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Adaptation of the machine to the new geological conditions – excavation unit redesign and optimization

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Języki publikacji
EN
Abstrakty
EN
The paper presents and sums up the research and technical aspects of the modernization of the cutting tool of the dredger. Improper adjustment of the cutting elements not adjusted to the characteristics of excavated material is not an uncommon situation, causing versatile geological conditions. Relocation of the machines from one pit to another may result in the significant influence on the excavation process (wear, output, etc.). Common practice is the field try and error approach to obtain desired machine performance. In the paper authors present the approach with aid of cutting-edge technologies. Coupled DEM and kinematic simulations supported by the reverse engineering technologies of laser scanning were the fundamental drivers for final adjustments of the cutting tool at its present operational conditions.
Rocznik
Strony
art. no. e137122
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
  • Department of Machine Design and Research, Wroclaw University of Science and Technology, ul. Ignacego Lukasiewicza 7/9, 50-371 Wroclaw, Poland
  • Department of Machine Design and Research, Wroclaw University of Science and Technology, ul. Ignacego Lukasiewicza 7/9, 50-371 Wroclaw, Poland
  • Department of Machine Design and Research, Wroclaw University of Science and Technology, ul. Ignacego Lukasiewicza 7/9, 50-371 Wroclaw, Poland
Bibliografia
  • [1] Saga et al., “Experimental Determination of the Manson-Coffin Curves for an Original Unconventional Vehicle Frame”, Materials 13, 4675 (2020), doi: 10.3390/ma13204675.
  • [2] J. Dizo et al.,”Development of a New System for Attaching the Wheels of the Front Axle in the Cross-Country Vehicle”, Symmetry-Basel 12, 1156, (2020), doi: 10.3390/sym12071156.
  • [3] S. Bosnajk and N. Zrnic, “Dynamics, failures, redesigning and environmentally friendly technologies in surface mining systems”, Arch. Civ. Mech. Eng. 12, 348–359 (2012).
  • [4] D. Danicic, S. Sedmak, D. Ignjatovic, and S. Mitrovic, “Bucket wheel excavator damage by fatigue fracture – case study”, Procedia Mater. Sci. 3, 1723‒1728, 2014.
  • [5] J. Peng, X. Liquan, L. Zheng, X. Liang, and Y Li, “Analysis On Layered Rock Cutting Process With Cutter Suction Dredger Based On Discrete Element Method”, in E-proceedings of the 38 th IAHR World Congress 09, 2019, doi: 10.3850/38WC092019-0333.
  • [6] A. Amiadji, A. Baidowi, and R. Prayogo, “Development of Cutter Head Design in Cutter Suction Dredger with Thickness and Pitch Variation”, Int. J. Mar. Eng. Inn. Res. 3(3), 93‒108 (2019).
  • [7] K. Pieczonka, Inżynieria maszyn roboczych. Cz. 1, Podstawy urabiania, jazdy, podnoszenia i obrotu, Wroclaw University of Science and Technology Publishing House, 2009, [in Polish].
  • [8] R.N. Bray, A.D. Bates, and J.M. Land, Dredging: A Handbook for Engineers, Butterworth-Heinemann, 1996.
  • [9] M. Macko, Z. Szczepański, D. Mikołajewski, E. Mikołajewska, and S. Listopadzki, “The Method of Artificial Organs Fabrication Based on Reverse Engineering in Medicine”, in Proceedings of the 13th International Scientific Conference. RESRB 2016. Lecture Notes in Mechanical Engineering. Springer, Cham, 2016, doi: 10.1007/978-3-319-50938-9_36.
  • [10] J. Andruszko, P. Moczko, and D. Pietrusiak, “The use of numerical methods in cutterhead dredger excavation unit optimization”, in Proc. XXIII International Conference on Material Handling, Construction and Logistics, MHCL 2019, 2019, pp. 141‒146.
  • [11] I. Rojek, “Modelowanie i symulacja komputerowa złożonych zagadnień mechaniki nieliniowej metodami elementów skończonych i dyskretnych”, Prace Instytutu Podstawowych Problemów Techniki PAN, pp. 119‒146, 2007 [in Polish].
  • [12] A. Danesh, A.A. Mirghaseim, and M. Palassi, “Evaluation of particle shape on direct shear mechanical behavior of ballast assembly using discrete element method (DEM)”, Transport. Geotech. 23, 100357 (2020).
  • [13] P. Siemaszko and Z. Meyer, “Static load test curve analysis based on soil field investigations”, Bull. Pol. Acad. Sci. Tech. Sci., 67(2), 329‒337 2019 doi: 10.24425/bpas.2019.128607.
  • [14] K. Pieczonka, Maszyny górnicze: Maszyny urabiające i ładujące do podziemnej eksploatacji złóż rud, Wroclaw University of Technology Publishing House, 1981, [in Polish].
  • [15] H. Gilvari, W. de Jong, and D.L. Schott, “Breakage behavior of biomass pellets: an experimental and numerical study”, Comp. Part. Mech. 2020, doi: 10.1007/s40571-020-00352-3.
  • [16] H. Hertz, “On the contact of rigid elastic solids and on hardness”, Ch 6: Assorted Papers, 1882.
  • [17] R.D. Mindlin, “Compliance of Elastic Bodies in Contact”, J. Appl. Mech. 16(3), 259‒268 (1949).
  • [18] Y. Tsuji, T. Tanaka, and T. Ishida, “Lagrangian numerical simulation of plug flow of cohesionless particles in a horizontal pipe”, Powder Technol. 71, 239‒250 (1992).
  • [19] P.A. Cundall and O.D.L. Strack, “A discrete numerical model for granular assemblies”, Géotechnique 29, 47‒65 (1979).
  • [20] T. Rashi, K. Jeremy, and D. George, “Bucket trajectory classification of mining excavators”, Autom. Constr, 31, 128‒139 (2013).
  • [21] S. Blouin, A. Hemami, and M. Lipsett, “Review of resistive force models for earthmoving processes”, J. Aerosp. Eng. 14(3), 102‒111 (2001).
  • [22] S.M. Bosnjak, D.C.D. Oguamanam, and N.D. Zrnic, “The influence of constructive parameters on response of bucket wheel excavator superstructure”, Arch. Civ. Mech. Eng. 15(4), 977‒985, 2015.
  • [23] E. Rusiński et. al., “Investigations And Modernizations Of Buckets Of Surface Mining Machines”, Eng. Struct. 90, 29‒37 (2015).
  • [24] D. Pietrusiak, P. Moczko, and E. Rusiński, “Recent achievements in investigations of dynamics of surface mining heavy machines”, in Proc. 24th World Mining Congress: mining in a world of innovation – proceedings, 2016, pp. 295‒308.
  • [25] J. Czmochowski, P. Moczko, D. Pietrusiak, G. Przybyłek, and E. Rusiński, “Selected Aspects of Technical Condition State Assessment of Spreaders Operating in Lignite Mines”, in Proc. Proceedings of the 13th International Scientific Conference Computer Aided Engineering, 2016, pp. 89‒98.
  • [26] E. Rusiński and J. Czmochowski, T. Smolnicki, Zaawansowana metoda elementów skończonych w konstrukcjach nośnych, Wroclaw University of Science and Technology Publishing House, 2000, [in Polish].
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-db6882d8-e320-451d-9bcf-fff362a9ff4a
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