INVESTIGATION OF HYDRAULIC AND VIBROACOUSTIC CHARACTERISTICS OF A PERSPECTIVE VALVE WITH THE WORKING BODY AS A ELASTIC TUBE ELEMENT

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Abstract

The article deals with the design of a perspective throttle valve with an elastic tubular element designed to reduce the vibration and noise of hydraulic systems, which are subject to increased requirements for vibro-acoustic characteristics. The analysis of known similar devices is carried out and the design of the valve-throttle is proved. A detailed analysis of the deformed state of the elastic tubular element is performed and the relationship between the deformations of this element and the hydraulic parameters of the working medium in the flowing part of the valve is shown. The experimental flow characteristics of the valve under study are analyzed, the analysis of which has made it possible to identify the parts of the characteristics at which the constant flow rate remains constant when the pressure drop across the valve changes. The substantiation of this feature of the hydraulic characteristics of a valve with an elastic element is given. The ways of further research directions of the prospective valve are shown.

About the authors

N N Romashov

Avrora JSC

Author for correspondence.
Email: niclju@mail.ru.ru

Candidate of Technical Sciences, Leading Researcher

Russian Federation

M A Ermilov

Samara National Research University

Email: emasamara@gmail.com

junior researcher, Department of Automatic Systems of Power Plants

Russian Federation

E N Ermilova

Samara National Research University

Email: ermilova6488@gmail.com

postgraduate student, Department of Automatic Systems of Power Plants

Russian Federation

A N Vidyaskina

Samara National Research University

Email: vidiaskina@gmail.ru

student, Department of Automatic Systems of Power Plants

Russian Federation

References

  1. IEC 534-8-4, Industrial-process control valves - Part 8: Noise considerations - Section 4: Prediction of noise generated by hydrodynamic flow, International standard, 1994.
  2. Popkov, V.I. and Popkov, S.V. (2009), “Kolebaniya mekhanizmov i konstruktsiy” , Sudarynya, St. Petersburg, Russian Federation, 490 p.
  3. Kryuchkov, A.N., Romashov, N.N., Ermilov, M.A. and Balyaba, M.V. (2017), “Investigation of hydraulic and vibroacoustic characteristics of a prospective valve with an elastic tubular element used as the working body”, Vestnik of Samara university. Aerospace and mechanical engineering, vol. 16, no. 4, pp. 82-90.
  4. Volobuev, А.N. (1995), “Techeniye zhidkosti v trubkakh s elastichnymi stenkami” , Successes of physical sciences, vol. 165, no. 2, pp. 177–186.
  5. Griguletskiy V.G. and Savel'ev U.P. (2017), “Resistance coefficients during a turbulent flow of a viscous fluid in the annular gap of two coaxial cylindrical pipes” , St.Petersburg State Polytechnical University Journal, vol. 23, no.1, pp. 82–89. doi: 10.18721/JEST.23.

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Copyright (c) 2020 Н Н Ромашов, М А Ермилов, Е Н Ермилова, А Н Видяскина

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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 

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

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e-mail: dynvibro@ssau.ru

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