Research of Explode Exposure at the Relief Vent System Structures with Soft Transparent Material

  • Authors

    • Serhii Pozdieiev
    • Yuriy Pidgoretskiy
    • Olga Nekora
    • Stanislav Sidnei
    • Oleksandr Tyshchenko
    2018-09-15
    https://doi.org/10.14419/ijet.v7i4.3.19808
  • dangerous excessive pressure, explosion, fencing flexible elements, relief panels.

  • A methodology was developed for studying the influence of structural parameters of the relief panels of flexible fencing elements on their behavior in case of explosion. A mathematical model was substantiated on the influence of structural parameters of relief panels with flexible fencing elements on the conditions of their triggering, based on the theory of plates and shells. There was also developed a method for determining the structural parameters for the successful triggering of the relief panels with flexible elements of fencing in case of excessive pressure of explosion, exceeding the maximum allowed parameters.

     

  • References

    1. [1] DSTU [National Standardization System of Ukraine] B V.1.1-36: 2016, Vyznachennya categoriy prymischen’, budynkiv, ustanovok za vybuhopogegnoyu ta pogegnoyu nebezpekoyu, (2017), 44 p.

      [2] Pozdieiev S., Nuianzin O., Sidnei S., Shchipets S., “Computational study of bearing walls fire resistance tests efficiency using different combustion furnaces configurationsâ€, MATEC Web of Conferences, Vol.116, art.no.02027, (2017), http://dx.doi.org/10.1051/MMM.2017.11602027.

      [3] Nekora O., Slovynsky V., Pozdieiev S., “The research of bearing capacity of reinforced concrete beam with use combined experimental-computational methodâ€, MATEC Web of Conferences, Vol.116, art. No.02024, (2017), http://dx.doi.org/10.1051/MMM.2017.11602024.

      [4] Mygalenko K., Nuyanzin V., Zemlianskyi A., Dominik A., Pozdieiev S., “Development of the technique for restricting the propagation of fire in natural peat ecosystemsâ€, Eastern-European Journal of Enterprise Technologies, Vol.1, No.10 (91), (2018), pp. 31-37.

      [5] Danchenko Y., Andronov V., Teslenko M., Permiakov V., Rybka E., Meleshchenko R., Kosse A., “Study of the free surface energy of epoxy composites using an automated measurement systemâ€, Eastern-European Journal of Enterprise Technologies, Vol.1, No12 (91), (2018), pp.9-17.

      [6] Pospelov B., Andronov V., Rybka E., Popov V., Romin A., “Experimental study of the fluctuations of gas medium parameters as early signs of fireâ€, Eastern-European Journal of Enterprise Technologies, Vol.1, No.10 (91), (2018), pp.50-55.

      [7] Pospelov, B., Rybka, E., Meleshchenko, R., Gornostal, S., Shcherbak, S. “Results of experimental research into correlations between hazardous factors of ignition of materials in premisesâ€, Eastern-European Journal of Enterprise Technologies, Vol.6, No.10 (90), (2017), pp.50-56, http://dx.doi.org/10.15587/1729-4061.2017.117789

      [8] TCP 45-2.02-38-2006 (02250), Konstrukcii legkosbrasyvaemye. Pravila rasscheta, Minsk, Ministerstvo architectury i stroitelstva Respubliki Belarus, (2006), 27 p.

      [9] NFPA 68. Standard on Explosion Protection by Deflagration, Venting, Edition, (2013), 88 p.

      [10] BS EN 14491: 2012, Dust Explosion Venting Protective Systems, (2008), 32 p.

      [11] Pilyugin L., Construkcii soorugeniy vzryvoopasnych proizvodstv, Moskva: Stroizdat, (1988), 315 p.

      [12] Timoshenko S., Voinovsky-Kryger S., Plastinki i obolochki, Moskva: Nauka, (1966), 636 p.

      [13]

      Piskunov N., Differencialnoe i integralnoe ischislenie. 13-ya redakcia, Moskva: Nauka, Glavnaya redakcia nauchnoy literatury, (1985), 560 p.

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  • How to Cite

    Pozdieiev, S., Pidgoretskiy, Y., Nekora, O., Sidnei, S., & Tyshchenko, O. (2018). Research of Explode Exposure at the Relief Vent System Structures with Soft Transparent Material. International Journal of Engineering & Technology, 7(4.3), 298-302. https://doi.org/10.14419/ijet.v7i4.3.19808