Nanotechnology of ”intellectualization“ of energy accounting and of suppression of fire-energy harm in engineering systems of residential buildings. Part 2
Автор: Belozerov V.V., Voroshilov I.V., Denisov A.N., Nikulin M.A., Oleinikov S.N.
Журнал: Nanotechnologies in Construction: A Scientific Internet-Journal @nanobuild-en
Рубрика: Problems of using nanomaterials and nanotechnology in construction
Статья в выпуске: 3 Vol.13, 2021 года.
Бесплатный доступ
Introduction. At present, both abroad and in Russia, accidents, fires and explosions in the engineering systems of multiapartment residential buildings and individual residential buildings have become more frequent. At the same time, the "creators" of automated systems for monitoring and accounting of energy resources (ASKUE) did not attend to the solution of the problems of safety of engineering systems, since their goals were exclusively commercial tasks – "digitalization" of energy consumption metering and detection of illegal consumption of such sources. Therefore, in this article, an attempt is made to "eliminate clutter" in the automation of engineering systems in the residential sector. Methods, models and tools. Based on the analysis of engineering systems of multi-apartment residential buildings and individual residential buildings, as a result of the functioning of which not only the delivery of life support resources (gas, cold and hot water, electricity, communications, etc.) is carried out, but also fire-energy and environmental harm occurs, a methodology has been developed for the "intellectualization" of the means of accounting for the supplied resources, for the purpose of diagnosing and suppressing fire-energy harm using modern nanotechnologies and, thus, preventing accidents, explosions and fires in the residential sector. Results and discussion. The methodology of "intellectualization" is based on the dialectical unity of benefits and harms from consumed energy resources (electricity, domestic gas, hot and cold water), as well as to carry out a systemic synthesis of nanotechnologies and means of "detection and suppression" of fire-energy harm. The novelty of the research is protected by RF patents. Conclusion. The proposed approach makes it possible to "eliminate the disorder before the automation" of engineering systems of multi-apartment residential buildings and individual residential houses, by "intellectualizing" metering devices and optimizing nanotechnologies for suppressing fire-energy harm which leads to socio-economic losses.
Automation, engineering systems of buildings, fire-energy harm, diagnostics of hazardous factors of fire and explosion, electric meter-detector, reactive power compensator, membrane air separator, thermomagnetic air separator
Короткий адрес: https://sciup.org/142226904
IDR: 142226904 | DOI: 10.15828/2075-8545-2021-13-3-171-180
Список литературы Nanotechnology of ”intellectualization“ of energy accounting and of suppression of fire-energy harm in engineering systems of residential buildings. Part 2
- Korneev V. Domestic gas explosions in residential buildings in Russia in 2016. Dossier. TASS: Russian news agency. 2016. Available from: http://tass.ru/info/3727196.
- Belozerov V.V. On the cognitive model of safety management of objects with a mass presence of people (based on the results of the examination of the fire of the market “Turgenevsky”). Security Issues. 2018; 5: 35–62. Available from: doi: 10.25136/2409-7543.2018.5.27485.
- Gas meters Grand-SPI. Operation manual: TUAS.407299.002 RE. Rostov-on-Don: LLC Turbulence Don; 2015.
- Belozerov V.V., Belozerov V.V., Dolakov T.B., Nikulin M.A., Oleinikov S.I. Nanotechnology of “intellectualization” of energy accounting and suppression of fire and energy harm in engineering systems of residential buildings (part 1). Nanotechnologies in Construction. 2021; 13(2): 95–107. Available from: doi: 10.15828/2075-8545-2021-13-2-95-107.
- Dolakov T.B., Oleinikov S.N. Model of an automated microsystem for accounting for energy resources and fire and explosion protection of the residential sector. Electronics and electrical engineering. 2018; 2: 48–72. Available from: doi: 10.7256/2453-8884.2018.2.26131.
- Belozerov V.V., Dolakov T.B., Oleinikov S.N., Perikov A.V. Synergetics of life safety in the residential sector. Moscow: Publishing house of the Academy of Natural Sciences; 2017. Available from: doi: 10.17513/np.283.
- Voroshilov I.V., Maltsev G.I., Koshakov A.Yu. Nitrogen generator. RF Patent No. 2450857. 2010-24-08.
- Belozerov V.V., Barefoot S.I., Videtskikh Yu.A., Novakovich A.A., Pirogov M.G., Tolmachev G.N. A method of thermomagnetic air separation and a device for its implementation. RF Patent No. 2428242. 2011-10-09.
- Water meter Grand SV TLM: Operation manual. TUAS.407212.001 RE – Rostov-on-Don: LLC Turbulence Don, 2012.
- Belozerov V.V., Denisov A.N., Dolakov T.B., Voroshilov I.V., Nikulin M.A., Oleinikov S.N., Belozerov Vl.V. A method for early and reliable detection of hazardous fire factors with suppression of fire and electrical harm in residential premises. Application for invention No. 2021112049. 2021-27-04.
- Belozerov V.V., Oleinikov S.N. On the issue of an adaptive fire and energy tax in ensuring fire safety. Improvement of the theory and methodology of finance and taxation: Proceedings of international scientific and practical conference. Volga Research Center. Yoshkar-Ola: Colloquium; 2012. Р. 106–111.
- Belozerov V.V. Synergetics of safe life. Rostov-on-Don: SFedU; 2015.
- Belozerov V.V., Dolakov T.B., Belozerov V.V. On safety and prospects of electrical heating in individual residential houses. Modern science-intensive technologies. 2017; 11: 7–13.
- Belozerov V.V., Seryachenko M.V. Model of a local automated control system for heat and water supply in the residential sector. In: N.A. Shevchenko (ed.) Actual problems of science and technology 2020: Materials of the national scientific-practical conference. Rostov-on-Don: DSTU; 2020. Р. 27–28.
- Belozerov V.V. “Intelligent” ventilation and air conditioning system in apartments of multi-storey buildings and in individual residential buildings with nanotechnology for protection against fires and explosions. Nanotechnologies in Construction. 2019; 11(6): 650–666. Available from: doi: 10.15828/2075-8545-2019-11-6-650-666.
- Voroshilov I.V., Melnik A.V., Shuleikin P.B. High pressure nitrogen for enhanced oil recovery: new generation TGA stations set energy efficiency records. Oil. Gas. Innovations. 2020; 10(239): 41–46.
- Voroshilov I.V., Anisimov K.V., Shuleikin P.B. The use of nitrogen compressor stations TEGAS in the oil industry. Sfera. Oil and Gas. 2018; 6(68): 92–94.
- Voroshilov I.V., Kalyuzhnaya Yu.S. TEGAS: Rent of compressor stations is an established trend. Drilling and oil. 2014; 9: 79–80.
- Voroshilov I.V., Vladykin D.V. Promising methods of mining methane from coal seams, ensuring the safety of miners. Coal. 2008; 6(986): 22–23.
- Voroshilov I.V., Kopachev D.N., Kalyuzhnaya Yu.S. Application of compressor and gas separation equipment “TEGAS” in oilfield services. Drilling and oil. 2014; 5: 59–60.
- Voroshilov I.V. Mobile nitrogen compressor stations TGA – operational provision of hard-to-reach objects with compressed nitrogen. Exposition Oil Gas. 2012; 4 (22); 74–75.
- Ministry of Emergency Situations of Russia. SP 8.13130. Fire protection systems. Outdoor fire-fighting water supply. Fire safety requirements. 2020.
- Ministry of Emergency Situations of Russia. SP 10.13130. Fire protection systems. Internal fire-fighting water supply. Norms and rules of design. 2020.
- Voroshilov I.V., Meskhi B.Ch., Prilutsky A.I. Development and putting into production of air separators and production of fire protection means based on them (project No. 2013-218-04-023). Electronics and electrical engineering. 2016; 1: 21–71; Available from: doi: 10.7256/2453-8884.2016.1.21034.
