Method of coordinating joint operation of air starter and auxiliary power unit and determining the gas turbine engine starting time


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Abstract

The article describes the method developed by the authors to coordinate the working process of the auxiliary power plant (APP) and the starter air turbine (SAT) used for starting a gas turbine engine (GTD). This method is used to test the possibility of joint operation of the APP and the air turbine in the gas turbine engine starting system in given operating modes. The method is based on combining the APP and turbine characteristics shown in the same coordinates on the same field and checking for intersection points. The condition of joint operation is fulfilled in them. Non-crossing graphs indicate the impossibility of joint work in the selected operating mode. The developed method takes into account losses and leaks in the engine starting system pipes. The data obtained using the developed method are source data for calculating and optimizing the air turbine's working process and for  determining the time required to start the GTE, as well as for testing the operability of the GTE system by strength and other criteria. An algorithm for calculating the time required to start the GTE was also developed by the authors and implemented as a computer program. The obtained data can be used to analyze the possibility of starting the engine and to calculate its main parameters for specific elements of the engine starting system, to select the APP and SAT to meet the specifications.

About the authors

G. M. Popov

Samara National Research University

Author for correspondence.
Email: grishatty@gmail.com

Candidate of Science (Engineering), Associate Professor of the Department of Aircraft Engine Theory

Russian Federation

O. V. Baturin

Samara National Research University

Email: oleg.v.baturin@gmail.com

Candidate of Science (Engineering), Associate Professor of the Department of Aircraft Engine Theory

Russian Federation

Yu. D. Novikova

Samara National Research University

Email: novikova@ssau.ru

Assistant of the Department of Aircraft Engine Theory

Russian Federation

V. M. Zubanov

Samara National Research University

Email: waskes91@gmail.com

Junior Researcher of Research and Educational Centre for Gas-Dynamic Studies

Russian Federation

A. A. Volkov

Samara National Research University

Email: a44rey@gmail.com

Design Engineer, Research and Educational Centre for Gas-Dynamic Studies

Russian Federation

A. I. Korneeva

Samara National Research University

Email: akorneeva94@mail.ru

Engineer of the Department of Advanced Projects and Programs

Russian Federation

References

  1. Kats B.M., Zharov E.S., Vinokurov V.K. Puskovye sistemy aviatsionnykh gazoturbin-nykh dvigateley [Aircraft gas turbine engine starting systems]. Moscow: Mashinostroenie Publ., 1976. 220 p.
  2. Inozemtsev A.A., Nikhamkin M.A., Sandratskiy V.L. Osnovy konstruirovaniya avi-atsionnykh dvigateley i energeticheskikh ustanovok. T. 1 [Principles of design of aircraft en-gines and power plants]. Moscow: Mashinostroenie Publ., 2008. 200 p.
  3. Matveev V.N., Volkov A.A., Zubanov V.M., Novikova Yu.D., Dmitriev D.N. Nailuchshie nastroyki chislennykh modeley osevykh gazovykh turbin dlya polucheniya dos-tovernykh rezul'tatov i optimizatsii. Proceedings of the XXI International Conference «Com-plex Systems: Control and Modeling Problems» (3-6, September, 2019, Samara, Russia). V. 1. Samara: OOO «Ofort» Publ., 2019. P. 382-387. (In Russ.)
  4. Alabin M.A., Kats B.M., Litvinov Yu.A. Zapusk aviatsionnykh gazoturbinnykh dvigateley [Starting of aircraft gas turbine engines]. Moscow: Mashinostroenie Publ., 1968. 227 p.
  5. Mukhammedov N.A. Obespechenie nadezhnogo zapuska aviatsionnogo GTD na os-nove optimizatsii kharakteristik puskovogo ustroystva i sovershenstvovaniya sistemy uprav-leniya. Dis. … kand. tekhn. nauk [Ensuring the start of an aviation GTE on the basis of opti-mizing the characteristics of the starting device and improving the control system]. Rybinsk, 2016. 182 p.
  6. Tikhonov N.T., Musatkin N.F., Matveev V.N. Teoriya lopatochnykh mashin avi-atsionnykh gazoturbinnykh dvigateley [Theory of impeller machines of aircraft gas turbine engines]. Samara: Samara State Aerospace University Publ., 2001. 155 p.
  7. Zubanov V.M., Popov G.M., Goryachkin E.S., Novikova Yu.D., Volkov A.A., Kolmakova D.A. Programma opredeleniya vremeni zapuska turbomashiny Turbomachine Start Time Calculation [Program for determining the starting time of a turbomachine. Tur-bomachine Starting Time Calculation]. Certificate of state registration of a computer program RF, no. 2019663216, 2019. (Publ. 11.10.2019, bull. no. 10)

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