E.V. Koleda scite author profile

E.V. Koleda

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Don State Technical University, Institute of Service and Entrepreneurship of DGTU

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Strength analysis of the TWS 600 plunger pump body in Solid Works Simulation

Koleda

Kireev

Korchagina

et al. 2021

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Introduction. The relevance of the presented paper is due to the widespread use of plunger pumps in industrial practice, in particular, in gas and oil production. The quality of working operations and the efficiency of further well operation depend largely on their reliability. The improvement of plunger pumps involves increasing their reliability, increasing their service life, efficiency, downsizing, reduction in weight, labor intensity of installation and repair work. The modernization of the mechanism includes its power study since the found forces are used for subsequent strengthcalculations. Before the appearance of programs for the numerical analysis of solid objects, the analytical solution to theproblem of strength calculation of the high-pressure pump drive frame was a very time-consuming and expensiveprocedure. The situation has changed with the development of computer technologies and the inclusion of the finite element method in the computer-aided design systems. The objective of this work is to perform a strength calculationon the TWS 600 plunger pump body made of 09G2S steel. Materials and Methods. A method for determining the reactions of the crank shaft supports of a high-pressure plungerpump and strength calculation of the drive part housing is developed. The direction and magnitude of the resultingforces and reactions of the supports are determined graphically according to the superposition principle of the forceaction on the supports. Strength calculations were performed using the finite element method in the computer-aided design system Solid Works Simulation. In this case, solid and finite-element models of the body with imposed boundary conditions were used, which were identified during the analysis of the design and the calculation of the forces arising under the pump operation.Results. The reactions in the crankshaft supports are described with account for the forces generated by the plungerdepending on its operating mode and the crank position. The forces acting on each of the plungers and the resultingreactions in each of the supports are determined. The diagrams of stresses and the safety factor are presented, whichprovide assessing the strength of the body and developing recommendations for creating a more rational design.Discussion and Conclusions. As a result of the calculations, we have identified areas of the structure with minimumsafety factors, and areas that are several times higher than the recommended values. This provides optimizing the designunder study through strengthening the first and reducing the thickness of the metal on the second. From the point ofview of weight and size characteristics and maintainability, the results of the strength calculation performed can be used to optimize the design of the pump body under typical operating conditions.

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Determination of Reactions in the Crank Shaft Supports of the Drive Part of the High-Pressure Pump

Koleda¹,

Kireev²,

Korchagina³

et al. 2020

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The article presents a power analysis of the connecting rod-crosshead mechanism of the TWS 600 type plunger pump. A method has been developed for determining the reactions of the crank shaft supports of a high-pressure plunger pump, which allows to identify the most loaded places and perform strength calculations of the crank shaft and the drive part housing for any position of the crank. Keywords. Plunger pump, drive part housing, drive part, power analysis, strength analysis

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Features of modeling the drive part of the high pressure pump for adaptation to systems of numerical engineering analysis

Kireev¹,

Korchagina²,

Stepanov³

et al. 2019

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E.V. Koleda

Strength analysis of the TWS 600 plunger pump body in Solid Works Simulation

Determination of Reactions in the Crank Shaft Supports of the Drive Part of the High-Pressure Pump

Features of modeling the drive part of the high pressure pump for adaptation to systems of numerical engineering analysis

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