Yer osti konlarining gorizontlari chuqurlashishi natijasida qazib olish sharoitlarining murakkablashib borishi bilan lahimlarni shamollatish tarmog‘idagi havo miqdori ham mutanosib ravishda ortadi. Maqolada havoni taqsimlash, havo miqdori yo‘qotishlari va aerodinamik qarshiliklarni kamaytirish uchun havo oqimi to‘siqlari, havo ejektorlari, havo klapanlaridan foydalanish masalalari ko‘rib chiqilgan. Shuningdek, kon lahimlarini shamollatishda murakkab kon-texnologik sharoitlarda shamollatish usullari, shamollatishda havo oqimi tezligi, bosimi, lahim kesim yuzasiga bog‘liq holda havo tezligi va bosimi o‘zgarishi kabi ko‘rsatkichlarning optimal qiymatlariga erishish orqali shamollatish tarmog‘ida havoni taqsimlash yo‘llari keltirilgan.
Yer osti konlarining gorizontlari chuqurlashishi natijasida qazib olish sharoitlarining murakkablashib borishi bilan lahimlarni shamollatish tarmog‘idagi havo miqdori ham mutanosib ravishda ortadi. Maqolada havoni taqsimlash, havo miqdori yo‘qotishlari va aerodinamik qarshiliklarni kamaytirish uchun havo oqimi to‘siqlari, havo ejektorlari, havo klapanlaridan foydalanish masalalari ko‘rib chiqilgan. Shuningdek, kon lahimlarini shamollatishda murakkab kon-texnologik sharoitlarda shamollatish usullari, shamollatishda havo oqimi tezligi, bosimi, lahim kesim yuzasiga bog‘liq holda havo tezligi va bosimi o‘zgarishi kabi ko‘rsatkichlarning optimal qiymatlariga erishish orqali shamollatish tarmog‘ida havoni taqsimlash yo‘llari keltirilgan.
С углублением горизонтов подземных выработок пропорционально увеличивается и количество воздуха в вентиляционной сети припоев, наряду с усложнением горных условий. В статье рассматривается использование барьеров воздушного потока, воздушных эжекторов и воздушных клапанов для уменьшения распределения воздуха, потери объема воздуха и аэродинамического сопротивления. Кроме того, изучены способы вентиляции в сложных горно-технологических условиях в шахтных припоях, способы распределения воздуха в вентиляционной сети за счет достижения оптимальных значений таких параметров, как скорость воздушного потока, давление, изменение скорости воздуха и давления в зависимости от поверхности участка припоя.
The article reviews the use of air flow barriers, air ejectors and air valves for reducing air volume losses and aerodynamic drag. Increased of scope of underground works causes proportional increase of the amount of air in the ventilation network of solders along with complication of mountain conditions. It also describes ventilation methods in difficult mining and technological conditions when ventilating mine solders, the distribution of air flows in the ventilation network by achieving optimal values of such indicators as air flow rate, pressure, change in air speed and pressure depending on the sectional surface of the solder.
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Musurmanov E.S. | “Konchilik elektr mexanikasi” kafedrasi tayanch doktoranti | Navoiy davlat konchilik va texnologiyalar universiteti |
| № | Название ссылки |
|---|---|
| 1 | Golinko V.I., Lebedev Ya.Ya., Mukha O.A. Ventilyatsiya shakht i rudnikov [Ventilation of mines]. Dnepropetrovsk, National Mining University, 2012, p. 265. |
| 2 | Kolmakov V.A. Vozdushnaya s’yomka v shakhtakh [Aerial photography in mines]. Kemerovo, Kuzbass State Technical University, 2002, p. 16. |
| 3 | Kirin B.F., Dikolenko Ye.Ya., Ushakov K.Z. Aerologiya podzemnykh sooruzheniy (pri stroitel’stve) [Aerology of underground structures (during construction)]. Lipetsk, Lipetsk Publ., 2000, 456 p. |
| 4 | Shevchenko L.A., Kosterenko V.N., Smirnov O.V. Aerologiya gornykh predpriyatiy [Aerology of mining enterprises]. Moscow, Gornaya kniga Publ., 2020, p. 224. |
| 5 | Sadikov А., Bаrаtov B.N. Turg‘un mаshinаlаr [Stationary cars]. Tashkent, Tashkent State Technical University named after Islam Karimov, 2013, 258 p. |
| 6 | Musurmanov E.Sh. Strukturnyy analiz upravleniya ventilyatsiyey shakht i rudnikov [Structural analysis of ventilation control in mines and mines]. Internauka – Interscience, 2017, no. 11-1 (15), pp. 71–74. |
| 7 | Xamzaev A.A., Musurmanov E.Sh., Xaydarova M.E. Povysheniye energoeffektivnosti ventilyatornykh ustanovok [Improving the energy efficiency of fan installations]. Molodoy uchenyy – Young Scientist, 2017, no. 7 (141), pp. 95–98. |
| 8 | Mislibayev I.T., Makhmudov A., Musurmanov E.Sh. Issledovaniye i analiz sistemy ventilyatsii i ventilyatsionnykh oborudovaniy glubokikh gorizontov rudnykh shakht [Research and analysis of the ventilation system and ventilation equipment of deep horizons of ore mines]. Academic Research in Educational Sciences, 2021, vol. 2, no. 12, pp. 446–450. |
| 9 | Mislibayev I. T., Makhmudov A.M., Makhmudov Sh.A. Teoreticheskoye obobshcheniye rezhimov funktsionirovaniya i modelirovaniye ekspluatatsionnykh pokazateley raboty ekskavatorov [Theoretical generalization of operating modes and modeling of operational performance of excavators]. Mining Information and Analytical Bulletin, 2021, no. 1, pp. 102–110. |
| 10 | Mislibayev I.T., Makhmudov A., Musurmanov E.Sh. Issledovaniye kinematiki dvizheniya potoka vozdukha pri ventilyatsii tupikovykh rabochikh mest shakhty [The study of the kinematics of the movement of air flow during ventilation of dead-end workplaces of the mine]. Academic Research in Educational Sciences, 2021, vol. 2, no. 6, pp. 226–236. |
| 11 | Makhmudov A.M., Makhmudova G.A. Issledovaniye faktorov, vliyayushchikh na rabotu dvizhiteley gornykh mashin na rudnikakh Uzbekistana [Study of factors affecting the operation of mining machine propulsors in the mines of Uzbekistan]. Science Time, 2016, no. 5 (29), pp. 420–427. |
| 12 | Makhmudov A.M., Xudayberdiev Sh.M. Opredeleniye osnovnykh parametrov energoeffektivnosti raboty nasosnykh ustanovok v tekhnologii podzemnogo vyshchelachivaniya [Determination of the main parameters of energy efficiency of pumping units in the technology of insitu leaching]. Mining Bulletin of Uzbekistan, Navoi, 2012, vol. 3, p. 73. |
| 13 | Wallace K.G., Prosser B.S., Donoso J.R., Guerrero A.F., Acevedo J.C. Ventilation system design for the CODELCO New Level Project. 14th United States/North American Mine Ventilation Symposium, 2012. Calizaya & Nelson, 2012, University of Utah, Dept. of Mining Engineering. |
| 14 | Kruglov I., Semin M. Improving the algorithm of effective air management in ventilation systems of complex topology. Bulletin of the Perm National Research Polytechnic University, Geology. Oil and gas and mining, 2013, no. 12, pp. 106–115. DOI: 10.15593/2224-9923/2013.9.12/. |
| 15 | He D., Wang X., Guo Ch., Li H., Zhang Yu. Study on the influence of the cage lifting piston effect in main intake shafts on air flow in transportation lanes. Applied Sciences, 2023, no. 13, p. 1419. DOI: 10.3390/app13031419/. |