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The calculation of an armor wear of the drum ball mill of Burshtyn TPP by the analytical method

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The power industry is one of the basic components of Ukraine’s economy, the effectiveness of which contributes to the state progress. The basis of the power industry is the electric power industry, which uses coal as primary power source. About 30% of the total electric power is produced on coal-fired power plants in Ukraine. Such amount of electric power generation requires efficient combustion of fossil fuel, i.e. coal. The coal entering a boiler furnace undergoes appropriate preliminary preparation. The fuel is dried and ground in drum ball mills, after which it is fed into the dust hopper, and then in the boiler through the burners. The efficiency of combustion depends on the quality of the prepared coal dust in drum ball mills, the performance of which deteriorates in the process of operation because of the need to periodically check and adjust the work of the mills. One of the key operating parameters of a drum ball mill is the drum armor wear and ball charge of a drum, which affect the performance and specific electric power consumption for dust preparation. During the mill operation, the ball charge is maintained at a constant maximum level by the periodic addition of balls to the drum, which provides the best possible performance with satisfactory quality of the finished dust.
Rocznik
Strony
86--91
Opis fizyczny
Bibliogr. 17 poz., tab., wykr.
Twórcy
autor
  • Lviv Polytechnic National University, Ukraine
autor
  • Lviv Polytechnic National University, Ukraine
Bibliografia
  • [1] Levit, G. T. (1997). Pyileprigotovlenie na teplovyih elektrostantsiyah. M.: Energoatomizdat.
  • [2] Levit, G. T. (2000). Optimizatsiya upravleniya topochnyim rezhimom parovyih kotlov osnaschennyih melnitsami-ventilyatorami. Teploenergetika, 8, 43-46.
  • [3] Levit, G. T. (2015). Nekotoryie rekomendatsii po povyisheniyu vzryivo bezopasnosti pyilosistem. Energetik, 11, 66-67.
  • [4] Maysterenko, A. Yu., & Chernyavskiy, N. V. (2011). Vliyanie kachestva uglya na efektivnost ego pilevidnogo szhiganiya na TES Ukrainyi. Energohazyaystvo za rubezhem, 5, 23-28.
  • [5] Maysterenko O., Topal O. & Haponych L. (2009). Suchasnyi stan vuhilnoi enerhetyky Ukrainy ta perspektyvy yii onovlennia ta rozvytku. Naukovi pratsi NUKhT, 32, 43-47.
  • [6] Normy vytrat nul dlia vuhlerozmolnykh mlyniv kulovykh barabannykh na rozmel antratsytu kamianoho ta buroho vuhillia. (2008). SOU-N.EE 10.121:2008. K.: OEP “Hrifre”.
  • [7] Holyshev L. V., Kozemko O. M., Mysak Y. S. (2012). Sposib vyznachennia produktyvnosti kulovoho barabannoho mlyna. Patent of Ukraine No 99219.
  • [8] Stohnii O., Makarov V. & Kaplin M. (2011). Potentsial vydobutku vuhillia v Ukraini. Problemy zahalnoi enerhetyky, 2 (25), 11-16.
  • [9] Shavlanov O. (2016). Problemy formuvannia prohnoznoho balansu elektroenerhii. Enerhoatom Ukrainy, 1 (42), 10-12.
  • [10] Basu P., Acharya B., Dutra A. (2009). Gasificcation in Fluidized Beds - Present Status and Design. Proceedings of the 20th International Conference on Fluidised bed Combastion. Xi’an, 97-103.
  • [11] Breault R. W. (2010). Gasification Processes Old and New: A Basic Review of the Major Technologies. Energies, 3, 216-240.
  • [12] Chernyavsky N. V. (1998). Two-Stages Principle in Entrainec Flow Coal Gasification: Mechanisms, Experimental Results, Advantages and Disadvantages for IGCC Application. 3-rd Int. CUSTNET Conf. on Coal Utilis. Sci. and Techn. Bucharest, 44.
  • [13] Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated poluttion prevention and control) (Recast 2010, December 17). Official Journal, L334, 17-119.
  • [14] Zhovtyansky V., Dudnyk O., Nevsgliad I., Sokolovska I. (2009). Hidrogen Rich Gas Generation Using Plasma Steam Gasification of Ukranian Anthracite and Brown Coal. Proceedings of International Conference of Hydrogen Prodaction ICH2P - 11. Thessaloniki, 1-9.
  • [15] Integrated Pollution Prevention and Control (IPPC) Reference Document on Best Available Techniques for Large Combustion Plants (2006) [Text]. Seville.
  • [16] Jaasund S. A. (1987). Electrostatic Precipitator: Better Wet than Dry. Engineering feature. New York: Chemical Engineering, 159-163.
  • [17] Zhovtyansky V., Dudnyk O., Petrov S., Verbovskyi V., Rubect D. (2013). Technique for Evaluation of na Increase of Hydrogen Yield in Plasma-Steam Reactor for Conversion of Wood Air Gasification Products. Proceedings of Abstracts for Hydrogen Energy. 83-84.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1cdd2e18-da7e-4cd7-a742-984425be2980
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