SAFETY


Original Paper

 

UDC 622.411, 322.004:831.325 © S.M. Nikitenko1, Yu.V. Malakhov1, 2, S.A. Kizilov1, D.Yu. Khudonogov1, 2024

ISSN 0041-5790 (Print) • ISSN 2412-8333 (Online) • Ugol’ – Russian Coal Journal, 2024, № 11S, pp. 96-101

DOI: ttp://dx.doi.org/10.18796/0041-5790-2024-11S-96-101

Title

QUICKLY ERECT SUPPORT FOR MINING RESCUE TEAM

 

Authors

S.M. Nikitenko1, Yu.V. Malakhov1, 2, S.A. Kizilov1, D.Yu. Khudonogov1

1 Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, 650065, Russian Federation

2 Institute of problems of comprehensive exploitation of mineral resources them academician N.V. Melnikov Russian Academy of Sciences, Moscow, 111020, Russian Federation  e-mail: nsm.nis@mail.ru

Authors Information

Nikitenko S.M. – Doctor of Economic Sciences, Associate Professor, Chief Researcher of the Laboratory of Coal Engineering, Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, 650065, Russian Federation, e-mail: nsm.nis@mail.ru

Malakhov Yu.V. – Ph (Engineering), Head Engineer, Laboratory of Coal Engineering Science, Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, 650065, Russian Federation, Senior Researcher, Laboratory Geotechnological risks in the development of gas-bearing coal and ore deposits, Institute of problems of comprehensive exploitation of mineral resources them academician N.V. Melnikov Russian Academy of Sciences, Moscow, 111020, Russian Federation, e-mail: yv.malakhov@mail.ru

Kizilov S.A. – Ph (Engineering),  Research Fellow,  Laboratory for Advanced Control Methods of Mining Engineering systems, Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, 650065, Russian Federation,  e-mail: sergkizilov@gmail.com 

Khudonogov .Yu. – Research Fellow, Laboratory for Advanced Control Methods of Mining Engineering Systems, Federal Research Center for Coal and Coal Chemistry, Siberian Branch of the Russian Academy of Sciences, Kemerovo, 650065, Russian Federation, e-mail: admolv@gmail.com

Abstract

The article presents the results of research aimed at increasing the efficiency of emergency rescue operations in mines, which are based on the provisions of the concept of a unified system for rescuing victims, based on scientifically substantiated principles of reducing the duration of the period of stay of victims in emergency areas without qualified assistance. The authors provide an overview of the designs of various devices to facilitate the removal of rubble in underground mine workings. The authors propose using a quickly erected support (QES) in mechanical and hydraulic versions as a technical device that ensures effective protection of mine rescuers from roof collapse when removing rubble in a mine working. Based on the results of physical modeling of the future sample of the device, mathematical calculations and laboratory tests, the authors conclude that the use of a quickly erected mobile support when removing rubble reduces the risk of roof collapse and provides a safe working space for the fighters of the militarized mine rescue units (MRU).

Keywords

Collapses in underground mine workings, emergency rescue operations, mechanical support, protection of mine rescuers.

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Acknowledgements

The article was prepared with the financial support of the Ministry of Education and Science of the Russian Federation (Agreement No. 075-15- 2022-1190).

For citation

Nikitenko S.M., Malakhov u.V., Kizilov S.., Khudonogov .u. Quickly erect support for mining rescue team. Ugol’. 2024;(11S):96-101. (In uss.). DOI:10.18796/0041-5790-2024-11S-96-101.

Paper info

Received September 15, 2024

Reviewed October 21, 2024

Accepted October 31, 2024

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