Computational and experimental studies of aerodynamic characteristics of unmanned aerial vehicles at subsonic speeds


Аuthors

Shevchenko A. V.*, Muravitskaia L. A.

Mlitary spaсe Aсademy named after A.F. Mozhaisky, Saint Petersburg, Russia

*e-mail: artnetru@yandex.ru

Abstract

The paper presents the features of aerodynamic characteristics studies by computational-experimental of typical unmanned aerial vehicles obtained as a result of numerical modeling and experimental studies conducted in a subsonic wind tunnel.
The computational and experimental study of the drones aerodynamic characteristics were carried out under the conditions V∞=20 m/s, T∞ = 293 K and p∞ = 101.3 kPa. The angle of attack of the models relative to the flow was varied from 0º to 20º.
The Reynolds-averaged Navier-Stokes equations closed by the k-ω SST turbulence equations were used in the calculations. Sticking and isothermal conditions were used on the body surface and walls of the working part of the pipe to ensure the adequacy of the simulation.
The modeling was carried out using a structured prismatic finite element mesh consisting of 9.1×106 elements (12 elements per boundary layer thickness (parameter y+=1.2)). The results of the calculations showed that the flow of the incoming flow near the models has a spatial character, and the shape of the model has a significant effect on the pressure distribution over the surface during its motion, hence on its drag force and lift force.
A subsonic wind tunnel T-2 was used for experimental aerodynamic characteristics studies. The unit is equipped with six-component aerodynamic scales 6KVT-2 with threaded model suspension. The technological advantage of the wind tunnel T-2 is the low degree of flow turbulence in the working part (0.2 %), which allows to conduct physical studies of the flow in the boundary layer and in the trace of the model. During the wind tunnel experiments, the drag force and lift force of the models were determined, from which the aerodynamic coefficients and aerodynamic characteristics of the models were obtained. Models without propeller were used in the experiments.
The analysis of the obtained results of calculations and experiments of aerodynamic characteristics of models shows that in general their type corresponds to the standard aerodynamic characteristics of aircraft of corresponding layouts.

Keywords:

unmanned aerial vehicle, aerodynamic characteristics, wind tunnel, experimental studies

References

  1. Biryuk V.V. et al. Aerodinamika i samoletostroenie (Aerodynamics and aircraft construction: textbook), Samara, Izd-vo Samarskogo universiteta, 2018, 180 p.
  2. Fetisov V.S. et al. Bespilotnaya aviatsiya: terminologiya, klassifikatsiya, sovremennoe sostoyanie (Unmanned aviation: terminology, classification, current status), Ufa, Foton, 2014, 217 p.
  3. Afanas'ev P.P., Golubev I.S., Novikov V.N., Parafes' S.G., Pestov M.D., Turkin I.K. Bespilotnye letatel'nye apparaty. Osnovy ustroistva i funktsionirovaniya (Unmanned aerial vehicles. Fundamentals of device and operation), Moscow, Izd-vo MAI, 2008, 656 p.
  4. Bulat P.V., Dudnikov S.Yu., Kuznetsov P.N. Osnovy aerodinamiki bespilotnykh vozdushnykh sudov (Fundamentals of aerodynamics of unmanned aircraft), Moscow, Izd-vo «Sputnik +», 2021, 273 p.
  5. Kolesnikov G.A., Markov V.K., Mikhailyuk A.A. et al. Aerodinamika letatel'nykh apparatov (Aerodynamics of aircrafts), Moscow, Mashinostroenie, 1993, pp. 200-202.
  6. Golovkin M.A., Golovkin V.A., Kalyakin V.M. Voprosy vikhrevoi gidromekhaniki (Vortex hydromechanics issues), Moscow, Fizmatlit, 2009, 264 p.
  7. Grebenikov A.G., Myalitsa A.K., Parfenyuk V.V. et al. Obshchie vidy i kharakteristiki bespilotnykh letatel'nykh apparatov (General types and characteristics of unmanned aerial vehicles: reference manual), Khar'kov, Khar'kovskii aviatsionnyi institut, 2008, 377 p.
  8. Torenbik E. Proektirovanie dozvukovykh samoletov (Design of subsonic airplanes), Moscow, Mashinostroenie, 1983, 648 p.
  9. Kharitonov A.M. Tekhnika i metody aerofizicheskogo eksperimenta. Ch.2. Metody i sredstva aerofizicheskikh izmerenii (Technique and methods of the aerophysical experiment. Part 2: Methods and means of aerophysical measurements), Novosibirsk, Izd-vo NGTU, 2007, pp. 18-22.
  10. Kagenov A.M., Kostyushin K.V., Ismailov K.K., Kostyushina N.O., Orlov S.A., Prokhanov S.A. The development of a cloud system for investigation of UAVs aerodynamic characteristic, Journal of Physics Conference Series, 2020, vol. 1488, pp. 012017. DOI: 10.1088/1742-6596/1488/1/012017
  11. Menter F.R., Galpin P.F., Esch T., Kuntz M., Berner C. CFD Simulations of Aerodynamic Flows with a Pressure-Based Method, Paper ICAS 2004–2.4.1, Japan, Yokohoma, 2004.
  12. Moizykh E.I., Zavalov O.A., Kuznetsov A.V. Trudy MAI, 2012, no. 50. URL: https://trudymai.ru/eng/published.php?ID=26557
  13. Buzykin O.G., Kazakov A.V., Shustov A.V. Uchenye zapiski TsAGI, 2010, vol. 41, no. 5, pp. 21-32.
  14. Voronich I.V., Kolchev S.A., Panchuk D.V., Pesetskii V.A., Silkin A.A., Tkachenko V.V., Nguen T.T. Trudy MAI, 2019, no. 109. URL: https://trudymai.ru/eng/published.php?ID=111370. DOI: 10.34759/trd-2019-109-8
  15. Brutyan M. A., Vladimirova N.A., Potapchik A.V. Uchenye zapiski TsAGI, 2013, vol. 44, no. 3, pp. 39-45.
  16. Parkhaev E.S., Semenchikov N.V. Trudy MAI, 2015, no. 80. URL: http://trudymai.ru/eng/published.php?ID=56884
  17. Menter F.R., Kuntz M., Langtry R. Ten years of industrial experience with the SST turbulence model, Heat and Mass Transfer 4, Begell House, Inc. 2003.
  18. Konyukhov I.K. Trudy MAI, 2018, no. 99. URL: https://trudymai.ru/eng/published.php?ID=91801
  19. Kornev S.V., Pimenov I.A. Trudy MAI, 2022, no. 123. URL: https://trudymai.ru/eng/published.php?ID=165488. DOI: 10.34759/trd-2022-123-07
  20. Kornev S.V., Artamonova L.G. Trudy MAI, 2012, no. 61. URL: https://trudymai.ru/eng/published.php?ID=35639
  21. Krasnov N.F., Koshevoi V.N., Kalugin V.T. Aerodinamika otryvnykh techenii (Aerodynamics of detachable flows), Moscow, Vysshaya shkola, 1988, 351 p.


Download

mai.ru — informational site MAI

Copyright © 2000-2024 by MAI

 Вход