С.С. Шевченко scite author profile

С.С. Шевченко

4Publications

6Citation Statements Received

54Citation Statements Given

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Affiliations

Pukhov Institute for Modelling in Energy Engineering, National Academy of Sciences of Ukraine, A.P. Karpinsky Russian Geological Research Institute

Publications

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Mathematical Modelling of Dynamic System Rotor-Groove Seals for the Purposes of Increasing the Vibration Reliability of NPP Pumps

Шевченко

Shevchenko

Vynnychuk

2021

Nucl. and Rad. Safe.

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Groove seals are considered as hydrostatic bearings capable of effectively damping rotor vibrations. In order to determine the dynamic characteristics, a model of the rotor-groove seals system is considered. The radial forces and moments in groove seals had been estimated. Expressions of joint radial-angular rotor vibrations in groove seals had been obtained. Formulas had been proposed for constructing amplitude and phase frequency characteristics. An example of calculating the dynamic characteristics of a centrifugal machine rotor model is presented. The directions of increasing the vibration reliability of NPP pumping equipment by purposefully increasing the rigidity of groove seals are determined.

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Design Improvement of Stuffing Box Seals of Centrifugal Pump Shafts, Based on the Study of the Sealing Mechanism Physical Model

Шевченко¹,

Llc²

2020

J. of Mech. Eng.

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Methodology of Designing Sealing Systems for Highly Loaded Rotary Machines

Шевченко

Radchenko

et al. 2022

Sustainability

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Higher parameters of centrifugal machines are constantly required, such as the pressure of the medium to be sealed and the speed of rotation of the shaft. However, as the parameters increase, it becomes more and more difficult to ensure the effectiveness of sealing. In addition, sealing systems affect the overall safety of equipment operation, especially vibration. In order to harmonize the sealing functions and increase the dynamic rigidity of the rotors of centrifugal machines, a method for modeling complex sealing systems has been developed. Non-contact seals are considered as hydrostatic–dynamic bearings that can effectively dampen rotor oscillations. A general approach to the analysis of non-contact seals as automatic control systems and an algorithm for constructing their dynamic characteristics at the design stage were proposed for the first time. Models of “rotor-gap seal”, impulse seal and “rotor–hydraulic face” systems, and seal-supports of a shaftless pump have been studied to assess the effect of these seal systems on the oscillatory characteristics of the rotor. Analytical dependencies are obtained for calculating the dynamic characteristics and stability limits of seals as hydromechanical systems. The directions for improving the safety of operation of critical pumping equipment due to a targeted increase in the rigidity of non-contact seals are determined, which leads to an increase in the vibration resistance of the rotor and the environ-mental safety of centrifugal machines. The paper proposes a method for designing sealing systems based on the configuration of sealing components in order to achieve harmonization between sealing and vibration reliability, taking into account oscillatory processes due to hydrodynamic sealing characteristics.

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Computational Method for Mechanical Seal as a Dynamic System

Шевченко¹

2020

Èlektron. model.

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Computational method for mechanical seal as a dynamic system A functional block diagram of a mechanical seal as a dynamic system giving an idea of interaction of its basic elements has been developed. A method for computing loads in a friction pair of the mechanical seal, sealed liquid leakage, friction power losses in the end pair, as well as deformations of sealing rings is proposed. This allows the operational factors that affect seal performance to be taken into account during the design phase. K e y w o r d s: mechanical seal, functional block diagram, force and temperature deformations, friction power, leakage.

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