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This article provides information on ensuring safety at coal mines by analyzing existing coal mining facilities. Information on the Angren coal mine is also given. It is shown that there are no accurate methods for determining the location of fires in order to increase the efficiency of spontaneous combustion prevention by supplying liquid compositions such as water and clay pulp flowing down the formation soil. Measures have been proposed to suppress spontaneous combustion centers, nitrogen is being increasingly used, the supply of which ensures volumetric processing of the collapsed mass and allows reducing the oxygen concentration in the mined-out space

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 05-11-2022
  • Количество прочтений 185
  • Дата публикации 30-09-2022
  • Язык статьиIngliz
  • Страницы87-91
English

This article provides information on ensuring safety at coal mines by analyzing existing coal mining facilities. Information on the Angren coal mine is also given. It is shown that there are no accurate methods for determining the location of fires in order to increase the efficiency of spontaneous combustion prevention by supplying liquid compositions such as water and clay pulp flowing down the formation soil. Measures have been proposed to suppress spontaneous combustion centers, nitrogen is being increasingly used, the supply of which ensures volumetric processing of the collapsed mass and allows reducing the oxygen concentration in the mined-out space

Имя автора Должность Наименование организации
1 Gulomova G.M. teacher TSTU
2 Turabekova U.M. teacher TSTU
Название ссылки
1 G.M. Gulyamova., M.N. Musaev. Problems of sludge waste disposal in the oil and gas industry. “Collection of materials of the VII International Correspondence Scientific and Practical Conference”, 2020. 98
2 G.M. Gulyamova., M.N. Musaev. Methods of utilization and processing of oil sludge. “International Scientific and Technical On-line Conference”, 2020. 323.
3 G.M. Gulomova., Z.P. Bozorov., Y.A. Talipova. The influence of the environment on the strength of building structures. “Novateur publication, Indian magazine NX”, 2021. 733.
4 G.M. Gulomova., M.B. Aripxodjaeva., E.B. Abdurakhmonov. Types, properties, characteristics of activated carbon and obtaining samples of granular activated carbons using composite binders. “Technical science and innovation”, 2021. 61.
5 A.A. Forsyuk. “Scientific principles for solving the problem of reducing industrial injuries in coal mines”, 1991. 52.
6 S.Y. Erokhin., A.L. Zakharov. Methodology for assessing the impact of the human factor on the level of labor safety. “Catalog of scientific and technical developments”, 1991. 20
7 A.P. Bulbashev., Y.V. Shuvalov. “Dust control in quarries for the extraction of building materials”, 2006. 208
8 GOST R 56357- 2015 Activated carbon AG-3 Technical conditions. “FSUE STANDARTYANF O RM”, 2015
9 M.M. Dubinin., E.A. Aripov., V.V. Serpinsky. Attempts to describe microporous structures based on the theory of equilibrium adsorption in micropores. “Investigation of 124 adsorption processes and adsorbents”, 1979. 28
10 M.M. Dubinin. Water vapor adsorption and microporous structures of carbon adsorbents. “News USSR”, 1981. 9.
11 M.M. Dubinin. Investigation of the porous structure of activated carbons by complex methods. “Advances in Chemistry”, 1955. 3.
12 G.M. Plavnik., G.M. Fin., M.M. Dubinin. “Investigation of the porous structure of activated carbon from sucrose by adsorption and small-angle scattering of X-rays. of the USSR Academy of Sciences, ser. chem”, 1966. 628.
13 M.M. Dubinin., E.A. Aripov., V.V. Serpinsky. Attempts to describe microporous structures based on the theory of equilibrium adsorption in micropores. “Investigation of 124 adsorption processes and adsorbents”, 1979. 28
14 M.M. Dubinin. Water vapor adsorption and microporous structures of carbon adsorbents. “News USSR”, 1981. 9
15 J.J. Kemiya. “Manufacturing of the pore structure and the use of activated carbon”, 1977. 543
16 D.A. Kolyshkin., K.K. Mikhailova. Active coals. Properties and test methods. “Chemistry”, 1972. 56
17 M.M. Dubinin. Characteristics of adsorption properties and microporous structure of carbon adsorbents. Carbon adsorbents and their application in industry. Part 3. Structure and properties of carbon adsorbents: “Collection of the 4th All-Union Soviet”, 1987. 3.
18 V.M. Mukhin., V.V. Chebykin., E.A. Galkin., N.P. Vasiliev., V.S. Medyanik., A.N. Tamamyan. Active coals. Elastic sorbents. Catalysts, desiccants and chemical absorbers based on them (Nomenclature catalog). “Ore and metals”, 2003. 208.
19 A.Sh. Kuldasheva., R.M. Usmanov., A.B. Abdikamalova., I.D. Eshmetov., R.J. Eshmetov., A.I. Sharipova. Obtaining coal adsorbents based on local wood waste, investigation of their physico-chemical and adsorption properties. “Journal of critical reviews”, 2020. 128.
20 S. Kuldasheva., B. Jumabaev., A. Agzamkhodjayev., L. Aymirzaeva., K. Shomurodov. Stabilization of the moving sands of the drained and dried aral sea bed. “Journal of chemical technology and metallurgy”, 2015. 314
21 N. Khudayberganova., A. Rizaev., E. Abduraxmonov. Adsorption properties of benzene vapors on activated carbon from coke and asphalt. “E3S Web of Conferences”, 2021.
22 I. Eshmetov., D. Salihanova., A. Agzamhodjaev. Examination of the influence of the grinding degree and stabilizing agent on the rheological properties of aqua-coal fuel suspensions. “Journal of chemical technology and metallurgy”, 2015. 157.
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