Ð“Ð¾ÑÑ‚Ð¸Ð½Ð¸Ñ†Ð° Ñ Ð·Ð¸Ð¼Ð½Ð¸Ð¼ ÑÐ°Ð´Ð¾Ð¼

descriptionPublicationkeyboard_double_arrow_right Other literature type 01 Jan 2020 Russian Publisher:Ð¡Ð°Ð½ÐºÑ-ÐÐµÑÐµÑÐ±ÑÑÐ³ÑÐºÐ¸Ð¹ Ð¿Ð¾Ð»Ð¸ÑÐµÑÐ½Ð¸ÑÐµÑÐºÐ¸Ð¹ ÑÐ½Ð¸Ð²ÐµÑÑÐ¸ÑÐµÑ ÐÐµÑÑÐ° ÐÐµÐ»Ð¸ÐºÐ¾Ð³Ð¾

doi: 10.18720/spbpu/3/2020/vr/vr20-4245

Ð“Ð¾ÑÑ‚Ð¸Ð½Ð¸Ñ†Ð° Ñ Ð·Ð¸Ð¼Ð½Ð¸Ð¼ ÑÐ°Ð´Ð¾Ð¼

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Abstract

In this work, we study the glazing technologies used in high-rise buildings with an assessment of the possibility of their application in the winter garden. Tasks to be solved during the research: - determine the requirements for the applied glazing; - determine the features of the applied types of glazing; â€“ conduct a comparative analysis of different types of glazing; - evaluate the possibility of using these types of glazing in the hotel building. Empirical and theoretical methods were used as the methods of this research. Theoretical research methods were analysis, synthesis, comparison, and generalization. The following methods are used as empirical methods: method-operation-study of literature, documents and results; methodsactions â€“ study and generalization of experience, retrospective analysis. Within the framework of the diploma project, the project documentation was consistently developed in accordance with the design specification and regulatory sources. In the research part, different types of glazing used in high-rise buildings were considered. An analysis of their light transmission was conducted, and based on the results of this analysis, conclusions were made about the impact of the type of glazing used on the life of plants and on the energy efficiency of both the winter garden individually and the building as a whole: â€“ the use of low-emission glass allows you to reduce energy costs in the cold period of the year by 71.8%, in the warm period-by 28%; â€“ the use of thermochromic glass increases energy costs in the cold period of the year by 5%, in the warm period reduces costs by 9%; â€“ the use of electrochromic glass increases energy costs in the cold period of the year by 23%, in the warm period reduces costs by 31.5%. The results are applied to buildings of any purpose with a translucent facade, winter gardens, and atriums. As a conclusion, we can say that the most energy-efficient and most reliable in operation is low-emission glass. Thermochromic and electrochromic glasses increase energy costs in the cold period, due to the fact that the "active" layer applied to them, which is responsible for changing the hue, reduces the light transmission in the original transparent state. These two types of glazing more meet the requirements for protection from the sun and to increase the comfort of your stay

Keywords

k-glass, Ð·ÐµÐ»ÐµÐ½Ð°Ñ Ð°ÑÑ Ð¸ÑÐµÐºÑÑÑÐ°, ÑÐ»ÐµÐºÑÑÐ¾Ñ ÑÐ¾Ð¼Ð½Ð¾Ðµ ÑÑÐµÐºÐ»Ð¾, smart glass, ecd-glass, ecd-ÑÑÐµÐºÐ»Ð¾, ÑÐ¼Ð½Ð¾Ðµ ÑÑÐµÐºÐ»Ð¾, thermochromic glass, pdlc-ÑÑÐµÐºÐ»Ð¾, energy efficiency, iglass, k-ÑÑÐµÐºÐ»Ð¾, spd-glass, low-e glass, ÑÐµÑÐ¼Ð¾Ñ ÑÐ¾Ð¼Ð½Ð¾Ðµ ÑÑÐµÐºÐ»Ð¾, ÑÐ½ÐµÑÐ³Ð¾ÑÑÑÐµÐºÑÐ¸Ð²Ð½Ð¾ÑÑÑ, winter garden, electrochromic glass, pdlc-glass, Ð½Ð¸Ð·ÐºÐ¾ÑÐ¼Ð¸ÑÑÐ¸Ð¾Ð½Ð½Ð¾Ðµ ÑÑÐµÐºÐ»Ð¾, i-ÑÑÐµÐºÐ»Ð¾, green architecture, spd-ÑÑÐµÐºÐ»Ð¾, Ð·Ð¸Ð¼Ð½Ð¸Ð¹ ÑÐ°Ð´

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