DEVELOPMENT OF REQUIREMENTS AND SIMULATION OF THE PROCESS OF IGNITION OF EXPLOSION-HAZARDOUS MIXTURE BY A LOW VOLTAGE MEASURING CIRCUIT
DOI:
https://doi.org/10.31471/1993-9981-2021-2(47)-96-104Keywords:
low-voltage measuring circuit, intrinsic safety assessment, inflammation process, flame core, self-expansionAbstract
The current lack of literature on the safe use of low-voltage measuring circuits in coal mines leads to the fact that they are trying to make unreasonable demands or simply prohibit their use under any far-fetched pretext. At the same time, measuring low-voltage circuits are an important integral component of diagnostics and information content of mining equipment control systems. This is due to the fact that the theory and models of the ignition of a methane-air mine atmosphere (MMA) solve problems in a narrow setting and cannot be used in the general mine case. The article
identifies the conditions and parameters for the ignition of the MMA from the low-voltage measuring circuit (NVC),developed criteria for the ignition of the form the NVC, the existing model of the possible ignition process of the MMA from the NVTs is finalized. Currently, there are two theories of ignition of the HCV: thermal and ionic. From the author's point of view, the thermal model of VSH ignition from the electric discharge of the NSC is based on the analysis of the propagation of the temperature wave from some heat source in an inert environment. The thermal
ignition model of VHS does not take into account many details of the physics of the combustion mechanism, such as the chain nature of individual acts of chemical interaction, the activation energy of molecules in the formation of active centers, and it is based on postulating some electric discharge. An assessment of the intrinsic safety and the possibility of self-expansion of the NVC flame core has been carried out. The approbation of research at three foreign conferences and the interest of foreign colleagues in them are shown. The article contains links to the state budget
topics of the National Academy of Sciences of Ukraine and the numbers of state registration of Ukraine.
Downloads
References
Yokhelson Z.M., Bershadskyi Y. A. Vlyianye parametrov iskry na vosplamenenye metano-vozdushnoi smesi. Uhol Ukrayny. № 9. 2007. p. 44-45
Kryzhanskyi S.M. K teorii volt-ampernoy kharakteristiky stolba nestatsyonarnoho duhovoho
razriada. Zhurnal tekhnicheskoy fiziki. 2005. Vyp.109. p. 432 -439.
Bershanskyi Y.A., Yokhelson Z. M., Klymenko S. M. Sferycheskaia model vosplamenenyia elektrycheskoi iskrovoy hazovoy smesi dlia otsenki iskrobezopasnosti elektrycheskikh tsepey rudnichnoho elektrooborudovaniya. Naukovi pratsi Don NTU. Ser. Elektrotekhnika i enerhetyka. Donetsk: Don NTU, 2006. Vyp. 112. p.41-45.
Dulnev H.N., Parfenov V. H., Syhalov A. H. Prymeneniye EVM dlia resheniya zadach teploobmena. M.: Vyssh. shk.,2000. 167p.
Kohan A.H. Elektroizmerytelnaya i raschetnaya otsenka iskrobezopasnosti induktyvnykh elektricheskikh tsepey na osnove matematycheskoy modeli ochahovoho zazhyhaniya
rudnychnykh hazov: avtoref. dys. kand. tekhn. nauk: 05.26.01./A.H. Kohan –Makeevka, 1988.
p.
Bershanskyy Y. A., Yokhelson Z. M., Klymenko M. S. Sferycheskaya model vosplamenenyia elektrycheskoi iskrovoy hazovoy smesi dlia otsenki iskrobezopasnosti elektrycheskykh tsepey rudnychnoho elektrooborudovaniya. Naukovi pratsi Don NTU. Ser. Elektrotekhnika i enerhetyka. Donetsk: Don NTU, 2006. Vyp. 112. p. 41-45.
Dydenko V.P. Sovremennye podkhody k otsenke i obespecheniyu iskrobezopasnosti elektricheskikh tsepey. Uhol Ukrainy. № 9. 2007. p. 39-42
Elektrooborudovanye vzryvozashchyshchennoye s vidom vzryvozashchity «Iskrobezopasnaya elektricheskaya tsep». Tekhnicheskiye trebovaniya i metody ispytaniya:
HOST 22782.5-1985. [Vveden 1980-01.-01]. M.: Izd.-vo standartov, 1985. 70 p.
Lopatin V.V. Experimental studies of the possible incendiary ability of a low-voltage measuring electrical circuit [Elektronnyi resurs]. XXX International Mineral Processing Congress (Cape Town, 18 to 22 April 2021) Cape Town, South Africa Rezhym dostupu do resursu: https://ps-vosges.fr/24353/2016_1457010189.html. (data zvernennia - 09.09.2021).
Azatian V.V Osobennosti fizikokhimicheskikh mekhanizmov i kynetycheskykh zakonomernostey horeniya, vzryva i detonatsii hazov. Kinetika i kataliz. 2020. T. 61. № 3. S. 291-311
Lopatin V.V. Naukovi osnovy rozroblennia systemy kontroliu tekhnichnoho stanu zhorstkoho armuvannia shakhtnykh stovburiv: dys. doktora tekhn. nauk: 05.11.13. Ivano-Frankivsk 2013. 392p.
Zenher N.N. issledovaniye vosplameneniya. M.: Izd-vo AN SSSR. 1971. 87p.
Zelderovich Ya.B., Voevodskiy V. V., Simonov N. N. Voprosy teorii iskrovoho
vosplameneniya vzryvchatykh hazovykh smesey. Fiz. khim. 1955. Vyp. 21. S. 14-32
Lopatin V.V. Development of requirements and modeling of the process of ignition of an explosive mixture by a low-voltage measuring circuit [Elektronnyi resurs]. 8-th Annual
International Mining and Resources Conference + EXPO (Melbourne, 25-27 October 2021)
Melbourne, Australia Rezhym dostupu do resursu: https://imarcmelbourne.com (data vernennia – 09.09.2021).
Lopatin V.V. Modeling of the process of ignition of an explosive mixture at oil fields
[Elektronnyi resurs]. 9th AFRICA 2021 OIL&GAS international triage exhibition (Nairobib 01-03
Yuly), Nairobi, Kenya, Africa. Rezhym dostupu do resursu: https://www.expogr.com/kenyaoil/https://www.exp ogr.com/kenyaoil (data zvernennia - 09.09.2021)