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A Model of the Automated Microsystem of Accounting of Energy Resources and Fire and Explosion Protection of the Housing Sector
Dolakov Timur Bekovich

Head of the Department, Head Office of the Ministry of Emergency situations of Russia in Krasnodar Krai

350058, Russia, g. Krasnodar, ul. Stavropol'skaya, 179, of. 48

dolakov23@gmail.com
Oleinikov Sergei Nikolaevich

PhD in Technical Science

Deputy of the Head of the Faculty, Academy of State Fire Prevention service, Ministry of Emergency situations of Russia

129366, Russia, g. Moscow, ul. Borisa Galushkina, 4

vbfiremen@bk.ru

 

 

Abstract.

The article analyses the results of the existing means and systems of population health and safety protection in the housing sector. On the basis of the analysis results the author synthesizes the replicated local automated microsystem of diagnostics and suppression of fire and energetic harm and the dangerous factors of fire and explosion from the leak of home gas, which prevents fire-dangerous failures of household appliances in the housing sector. The need for application of the proposed solutions and the reinvestment mechanism of their implementation are shown on the example of the housing sector of rural areas of Krasnodar Krai. The methodology of the research is based on innovative solutions in the field of objectivization and automation of accounting of the consumed energy resources which at the same time protect the housing sector from the fire-and-explosion hazard. The scientific novelty of the proposed solutions is confirmed by the patents of the Russian Federation for inventions and useful models. Simulation, implementations of the local automated microsystem of diagnostics and suppression of fire and energetic harm and the dangerous factors of fire and explosion from the leak of home gas allows the author to claim that it is the only way to cardinally protect the housing sector of rural settlements.

Keywords: compensator of reactive power, reinvestment mechanism, inhabited sector, microsystem of diagnostics, fire-dangerous failures, fire and energetic harm, energy resources, explosion protection, safety, thermomagnetic separator of air

DOI:

10.7256/2453-8884.2018.2.26131

Article was received:

26-04-2018


Review date:

26-04-2018


Publish date:

07-05-2018


This article written in Russian. You can find full text of article in Russian here .

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