REDUCING INFLUENCE OF ADVERSE EXTERNAL CONDITIONS IN THE LOCAL AIRPORTS

The problem of the unfavorable weather conditions impact on aircraft, including electric discharges on aircraft, continues to be relevant. For the successful implementation of flights, aviation as a type of transport should ensure safety, regularity and economy of air transportation. The aerial meteorology always takes an active part in above problems solution, since flight safety depends on timely prediction of unfavorable weather conditions. Modern airfield and aircraft equipment, as well as a new meteorological technique, helped to improve flight safety and reduce the number of accidents associated with adverse weather conditions, but this did not solve all the problems of civil aviation meteorological support. This problem is especially acute in small airports, where there are often no means of meteorological support and warnings about dangerous weather phenomena or they are insufficient. The article analyzes various unfavorable weather conditions, their influence on aircraft, provides statistics related to unfavorable weather conditions of aviation accidents, and shows the proportion of meteorological conditions among the factors affecting safety. Particular attention is paid to the problem of electric discharges to aircraft. The consequences of electric discharges on aircraft, as well as weather conditions contributing to electric discharges, are analyzed. In order to improve flight safety at local airports, it is proposed to create mobile units for collecting, processing and transmitting meteorological information that is territorially spread over the aerodrome zone; it allows to create mobile meteorological radar network. The structural scheme of the deployment of the mobile network for meteorological radars is given.

1. Kamzolov, S.K. and Samokhin, A.V. (2012). Ob opasnosti polotov v grozu (versii dvukh katastrof) [Оn danger of flights in thunderstorm (Versions of two disasters)]. Scientific Bulletin of the Moscow State Technical University of Civil Aviation, no. 180, pp. 102–105. (in Russian)

2. Nikolaykin, N.I. and Rybalkina, A.L. (2012). Chrezvychaynyye situatsii poslednikh let na territorii Rossii [The organization of ecological protection of the aviation accident area]. Safety in the technosphere, no. 2, pp. 41–46. (in Russian)

3. Starkov, E.Y., Nikolaykin, N.I. and Klimov, P.I. (2016). Organizatsiya ekologicheskoy zashchity territorii aviatsionnogo proisshestviya [Emergencies of recent years in Russia]. Scientific Bulletin of the Moscow State Technical University of Civil Aviation, vol. 19, no. 5, pp. 220–205. (in Russian)

4. Nikolaykin, N.I., Zubkov, B.V. and Rybalkina, A.L. (2008). Analiz statistiki chrezvychaynykh situatsiy v sovremennoy grazhdanskoy aviatsii [Analysis of emergency statistics in modern civil aviation]. Problems of risk analysis, vol. 5, no. 1, pp. 38–52. (in Russian)

5. Ivanov, A.I., Kuznetsov, A.A., Nikolaykin, N.I. and Sharov, V.D. (2017). Improving the interaction of workers serving aircraft, by selecting the brigade staff to reduce the number of errors [Interaction improvement of the workers serving aviation equipment by selection of crews structure for decrease in mistakes number]. XXI century: the results of the past and the problems of the present plus, no. 35(1), pp. 41–47. (in Russian)

6. Rybalkina, A.L. and Cpirin, A.S. (2015). Razvitie radiolokacionnogo geofizicheskogo monitoringa okruzhajushhej sredy s cel'ju povyshenija bezopasnosti poletov [Development of radar environment geophysical monitoring in order to improve aviation safety]. Scientific Bulletin of the Moscow State Technical University of Civil Aviation, no. 222, pp. 138–142. (in Russian)

7. Bogatkin, O.G. (2005). Aviacionnaja meteorologija. Uchebnik [Aviation meteorology. Textbook]. St. Peterburg: RGGMU. (in Russian)

8. Zosimov, V.M., Zubkov, B.V., Kamzolov, S.K., Golubeva, M.G. and Tepnadze, S.A. (1999). Sredstva i metody protivomolnievoj zashhity samoletov [Means and methods of aircraft antilightning protection]. Tbilisi: Profizdat. (in Russian)

9. Kamzolov, S.K. (1996). Osnovnye porazhajushhie faktory pri vozdejstvii molnii na vozdushnoe sudno. Obespechenie bezopasnosti poletov v slozhnyh meteouslovijah: Mezhvuzovskij sbornik nauchnyh trudov [The main damaging factors of aircraft lightning strike. Ensuring flight safety in difficult weather conditions: Interuniversity scientific papers collection]. Moscow: MGTU GA, pp. 3–8. (in Russian)

10. Kamzolov, S.K. (2009). Uchet neodnorodnosti kanala molnii v modeli yeyo elektromekhanicheskogo vozdeystviya pri udare v obshivku vozdushnogo sudna [The impact of the heterogeneity of the channel of lighning in the model of its electromechanical action with the stroke into the skin of the air vessel]. Scientific Bulletin of the Moscow State Technical University of Civil Aviation, no. 140, pp. 66–73. (in Russian)