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Investigation of vibrations of a main centrifugal fan used in mine ventilation

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Operation of machines in resonance ranges is a great challenge for design engineers. The paper focuses on the analysis of centrifugal fan casing vibrations which during machine operation, particularly in unsteady states, are very strong. Within a series of investigations performed according to the experimental modal analysis natural frequencies of fan casing vibrations were specified. Additional numerical simulations helped to define theoretical values of the natural vibrations frequency and its mode shapes. The results were analyzed and the numerical model was adjusted. The information was later used in the analysis of vibration measurements in real operating conditions. The results achieved for a nine-blade impeller (new type) were compared to results of an old construction eight-blade fan impeller. New solutions, which shall facilitate casing operation beyond resonance frequencies vibrations areas, were proposed.
Rocznik
Strony
569--579
Opis fizyczny
Bibliogr. 31 poz., rys., tab., wykr.
Twórcy
autor
  • Department of Machine Design and Research, Faculty of Mechanical Engineering, Wroclaw University of Technology, Lukasiewicza 7/9, 50-371 Wroclaw, Poland
autor
  • Department of Machine Design and Research, Faculty of Mechanical Engineering, Wroclaw University of Technology, Lukasiewicza 7/9, 50-371 Wroclaw, Poland
autor
  • Department of Machine Design and Research, Faculty of Mechanical Engineering, Wroclaw University of Technology, Lukasiewicza 7/9, 50-371 Wroclaw, Poland
  • Department of Machine Design and Research, Faculty of Mechanical Engineering, Wroclaw University of Technology, Lukasiewicza 7/9, 50-371 Wroclaw, Poland
Bibliografia
  • [1] F. Al-Badour, M. Sunar, L. Cheded, Vibration analysis of rotating machinery using time–frequency analysis andwavelet techniques, Mechanical Systems and Signal Processing 25 (2011) 2083–2101.
  • [2] M. Baumgartner, F. Kameier, J. Hourmouziadis, Non-engine blade vibration in a high pressure compressor, in: ISABE-Twelfth International Symposium on Airbreathing Engines, Melbourne, Australia, September 10–15, 1995.
  • [3] S. Bošnjak, N. Zrnić, B. Dragović, Dynamic response of mobile elevating work platform under wind excitation, Strojniški Vestnik (Journal of Mechanical Engineering), 55 (2) (2009) 104–113.
  • [4] A. Buchacz, M. Płaczek, Development of mathematical model of a mechatronic system, Solid State Phenomena 164 (2010) 319–322.
  • [5] W.T.W. Cory, Fans & Ventilation – A Practical Guide, Elsevier, Amsterdam, 2005.
  • [6] J. Czmochowski, A. Górski, M. Paduchowicz, E. Rusiński, Diagnostic method of measuring hanger rods tension forces in the suspension of the power boilers combustion chamber, Journal of Vibroengineering 14 (1) (2012) 129–134.
  • [7] Q. Datong, Y. Mao, X. Liu, M. Yuan, Experimental study on the noise reduction of an industrial forward-curved blades centrifugal fan, Applied Acoustics 70 (2009) 1041–1050.
  • [8] D. Derlukiewicz, J. Karliński, Static and dynamic analysis of telescopic boom of self-propelled tunneling machine, Journal of Theoretical and Applied Mechanics 50 (1) (2012) 47–59.
  • [9] D. Derlukiewicz, J. Karliński, A. Iluk, The operator protective structures testing for mining machines. Mechatronic systems and materials production technologies, Book Series: Solid State Phenomena, 165, 2010, pp. 256–261. , http://dx.doi.org/10.4028/www.scientific.net/SSP.165.256.
  • [10] Z. Gronostajski, S. Polak, Quasi-static and dynamic deformation of double-hat thin-walled elements of vehicle controlled body crushing zones joined by clinching, Archives of Civil and Mechanical Engineering 8 (2) (2008) 57–65.
  • [11] A. Janicka, M.Ł. Tkaczyk, M. Zawiślak, The estimation of chosen organic compounds distribution inside vehicle cabin in aspect of occupational driver exposure, Polish Journal of Environmental Studies 20 (4A) (2011) 93–99.
  • [12] K. Jamroziak, M. Kosobudzki, Determining the torsional natural frequency of underframe of off-road vehicle with use of the procedure of operational modal analysis, Journal of Vibroengineering 14 (2) (2012) 472–476.
  • [13] F. Kameier, Rotating blade flow instability as a source of noise in axial turbomachines, Journal of Sound and Vibration 203 (5) (1997) 833–853.
  • [14] J. Karliński, M. Ptak, P. Działak, Simulation tests of roll-over protection structure, Archives of Civil and Mechanical Engineering 13 (1) (2012) 57–63.
  • [15] J. Kulczyk, Ł. Skraburski, M. Zawislak, Analysis of screw poperller 4119 using fluent system, Archives of Civil and Mechanical Engineering 7 (4) (2007) 129–137.
  • [16] L. Seungyub, H. Seung, Ch. Cheolung, Prediction and reduction of internal blade-passing frequency noise of the centrifugal fan in a refrigerator, International Journal of Refrigeration 33 (6) (2010) 1129–1141.
  • [17] B. Łazarz, G. Wojnar, P. Czech, Wykrywanie wczesnych faz uszkodzeń kół zębatych w warunkach eksploatacyjnych, Maintenance and Reliability (Eksploatacja i Niezawodność), 1 (2011) 68–77.
  • [18] M. Maślanka, B. Sapiński, J. Snamina, Experimental study of vibration control of a cable with an attached MR damper, Journal of Theoretical and Applied Mechanics 45 (4) (2007) 893–917.
  • [19] E. Poursaeidi, M. Salavanti, Failure analysis of generator rotor fan blades, Engineering Failure Analysis 14 (2007) 851–860.
  • [20] S. Radkowski, Use of vibroacoustical signal in detecting early stages of failures, Maintenance and Raliability (Eksploatacja i Niezawodność), 3 (2007) 11–18.
  • [21] R.B. Randall, Vibration-based Condition Monitoring, A John Wiley and Sons, Ltd., West Sussex, UK, 2011.
  • [22] R.A. Rama, B.K. Dutta, Vibration analysis for detecting failure of compressor blade, Engineering Failure Analysis 25 (211) (2012) 218.
  • [23] E. Rusiński, S. Dragan, P. Moczko, D. Pietrusiak, Implementation of experimental method of determining modal characteristics of surface mining machinery in the modernization of the excavating unit, Archives of Civil and Mechanical Engineering 12 (4) (2012) 471–476.
  • [24] E. Rusiński, Zaawansowana metoda elementów skończonych w konstrukcjach nośnych, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław, 2000.
  • [25] S. Velarde-Suárez, R. Ballesteros-Tajadura, J.P. Hurtado-Cruz, C. Santolaria-Morros, Experimental determination of the tonal noise sources in a centrifugal fan, Journal of Sound and Vibration 295 (3–5) (2006) 781–796.
  • [26] S.E. Vloussavi Torshizi, S.M. Yadavar Nikravesh, A. Jahangiri, Failure analysis of gas turbine generator cooling fan blades, Engineering Failure Analysis 16 (2009) 1686–1695.
  • [27] D. Wolfram, T. Carolus, Experimental and numerical investigation of the unsteady flow field and tone generation in an isolated centrifugal fan impeller, Journal of Sound and Vibration 329 (2010) 4380–4397.
  • [28] F. Weber, M. Maślanka, Precise stiffness and damping emulation with MR dampers and its application to semi-active tuned mass dampers of Wolgograd Bridge, Smart Materials and Structures 23 (1) (2014), http://dx.doi.org/ 10.1088/0964-1726/23/1/015019, 015019, 18 pp.
  • [29] O.C. Zienkiewicz, R.L. Taylor, J.Z. Zhu, Finite Element Method – Its Basis and Fundamentals, 6th ed., Elsevier, Oxford, 2005.
  • [30] N. Zrnic, S. Bosnjak, Comments on ‘‘Modeling of system dynamics of slewing flexible beam with moving payload pendulum’’, Mechanics Research Communications 35 (8) (2008) 622–624.
  • [31] J. Czmochoski, P. Moczko, P. Odyjas, D. Pietrusiak, Tests of rotary machines vibrations in steady and unsteady states on the basis of large diameter centrifugal fans, Maintenance and Reliability (Eksploatacja i Niezawodność), 16 (2) (2014) 211–216.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0fe1c6de-0d4f-4005-9988-aae9fa593d02
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