Keywords: analysis

Ecological Safety of Construction in Single-Industry Town

https://doi.org/10.58224/2618-7183-2023-6-3-59-78
Abstract
Ensuring environmental safety during construction works is an important condition for the sustainable development of single-industry towns. The high rate of urbanization, population growth of single-industry towns and their active construction leads to negative anthropogenic changes in the en-vironment, which negatively affects both the ecology and the life of the population of a single-industry town. In this article the basic factors of the influence of the sphere of construction on the environment are considered, the aspects of providing ecological safety during construction are investigated, the normative-legal base regulating these aspects during construction works is analyzed, and also possible approaches and measures to decrease the negative influence of construction on the environment in monotowns are given.
The article proposes measures to reduce the negative impact on the environment and improve envi-ronmental safety of construction in single-industry towns, such as complementing the existing legisla-tion with stricter standards and requirements to ensure environmental safety during construction work in single-industry towns, development and active implementation of modern environmental materials and technologies, strengthening environmental control mechanisms of the construction sphere in sin-gle-industry towns and raising awareness of business and population. The article was prepared based on the results of research carried out at the expense of budgetary funds under the state assignment of the Financial University.
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EXERGETIC ANALYSIS OF A BUILDING AS A KEY ELEMENT OF A HEAT SUPPLY SYSTEM

https://doi.org/10.34031/2618-7183-2021-4-3-23-40
Abstract
The study of the complex influence of weather and climatic factors and their variability on the needs of energy and exergy when creating thermal comfort in a house with various engineering and architectural characteristics is carried out. It is confirmed that even for houses with relatively low thermal characteristics built in accordance with regulatory documents, the role of solar radiation in the formation of the heat balance, especially at the beginning and end of the heating season, is important. Studies showed that due to the combined influence of external meteorological factors, with the improvement of the thermal characteristics of houses, the correlation between the energy demand for creating a favorable microclimate and the outdoor air temperature significantly worsens. It is determined that in this case, the value of the approximation reliability decreases from 1 (with a linear dependence) to 0.55 and lower (with the maximum possible improved thermal characteristics of the house today). This position significantly corrects the operating modes and characteristics of the ST. In particular, this makes it necessary to improve the automatic control system of ST. And this, in turn, increases the investment component of the system. A method was developed for calculating exergy needs to create thermal comfort inside the house by taking into account, using the probability theory, the influence of the random nature of meteorological factors within the heating period, on the basis of which, in the conditions of the region, it is shown and calculated that when de-termining the seasonal exergy needs for the heat supply of the house, the use of a stationary approach leads to an underestimation of the results by 12...28% compared to the dynamic approach.
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ANALYSIS OF THE CAUSES OF ACCIDENTS AT DIFFERENT STAGES OF LIFE CYCLE OF THE CONSTRUCTION OBJECT

https://doi.org/10.34031/2618-7183-2019-2-2-17-22
Abstract
The article deals with the main causes of accidents of buildings and structures that occurred due to errors made at different stages of their life cycle (design, construction, operation). A brief analysis of the accidents that occurred from 2010 to 2017 in the Russian Federation is presented. The study of the causes of accidents makes it possible to understand better the laws of structures, buildings and structures, to identify errors that lead to emergencies. Such errors include: low quality of construction and installation works, deviation from the project in the construction of buildings and structures, the use of materials of inadequate quality, overload of load-bearing structures during operation. Also, the causes of accidents include defective engineering-geological and hydrogeological studies of the grounds. Analysis of accidents showed that the last few years there is no tendency to reduce the number of accidents of buildings and structures, which indicates an insufficient number of measures to prevent them. In the article the authors consider the examples of accidents in construction, which occurred due to the main reasons, and ways to prevent accidents in the future.
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