Abstract
In this paper, the consideration is given to the irradiation facilities as well as the developed by us mathematical model aimed at efficiency improvement of indoor air disinfection in poultry farms by virtue of increasing of the processed air volume. In cooperation with veterinarians, the developed mathematical model was tested in the functioning large poultry farm “Kuchinsky SUEPBP” (state unitary enterprise poultry breeding plant) and so the effectiveness of the model was confirmed. It was found that the efficiency of an irradiator grows from the point of view of both the technical parameters and the theoretically deduced mathematical model. It was proved that in the case of use of an open-type irradiator at the same conditions, the processed air volume grows.
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References
Dovlatov, I.M.: Air disinfection in poultry premises ultraviolet radiation. Innov. Agric. 1(22), 13–134 (2017)
Dovlatov, I.M., Kachan, S.A., Yufereva, A.A.: Methods of disinfection of premises for poultry. Innov. Agric. 4(25), 71–75 (2017)
Cunha, J.S., Santos, W.S., Carvalho Júnior, A.B.: Conversion coefficients of equivalent and effective doses in terms of air kerma for computational scenarios of total body irradiation in lying-down patients. Radiat. Phys. Chem. 159, 138–146 (2019)
Nakpan, W., Yermakov, M., Indugula, R., Reponen, T., Grinshpun, S.A.: Inactivation of bacterial and fungal spores by UV irradiation and gaseous iodine treatment applied to air handling filters. Sci. Total Environ. 671, 9–65 (2019)
Yamamoto, S., Toshito, T., Akagi, T., Yamashita, T., Komori, M.: Scintillation imaging of air during proton and carbon-ion beam irradiation. Nucl. Instrum. Methods Phys. Res. Sect. A 833, 149–155 (2016)
Nyangaresi, P.O., Qin, Y., Chen, G., Zhang, B., Lu, Y., Shen, L.: Comparison of the performance of pulsed and continuous UVC-LED irradiation in the inactivation of bacteria. Water Res. 157, 218–227 (2019)
Guo, M.-T., Kong, C.: Antibiotic resistant bacteria survived from UV disinfection: safety concerns on genes dissemination. Chemosphere 224, 827–832 (2019)
Nei, D., Kawasaki, S., Inatsu, Y., Yamamoto, K., Satomi, M.: Effectiveness of gamma irradiation in the inactivation of histamine-producing bacteria. Food Control 28(1), 143–146 (2012)
Yun, H.-J., Lim, S.-Y., Song, H.-P., Kim, B.-K., Kim, D.-H.: Reduction of pathogenic bacteria in organic compost using gamma irradiation. Radiat. Phys. Chem. 76(11–12), 1843–1846 (2007)
Yuferev, L.Yu.: Improving operational and energy characteristics of irradiators “OSUF”. In: Proceedings of the International Scientific and Technical Conference Energy Supply and Energy Saving in Agriculture, vol. 3, pp. 270–275 (2006)
Yuferev, L.Yu., Alferova, L.K., Baranov, D.A.: The use of a uv irradiator in the rooms for the young birds. Equip. Agric. 1, 10–13 (2010)
Yuferev, L.Yu.: Ozone-ultraviolet of nanoelectrospray for disinfection of indoor air. In: The Book of Nanoelectrospray in Agriculture, the Materials of the Scientific-Technical Seminar, pp. 33–37 (2006)
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Dovlatov, I., Yuferev, L., Pavkin, D. (2020). Efficiency Optimization of Indoor Air Disinfection by Radiation Exposure for Poultry Breeding. In: Vasant, P., Zelinka, I., Weber, GW. (eds) Intelligent Computing and Optimization. ICO 2019. Advances in Intelligent Systems and Computing, vol 1072. Springer, Cham. https://doi.org/10.1007/978-3-030-33585-4_18
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DOI: https://doi.org/10.1007/978-3-030-33585-4_18
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