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Geometrical Tests of Powered Roof Support Positioning in a Longwall Complex

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A powered roof support protects people and equipment in the longwall from potential danger posed by the surrounding rock mass. The study to determine the position of the powered roof support was conducted in an active longwall. The research team made measurements of the geometric height of the powered roof support structure located in the longwall complex. The main objective of this study was to determine the position of the powered roof support in actual underground conditions. The analysis of the results provided data on whether the assumed height of the longwall was maintained during operation of the complex.
Rocznik
Tom
Strony
177--182
Opis fizyczny
Bibliogr. 29 poz., rys., tab., zykr.
Twórcy
  • Polska Grupa Górnicza S.A., Poland
  • T.F. Gorbachev Kuzbass State Technical University, 28 Vesennya street, Kemerovo, Russia
autor
  • 5KWK Ruda Ruch Bielszowice, 160 Halembska, Ruda Śląska, Poland
autor
  • Technische Hochschule Georg Agricola (THGA), 15 Westhoffstraβe, Bochum, Germany
autor
  • 7KWK ROW Ruch Chwałowice, 4 Przewozowa, Rybnik, Poland
  • Technical University of Košice, 9 Letná, Košic, Czechia
Bibliografia
  • 1. Biały, W., Czerwińska-Lubszczyk, A., Czerwiński, S., 2019. System monitorowania geometrii sekcji obudowy zmechanizowanej. Systemy wspomagania w inżynierii produkcji. Górnictwo – perspektywy i zagrożenia.
  • 2. Liu, B., Sang, H., Wang, Z., Kang, Y., 2020. Experimental Study on the Mechanical Properties of Rock Fracture after Grouting Reinforcement. Energies 13, 4814.
  • 3. Ziętek, B., Banasiewicz, A., Zimroz, R., Szrek, J., Gola, S., 2020. A Portable Environmental Data-Monitoring System for Air Hazard Evaluation in Deep Underground Mines.Energies 13, 6331.
  • 4. Szurgacz, D., S., Zhironkin, M., Cehlár, S., Vöth, S., Spearing, Liqiang, M., 2020. A Step-byStep Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support. Energies 14, 697.
  • 5. Szurgacz, D., M., Tutak, J., Brodny, L., Sobik, Zhironkina, O., 2020. The Method of Combating Coal Spontaneous Combustion Hazard in Goafs - A Case Study. Energies 13, 17, 4538.
  • 6. Szurgacz, D., Brodny, J., 2020. Adapting the Powered Roof Support to Diverse Mining and Geological Conditions. Energies 13, 405.
  • 7. Szurgacz, D., Brodny, J., 2019.Analysis of the Influence of Dynamic Load on the Work Parameters of a Powered Roof Support’s Hydraulic Leg.Sustainability 11,2570.
  • 8. Szurgacz, D., Brodny, J., 2019.Tests of Geometry of the Powered Roof Support Section, Energies 12, 3945.
  • 9. Szurgacz, D., 2017. Bezpieczeństwo zmechanizowanej obudowy ścianowej w warunkach zagrożenia wstrząsami górotworu. Wiadomości Górnicze.
  • 10. Gil, J., Kołodziej, M., Szurgacz, D., Stoiński, K., 2018. Introduction of standardization of powered roof supports to increase production efficiency of Polska Grupa Górnicza S.A. Mining – informatics, automation and electric al engineering.
  • 11. Trzop, K., Szurgacz, D., Zhironkin, S., Kasprusz, A., 2021. Analysis of the impact of mining and geological conditions in longwalls on the introduction of pressure monitoring for powered roof supports.IOP Conference Series Volume 1134.
  • 12. Wodecki, J., Góralczyk, M., Krot, P., Ziętek, B., Szrek, J., Worsa-Kozak, M., Zimroz, R., Śliwiński, P., Czajkowski, A., 2020. Process Monitoring in Heavy Duty Drilling Rigs-Data Acquisition System and Cycle Identification Algorithms. Energies 13, 6748.
  • 13. Trzop, K., D.Palka, D.Szurgacz, Sobik, L., 2021. Preventive measures to minimize natural hazards in the Polish underground mining industry. IOP Conference Series.
  • 14. Stańczyk, K., 2020. Modelling of Hard Coal Beneficiation Process Utilising Negative Pressure Pneumatic Separato.Energies 13,5174.
  • 15. Bajda, M., Hardygóra, M., 2020. Analysis of Reasons for Reduced Strength of Multiply Conveyor Belt Splices. Energies 14,1512.
  • 16. Beer, M., R.Rybár, M.Cehlár, S.Zhironkin, Sivák, P., 2020. Design and Numerical Study of the Novel Manifold Header for the Evacuated Tube Solar Collector.Energies 13,2450.
  • 17. Beer, M., M.Taušová, R.Rybár, Kaľavský, M., 2020. A Novel Economical Method of Determining the Geometric Characteristic of the Metal Foam Based on Image Analysis.Energies 13, 3378.
  • 18. Mbedzi, M.D., M.van der Poll, J.A.van der Poll, 2020. Enhancing a Decision-Making Framework to Address Environmental Impacts of the South African Coalmining Industry. Energies 13, 4897.
  • 19. Góralczyk, M., P.Krot, R.Zimroz, Ogonowski, S., 2020. Increasing Energy Efficiency and Productivity of the Comminution Process in Tumbling Mills by Indirect Measurements of Internal Dynamics-An Overview. Energies 13, 6735.
  • 20. Sofranko, M., S.Khouri, O.Vegsoova, P.Kacmary, T.Mudarri, M.Koncek, M.Tyulenev, Simkova, Z., 2020. Possibilities of Uranium Deposit Kuriskova Mining and Its Influence on the Energy Potential of Slovakia from Own Resources.Energies 13, 4209.
  • 21. Tutak, M., J.Brodny, D.Szurgacz, L.Sobik, Zhironkin, S., 2020. The Impact of the Ventilation System on the Methane Release Hazard and Spontaneous Combustion of Coal in the Area of Exploitation-A Case Study. Energies 13, 4891.
  • 22. Boroń, P., J.M.Dulińska, Jasińska, D., 2020. Impact of High Energy Mining-Induced Seismic Shocks from Different Mining Activity Regions on a Multiple-Support Road Viaduct.E nergies 13, 4045.
  • 23. Bortnowski, P., L.Gładysiewicz, R.Król, Ozdoba, M., 2020. Energy Efficiency Analysis of Copper Ore Ball Mill Drive Systems. Energies 14, 1786.
  • 24. Borkowski, P.J., 2020. Comminution of Copper Ores with the Use of a High-Pressure Water Jet. Energies 13, 6274.
  • 25. Sivák, P., P.Tauš, R.Rybár, M.Beer, Z.Šimková, F.Baník, S.Zhironkin, Čitbajová, J., 2020. Analysis of the Combined Ice Storage (PCM) Heating System Installation with Special Kind of Solar Absorber in an Older House. Energies 13, 3878.
  • 26. Zhironkin, S., A.Selyukov, Gasanov, M., 2020. Parameters of Transition from Deepening Longitudinal to Continuous Lateral Surface Mining Methods to Decrease Environmental Damage in Coal Clusters Energies 13, 3305.
  • 27. Kawalec, W., N.Suchorab, M.Konieczna-Fuławka, Król, R., 2020. Specific Energy Consumption of a Belt Conveyor System in a Continuous Surface Mine.Energies 13,5214.
  • 28. Chen, Y., H.Wu, H.Pu, K.Zhang, F.Ju, Y.Wu, Liu, J., 2020. Investigations of Damage Characteristics in Rock Material Subjected to the Joint Effect of Cyclic Loading and Impact. Energies 13, 2154.
  • 29. Li, Y., T.Jin, L.Liu, Yuan, K., 2020. Dynamic Performance Simulation and Stable Current Collection Analysis of a Pantograph Catenary System for Trolley Wire Overhead Electrically Actuated LHD. Energies 13, 1015.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-eca5e4f9-a1ff-4b40-bb9c-017b3db11b71
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