Modeling the Impact of Hydraulic Fracturing of Amber-Bearing Rocks by a Flooded Jet in the Erosion Chamber on Mining Productivity

Korniyenko, Valerii; Malanchuk, Yevhenii; Zaiets, Vitalii; Koziar, Mykola; Vasylchuk, Oleksandr; Sobczyk, Wiktoria

doi:10.29227/IM-2024-01-105

Artykuł - szczegóły

Tytuł artykułu

Modeling the Impact of Hydraulic Fracturing of Amber-Bearing Rocks by a Flooded Jet in the Erosion Chamber on Mining Productivity

Autorzy

Korniyenko Valerii , Malanchuk Yevhenii , Zaiets Vitalii , Koziar Mykola , Vasylchuk Oleksandr , Sobczyk Wiktoria

Treść / Zawartość

Pełne teksty:

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Identyfikatory

DOI

10.29227/IM-2024-01-105

Warianty tytułu

Modelowanie wpływu hydraulicznego pękania skał bursztynośnych przez zalewany strumień w komorze erozji na wydajność górnictwa

Języki publikacji

Abstrakty

The article discusses the concept of socio-economic and strategic development of the Rivne region (Ukraine), especially the exploration, testing and industrial exploitation of strategic mineral resources. The concept envisages the use of energy-efficient technologies for raw material extraction, especially for amber deposits. It points out that conventional methods of amber extraction are harmful to the environment, and suggests the use of complex methods, such as mechanical and hydraulic technologies. The article examines the challenge of implementing geotechnological methods at mining enterprises and assesses its complexity in mining science and practice. Scientific research in this area has been conducted, but comprehensive studies of the sampling and extraction methods of amber are still significant and relevant for the national interest. Moreover, the article reports the results of research on the formation of a jet in a hydraulic monitor and the application of a telescopic hydraulic monitor to extend the range of rock fragmentation, including an analysis of jet parameters and the dynamics of hydraulic rock breaking, such as amber-bearing rocks. The conclusions relate to the linear expansion of the jet, the reduction of axial velocity with the increase of hydrostatic pressure and the efficiency of the telescopic hydromonitor to extend the fragmentation range.

W artykule omówiono koncepcję rozwoju społeczno-gospodarczego i strategicznego obwodu rówieńskiego (Ukraina), w szczególności po-szukiwania, badania i przemysłowej eksploatacji strategicznych zasobów mineralnych. Koncepcja zakłada zastosowanie energooszczęd-nych technologii wydobycia surowca, zwłaszcza ze złóż bursztynu. Autorzy zwracają uwagę, że konwencjonalne metody wydobywania bursztynu są szkodliwe dla środowiska i sugerują stosowanie metod skomplikowanych, takich jak technologie mechaniczne i hydraulicz-ne.W artykule podjęto problematykę wyzwań związanych z wdrażaniem metod geotechnologicznych w przedsiębiorstwach górniczych oraz dokonano oceny ich złożoności w nauce i praktyce górniczej. Prowadzono badania naukowe w tym zakresie. Kompleksowe badania metod pobierania próbek i wydobywania bursztynu są nadal istotne z punktu widzenia interesu narodowego.Ponadto w artykule przedstawiono wyniki badań nad powstawaniem strumienia w monitorze hydraulicznym oraz zastosowania te-leskopowego monitora hydraulicznego do poszerzania zasięgu fragmentacji skał, w tym analizę parametrów strumienia i dynamiki hydraulicznego kruszenia skał, m.in. skał bursztynonośnych. Wnioski dotyczą rozszerzalności liniowej strumienia, zmniejszania się prędkości osiowej wraz ze wzrostem ciśnienia hydrostatycznego oraz skuteczności hydromonitora teleskopowego w zwiększaniu zasięgu fragmentacji.

Słowa kluczowe

amber hydromonitor submerged jet destruction parameters

bursztyn hydromonitor zanurzony strumień zniszczenie parametry

Wydawca

Polskie Towarzystwo Przeróbki Kopalin

Czasopismo

Inżynieria Mineralna

Rocznik

2024

Tom

Vol. 2, no. 1

Strony

163--174

Opis fizyczny

Bibliogr. 78 poz., rys., wykr.

Twórcy

autor

Korniyenko Valerii

Department of Mineral Deposits Development and Mining Engineering, National University of Water and Environmental Engineering, Soborna str, 11, Rivne, Ukraine

autor

Malanchuk Yevhenii

Department of Automation, Electrical Engineering and Computer-Integrated Technologies, National University of Water and Environmental Engineering, Soborna str, 11, Rivne, Ukraine

autor

Zaiets Vitalii

v.v.zayets@nuwm.edu.ua

Department of Mineral Deposits Development and Mining Engineering, National University of Water and Environmental Engineering, Soborna str, 11, Rivne, Ukraine;

autor

Koziar Mykola

Department of Theoretical Mechanics, Engineering Graphics and Machine Sciences, National University of Water and Environmental Engineering, Soborna str, 11, Rivne, Ukraine

autor

Vasylchuk Oleksandr

Department of Mineral Deposits Development and Mining Engineering, National University of Water and Environmental Engineering, Soborna str, 11, Rivne, Ukraine

autor

Sobczyk Wiktoria

Faculty of Energy and Fuels, Dept. of Sustainable Energy Development, AGH University of Science & Technology, Krakow, Poland

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Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).

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Bibliografia

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