G‘UJUMSOY KONI HAVO UZATISH STVOLIDA HAVO OQIMINI BOSHQARISH SAMARADORLIGINI OSHIRISHDA HAVO PARDASINI QOʻLLASH

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5 март 2024

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G‘UJUMSOY KONI HAVO UZATISH STVOLIDA HAVO OQIMINI BOSHQARISH SAMARADORLIGINI OSHIRISHDA HAVO PARDASINI QOʻLLASH

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ILM-FAN VA INNOVATSION RIVOJLANISH

Maqola chop etish see more

MAQOLA ANNOTATSIYASI

Konlarda oltin tarkibli rudalarni qazib olish jarayonida konlarning shamollatish tarmog‘idagi havo miqdori kon lahimlari uzunligining oshishi va konning chuqurlashishiga mutanosib ravishda ortadi. Maqolada konga havo oqimini boshqarish, konning tashqi va ichki yo‘qotishlarini kamaytirish uchun havo pardalaridan foydalanish va aerodinamik qarshilik masalalari ko‘rib chiqilgan. Shuningdek, murakkab shamollatish tizimlariga ega shaxtalarning shamollatish samaradorligini oshirish uchun bosh ventilyator qurilmasi va shamollatish kanalida tashqi havo yo‘qotilishini kamaytirish uchun optimal shamollatish sxemasi hamda shamollatish parametrlari bo‘lgan havo sarfi , havo oqimi tezligi va bosimi o‘zgarishi ko‘rsatkichlarining optimal qiymatlarini belgilash orqali shamollatish tarmog‘ida havo oqimini samarali boshqarish va taqsimlash yo‘llari keltirilgan.

MUALIFLAR

Teglar

# fan# депрессия# depression# горная выработка# фильтр# filter# рабочее колесо# impeller# вентиляция# вентилятор# ventilation# расход воздуха# air flow# аэродинамическое сопротивление# скорость воздуха# лазерный дальномер# ventilation scheme# aerodynamic resistance# laser range finder# measurement of air depression# blades# depressiya# shamollatish# ventilyator# ishchi g‘ildirak# kurak# shamollatish sxemasi# havo oqimi# aerodinamik qarshilik# lazerli masofa o‘lchagich# havo depressiyasini o‘lchash# shaxta stvoli# kon lahimi# lahimlar topologiyasi# shamollatish tarmog‘i# havo tezligi# termoanemometr# havo pardasi# havo olish quvuri# havo taqsimlash kollektori# yo‘naltirish kanali# шахтный ствол# топология выработок# лопатка# схема вентиляции# вентиляционная сеть# термоанемометр# измерение депрессии воздуха# воздушная завеса# воздухозаборная труба# воздухораспределительный коллект# направляющий канал# mine shaft# mine working# working topology# ventilation network# airspeed# hot-wire anemometer# air curtain# air intake pipe# air distribution manifold# duct

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ROI:

https://eroi.uz/11.0094/A0324-0007

DOI:

Mavjud emas

Foydalanilgan adabiyotlar

Alymenko, N., Kamenskikh, A., & Nikolayev, A. (2011). Vozdushnaya zavesa i obshherudnichnaya yestestvennaya tyaga [Air curtain and general mine natural draft]. Moscow: Gornaya kniga Publ.

Alymenko, N., Kamenskikh, A., Nikolaev, A., & Petrov, A. (2015). The choice of the main fan installation. Current Problems of Enhancing Efficiency and Safety of Underground Mining and Oil Field Equipment: Proceedings of the II International Scientific and Practical Conference. 1, pр. 190-199. Perm: PNIPU.

Golinko, V., Lebedev, Y., & Mukha, O. (2012). Ventilyatsiya shakht i rudnikov [Ventilation of mines and mines]. Dnepropetrovsk: Dnepropetrovsk NSU.

Kaledina, N., & Kobylkin, S. (2013). Volumetric modeling as a method for studying and controlling thermo- and aero-gas-dynamic processes at mining enterprises. Mining Information and Analytical Bulletin (GIAB) – Proceedings of the international scientific symposium “Miner’s Week - 2013”, (pр. 149-156).

Kamenskikh, A. (2011). Development of methods to control and reduce surface air leaks in mines. PhD thesis, Mining Institute. Uro RAS, Perm.

Kazakov, B., Kolesov, E., Nakarakov, E., & Isayevich, A. (2021). Review of models and methods for calculating aero-gas-dynamic processes in ventilation networks of mines and mines. Mining information and analytical bulletin(6), 5-33. doi:10.25018/023614 932021605

Kirin, B., Dikolenko, Y., & Ushakov, K. (2000). Aerologiya podzemnykh sooruzheniy (pri stroitel’stve) [Aerology of underground structures (during construction)]. Lipetsk: Lipetsk Publ.

Kobylkin, S. (2013). Trebovaniya k sistemnomu proyektirovaniyu ventilyatsii shakht i rudnikov [Requirements for system design of ventilation of mines and mines]. Ratsional’noye osvoyeniye nedr – Rational Development of Subsoil(2), 56-59.

Kolmakov, V. (2002). Aerial photography in mines. Kemerovo.

Levitskiy, J. (2012). Shakhtnyye ventilyatsionnyye seti [Mine ventilation networks]. Karaganda: Karaganda State Technical University Publ.

Levitskiy, J., & Nurgaliyeva, A. (2011). Air and ventilation set with active regulators in the control unit. Bulletin of Kuzbass State Technical University named after T.F. Gorbachev(4), 23-27.

Mislibaev, I., Makhmudov, A., & Makhmudov, S. (2021). Theoretical generalization of operating modes and modeling of operational performance of excavators. Mining Information and Analytical Bulletin(1), 102-110.

Mislibaev, I., Makhmudov, A., & Musurmanov, E. (2021). Research and analysis of the ventilation system and ventilation equipment of deep horizons of ore mines. Academic Research in Educational Sciences, 2(12), 446-450.

Mislibaev, I., Makhmudov, A., & Musurmanov, E. (2021). Study of the kinematics of air flow during ventilation of dead-end mine workplaces. Academic Research in Educational Sciences, 2(6), 226-236.

Mokhirev, N. (2001). Provetrivaniye podzemnykh gornodobyvayushhikh predpriyatiy [Ventilation of underground mining enterprises]. Perm.

Musurmanov, E. (2017). Strukturnyy analiz upravleniya ventilyatsiyey shakht i rudnikov [Structural analysis of mine and mine ventilation control]. Internauka, 11-1(15), 71-74.

Pavlov, A. (2019). Changes in the aerodynamic resistance of the ventilation system of the shaft during the reversal of the air flow. Fundamental and Applied Issues of Mining Sciences, 6(2), 207-211.

Sadikov, А., & Bаrаtov, B. (2013). Turg‘un mаshinаlаr [Stationary cars]. Tashkent: Tashkent State Technical University Publ.

Shevchenko, L., Kosterenko, V., & Smirnov, O. (2020). Aerologiya gornykh predpriyatiy. Moscow: Gornaya kniga Publ.

Khamzayev, A., Musurmanov, E., & Khaydarova, M. (2017). Povysheniye energoeffektivnosti ventilyatornykh ustanovok [Increasing the energy efficiency of fan installations]. Young Scientist, 7(141), 95-98.