICS

CiteScore

1.00

自引率

50.00%

发文量

审稿时长

1 months

期刊介绍： Our magazine develops comprehensive communication within the lighting community, providing opportunities for discussion and free expression of opinions of specialists of different profiles; contributes to the convergence of science and engineering practice, the search for opportunities for the application of research results in lighting and technological applications of light; keeps the scientific community up to date with the latest advances in the theory of the light field, providing readers with operational professional information; initiates international cooperation, promotes and distributes the results of Russian authors in the international professional community; provides equal opportunities for authors from different regions of Russia and other countries. The journal publishes articles in the following areas: visual and non-visual effects of radiation on humans; light field theory; photometry and colorimetry; sources of light; ballasts; light devices, their design and production technology; lighting and irradiation installation; light signaling; methods of mathematical modeling of light devices and installations; problems of energy saving in lighting, installation and operation of lighting installations; modern production technologies of lighting products for lighting control systems; innovative design solutions; innovations in lighting and lighting design; the study of the effect on plants and animals, problems of using light in medicine; problems of disinfection of premises, water and smell elimination with the help of technology of UV radiation using; problems of light in the ocean and space.