ArticleName |
Estimate of efficiency of two-level rock bolting at junctions in coal mines |
ArticleAuthorData |
Author 1: Name & Surname: Grechishkin P. V. Company: Institute of Coal, Siberian Branch, Russian Academy of Sciences (Kemerovo, Russia) Work Position: Researcher Scientific Degree: Candidate of Engineering Sciences Contacts: pv_grechishkin@mail.ru
Author 2: Name & Surname: Pozolotin A. S. Company: RANK 2 LTD (Kemerovo, Russia) Work Position: Director for Long-Term Development Scientific Degree: Candidate of Engineering Sciences
Author 3: Name & Surname: Zayatdinov D. F. Company: RANK 2 LTD (Kemerovo, Russia) Work Position: Deputy Director of Long-Term Development
Author 4: Name & Surname: Sharov V. N. Company: AMK SHSU LTD (Kemerovo, Russia) Work Position: Principal Engineer
A. A. Dudin ("RANK 2" JSC) has participated in this work. |
Abstract |
Efficiency of two-level rock bolt support in wide-span roadways and at junctions in various ground and mine-technical conditions of Kuzbass mines is estimated. In terms of junctions of various purpose roadways, the authors discuss design and parameters of the two-level rock bolt support and its construction technology depending on physicomechanical properties of overlying rocks, their structure and stability, and dimension (area and span) of the junctions. It is highlighted that reliability and preset durability (life) of the two-level rockbolting is ensured by the primary rock bolting of disintegrated roof rocks in case of pressure arch and the secondary injection-grouted cable bolting of the reinforced roof rocks to fix them to adjacent stable rock mass. The well consistent estimates of the basic technical and economic performance of the conventional frame support and the two-level rock bolting of wide-span junctions show essential reduction in materials consumed, delivery and installation labor input and overall cost in case of the two-level rock bolting system. |
keywords |
Coal mines, wide-span roadways and junctions, natural arch, disintegrated rocks, frame support, two-level rock bolting system, design, parameters, installation technology, technical and economic performance |
References |
1. Eremenko V. A., Razumov E. A., Zayatdinov D. F. Sovremennye tekhnologii ankernogo krepleniya (Modern anchoring technologies). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Informational-Analytical Bulletin. 2012. No. 12. pp. 38–45. 2. Available at: http://minjust.consultant.ru/page.aspx?1094937 (accessed: April 10, 2015). (in Russian). 3. Pozolotin A. S., Rozenbaum M. A., Renev A. A., Razumov E. A., Chernyakhovskiy S. M. Metod rascheta parametrov ankernoy krepi glubokogo zalozheniya dlya podderzhaniya gornykh vyrabotok v razlichnykh gorno-geologicheskikh i gornotekhnicheskikh usloviyakh ugolnykh shakht (Method of calculation of bolting parameters of deep laying for support of mine workings in various mining-geological and mining-technical conditions of coal mines). Ugol = Coal. 2013. No. 4. pp. 32-34. 4. Eremenko V. A., Lushnikov V. N., Sandy M. P., Milkin D. A., Milshin E. A. Vybor i obosnovanie tekhnologii provedeniya i sposobov krepleniya gornykh vyrabotok v neustoychivykh gornykh porodakh na glubokikh gorizontakh Kholbinskogo rudnika (Choice and substantiation of the technology of carrying out and methods of mine working timbering in non-stable rocks on deep horizons of Kholbinsky mine). Gornyi Zhurnal = Mining Journal. 2013. No. 7. pp. 59–66. 5. Samok A.V., Rayko G. V., Grechishkin P. V. Kanatnyy anker AK 01: shirokie vyrabotki i ikh sopryazheniya (Rope anchor AK 01: wide mine workings and their connections). Ugol = Coal. 2011. No. 5. pp. 80-81. 6. Razumov E. A., Zayatdinov D. F., Grechishkin P. V., Pozolotin A. S., Grabovskiy V. A. Opyt podderzhaniya shirokikh sopryazheniy gornykh vyrabotok s primeneniem dvukhurovnevoy ankernoy krepi v usloviyakh shakhty MUK-96 (Experience of support of wide connections of mine workings with application of two-level bolting in the conditions of mine MUK-96 (МУК-96)). Ugol = Coal. 2013. No. 7. pp. 31–34. 7. Eremenko V. A., Razumov E. A., Zayatdinov D. F., Pozolotin A. S., Prokhvatilov S. A., Krasilov S. Yu. Sovershenstvovanie dvukhurovnevoy tekhnologii ankernogo krepleniya shirokikh sopryazheniy gornykh vyrabotok (Improvement of two-level technology of anchoring of wide connections of mine workings). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Informational-Analytical Bulletin. 2013. No. 5. pp. 20–30. 8. Instruktsiya po raschetu i primeneniyu ankernoy krepi na ugolnykh shakhtakh Rossii (Instruction for calculation and application of bolting at Russian coal mines). Saint Petersburg : VNIMI, 2000. 70 p. (in Russian). 9. Metodika rascheta i vybora parametrov krepi na sopryazheniyakh gornykh vyrabotok pri odinarnoy i parnoy podgotovke vyemochnykh stolbov (Method of calculation and choice of support parameters at connected mine workings during ordinary and pair preparation of extraction pillars). Saint Petersburg : 2004. 84 p. (in Russian). 10. Stankus V. M. et al. Mekhanika gornykh porod i ustoychivost vyrabotok shakht Kuzbassa (Mechanics of rocks and stability of mine workings of Kuzbass mines). Under the editorship of V. G. Kozhevin. Kemerovo : Kemerovo Book Publishing House, 1973. 345 p. |