Vibration resistance of the automatic device of axial unloading of the tpu

Cover Page

Cite item

Full Text

Abstract

The results of vibration resistance research of automatic device axial unloading of turbopump unit (TPU) are reviewed. The mathematical model of the device of this type is developed. She allows to define at a design stage influence on vibration resistance system key parameters - a range of regulation of axial force, volume of the unloading chamber and compressibility of a working liquid. Frequency characteristics vibration activity and transients on axial moving of a rotor influences in the form of jump and blow are resulted.

About the authors

Anatoly Gulienko

Central Institute of Aviation Motors (CIAM)

Author for correspondence.
Email: goulienko-contrl@ciam.ru

PhD, Dr. Honored mechanical engineer of the Russian Federation.

The chief of department Control System Division.

Specialist in the design and modeling of fuel supply and oil systems for gas turbine engines.  

Russian Federation

References

  1. Engines the rocket liquid. Terms and definitions. GOST 17655-89, 1991.
  2. Shvetsova, D.S. and Korolyova, T.A. (2016) “Machines Axial Unloading”, Journal «Actual problems of aircraft and astronautics», Reshetnev Siberian State Aerospace University, vol.1, no. 12, pp. 222-223.
  3. Novikov D.K. (2012), Design principles of aviation engines and power installations. User manual, SSAU, Samara, Russia, 87 p.
  4. Lomakin A. A. (1966), Centrifugal and Axial Pumps, Mashinostroeniye, Leningrad, Russia, 364 p.
  5. Martsinkovsky V.A. (1970), Gidrodinamika and Durability of Centrifugal Pumps, Mashinostroeniye, Мoscow, Russia, 270 p.
  6. Martsinkovsky, V.A. (1980), Contactless sealing rotary machine, Mashinostroeniye, Мoscow, Russia, 200 р.
  7. Chegurko, L.E. (1978), Unloading of the device of nutritious pumps of thermal power stations, Energy, Moscow, Russia, 160 p.
  8. Ovrutskaja N.B. and Heifetz, M.Z. (1957), About axial stability of a rotor of turbomac-hines in the presence of the unloading device, «Papers LMF», issue 5, pp. 345-350.
  9. Martsinkovsky, V.A. (1973), The analysis of axial stability of rotors of nutritious pumps, Energomashinostroeniye, no. 4, pp. 28-30.
  10. Pavlenko, I.V. and Korchak, A. (2007), “The analysis of dynamics of hydraulic discharge device with the pliable stop ring”, Vesnik of the Sumy State University. A series “Engineering Science”, no. 1, pp. 45-53.
  11. Vinogradov A.S. and Falaleev, S.V. (2017), “Designing of the unloading device of the persistent bearing of a rotor of a turbomachine”, Journal “Problems of mechanical engineering and reliability of machines”, issue 5, pp. 88-95.
  12. Gulienko, A.I. (2018), Influence of Vibrations on Characteristics of Hydromechanical Regulators, Journal of Dynamics and Vibroacoustics, Samara, Russia, vol. 4, no. 1, pp. 6-16.
  13. Gimadiev, A.G., Stadnik D.M. and Bratchinin, D.S. (2014), Мathematical Model LRE Valve Given the Hydrodynamic Forces, Papers of the second International Scientific and Technical Conference «Dynamics and Vibroacoustics», SSAU, Samara, Russia, pp. 237-243.
  14. Vibrations in the Technician, (1967), A directory, Mashinostroeniye, Мoscow, Russia, vol. 1.
  15. Prokofiev, V.N. (ed.) (1972), Dynamics of a hydrodrive, Mashinostroeniye, Moscow, Russia, 288 p.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2019 Анатолий Иванович Гулиенко

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Journal of Dynamics and Vibroacoustics

ISSN 2409-4579 (Online)

Publisher and Founder: Samara National Research University, 34, Moskovskoye shosse, Samara, 443086, Russian Federation.

Extract from the register of registered media

Editor-in-chief:  Academician of the RAS
E. V. Shakhmatov 

4 issues per year.

Free price

Editorial address: room 324, 43, Gaya street, Samara, 443086

Address for correspondence: 34, Moskovskoye shosse, Samara, 443086, Russian Federation, Samara National Research University (room 324, building 14)

Phone: 8 (846) 267 47 66

e-mail: dynvibro@ssau.ru

www: https://dynvibro.ru

© Samara University

 

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies