Spatial modeling of the influence of mining-geometric indices on the efficiency of mining

• Autorzy: Sobolevskyi R. , Korobiichuk I. , Nowicki M. , Szewczyk R. , Shlapak V.

Identyfikatory

DOI

10.1515/amsc-2017-0059

Warianty tytułu

PL

Modelowanie przestrzenne wpływu wskaźników geometrycznych w górnictwie na wydajność prac wydobywczych

• Języki publikacji: EN

Abstrakty

EN

The regularities of the changes of horizontal and sub-horizontal systems of cracks at different locations of Holovyne labradorite deposits are studied. The trend for stress to increase has been established in the quarry LLS “Optima” for Holovyne labradorite deposits in Volodar-Volynsk district, Zhytomyr region at the deepening of excavation. The duration of the working cycle of borehole drilling in a solid and cracked massif is calculated using a new method. The calendar planning method of mining is developed taking into account the dependence of drilling efficiency on horizontal and sub-horizontal systems of cracks.

PL

W pracy badano regularne zmiany w powierzchniowych i podpowierzchniowych systemach spękań w różnych lokalizacjach złoża labradorytu wydobywanego w rejonie Hołowinu. W przypadku złoża labradoru z kamieniołomu LLS „Optima’ w regionie wołodarsko-wołyńskim oraz w rejonie Żytomierza, gdzie znacznie zwiększyła się głębokość wydobycia, zarejestrowane naprężenia wykazywały trend wzrostowy. Czas trwania cyklu wiercenia otworów w spękanym górotworze obliczono w oparciu o nową metodę. Opracowano kalendarz planowania prac wydobywczych z uwzględnieniem zależności wydajności wiercenia od układu powierzchniowych i podpowierzchniowych spękań.

Słowa kluczowe

EN

drilling efficiency; stone cracks pattern; drilling operation; calendar planning

PL

efektywność wiercenia; system spękań; operacje wiercenia; planowanie kalendarza prac

• Wydawca: Instytut Mechaniki Górotworu PAN
• Czasopismo: Archives of Mining Sciences
• Rocznik: 2017
• Tom: Vol. 62, no. 4
• Strony: 857--869
• Opis fizyczny: Bibliogr. 20 poz., rys., tab., wykr.

Twórcy

autor

Sobolevskyi R.

• Zhytomyr State Technological University,Chernyakhovskogo Str., 103, Zhуtomуr, Ukraine, 10005

autor

Korobiichuk I.

• Industrial Research Institute for Automation and Measurements Piap, Jerozolimskie 202, 02-486 Warsaw, Poland

autor

Nowicki M.

• Institute of Metrology And Biomedical Engineering, Warsaw University Of Technology, Boboli 8, 02-525 Warsaw, Poland

autor

Szewczyk R.

• Industrial Research Institute for Automation and Measurements Piap, Jerozolimskie 202, 02-486 Warsaw, Poland

autor

Shlapak V.

• Zhytomyr State Technological University,Chernyakhovskogo Str., 103, Zhуtomуr, Ukraine, 10005

Bibliografia

• [1] Bakka N., Ilchenko I., 1992. Facing stone. Geological and Industrial and Technological Evaluation Fields: Reference. [In:] Nedra, Moscow, 1-54.
• [2] Caranassios A., Tomi G., Senhorinho N., 2000. Geological modeling and mine planning for dimension stone quarries. [In:] Proc. Mine Planning and Equipment Selection, Balkema, Rotterdam, 39-45.
• [3] Changgen Bu, Yageo Qu, Zhigiang C., Baolin L., 2009. Numerical Simulation of Impact on Pneumatic DTH Hammer Percusive Drilling. Journal of Earth Science. 20, 868-878.
• [4] Demirdag S., Sengun N., Ugur I., Efe T., Akbay D., Altindag R., 2014. Variation of vertical and horizontal drilling rates depending on some rock properties in the marble quarries. International Journal of Mining Science and Technology, 24: 269-273.
• [5] Franca L., Weber H., 2004. Experimental and numerical study of a new resonance hammer drilling model with drift. [In:] Chaos, Solitons & Fractals, 21 (4), 789-801.
• [6] Karasev Y., Bakka N., 1997. Natural stone. Extraction of block stone wall: textbook. [In:] Nedra, St. Petersburg, 7-29.
• [7] Korobiichuk V., 2013. The influence of the height and width of the monolith that overturns on his destruction. [In:] Bulletin of Zhytomyr State Technological University, Zhitomir: ZDTU 1 (64), 134-138.
• [8] Korobiichuk V., Iskov S., 2013. Definition of rational method of extraction of stone monoliths for capital trenches. [In:] Technology audit and production reserves, Kharkiv, 5/1 (13), 12-16.
• [9] Korobiichuk I., Korobiichuk V., Iskov S., Nowicki M., Szewczyk R., 2016. Peculiarites of natural stone extraction technology with the help of diamond wire machines. 16th International Multidisciplinary Scientific GeoConference SGEM 2016, SGEM2016 Conference Proceedings, Book 1, 2, 649-656. DOI: 0.5593/SGEM2016/B12/S03.084.
• [10] Korobiichuk I., Korobiichuk V., Nowicki M., Shamrai V., Skyba G., Szewczyk R., 2016. The study of corrosion resistance of Pokostivskiy granodiorites afterprocessing by various chemical and mechanical methods. Construction and Building Material 114, 241-247. DOI: 10.1016/j.conbuildmat.2016.03.147.
• [11] Kosolapov A., 1990. The technology of extraction of facing stone. Publishing of Krasnoyarsk University, Krasnoyarsk, 1-52.
• [12] Levytskyi V., Sobolevskyi R., 2008. Analysis of stereophotogrammetric ways to capture the quarries of decorative stone. [In:] Abstracts of the V international conference of students, masters and post-graduate students “Modern problems of ecology and geotechnology”, Zhitomir: ZDTU, 465-467.
• [13] Levytskyi V., Sobolevskyi R., 2011. Surveying and commercial digital photography of decorative stone blocks for the purpose of a precise definition of their scope and create the passport block production. [In:] Extraction, processing and use of natural stone, Magnitogorsk, 11, 41-45.
• [14] Luodes H., Sutinen H., 2011. Evaluation and modeling of natural stone rock quality using ground penetrating radar (GPR). [In:] Geological Survey of Finland, Special Paper, 49, 83-90.
• [15] Moriya H., Naoi M., Nakatani M., Aswegen G.V., Murakami O., Kgarume T., Ward A.K., Durrheim R.J., Philipp J., Yabe Y., Kawakata H., Ogasawara H., 2015. Delineation of large localized damage structures forming ahead of an active mining front by using advanced acoustic emission mapping techniques. International Journal of Rock Mechanics and Mining Sciences, 79, 157-165.
• [16] Mosch S., et al., 2011. Optimized extraction of dimension stone blocks. [In:] Environmental Earth Sciences, 63, 1911-1924.CrossrefGoogle Scholar
• [17] Pershin G., Ulyakov M., 2015. Enhanced dimension stone production in quarries with complex natural jointing. Journal of Mining Science, 51, 330-334.
• [18] Rahimi R., Nygaard R., 2015. Comparison of rock failure criteria in predicting borehole shear failure. International Journal of Rock Mechanics and Mining Sciences, 79, October 01, 29-40.
• [19] Repin A., Smolyanisky B., Alekseeev S., Popelyh A., Timonin V., Karpov V., 2014. Downhole High-Pressure Air Hammers for Open Pit Minin. Journal of Minig Science, 50, 929-937.Web of ScienceGoogle Scholar
• [20] Sobolevskyi R., Korobiichuk I., Nowicki M., Szewczyk R., 2016. Using cluster analysis for planning mining operations on the granite quarries. 16th International Multidisciplinary Scientific GeoConference SGEM 2016, SGEM2016 Conference Proceedings, Book 2, 2, 263-270, DOI: 10.5593/SGEM2016/B22/S09.034.

Uwagi

PL

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)