Finite Element Analysis of Thrust Bearing in ESPCP System

Lei Wang; Chong Gao; Shi Jie Wang; Jing Zhao; Li Li

doi:10.4028/www.scientific.net/AMR.781-784.2834

Paper Titles

Investigation of Mixing Performance in the Extruder with Embedded Planetary-Screws
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Flow Field and its Flowability in a Stirred Tank with a Plate Propeller
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Effects of Bubble Dynamic Characteristics on Flow Field in Venturi
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Finite Element Analysis of Mixing Arm and Shaft Based on ANSYS
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Finite Element Analysis of Thrust Bearing in ESPCP System
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Study on Temperature Distribution of Solid-Plug Conveying Element on Centrifugal Extruder by Experiments
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Experimental Study on Optimization of Wet Desulfurization of Wet Ball Mill System
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The Numerical Investigation of Configuration Improvement on Gas Distributor in a Hydrogenated Reactor
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The Influence of the Number of Impeller’s Blade on the Performance of Multistage Centrifugal Pump
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 781-784Finite Element Analysis of Thrust Bearing in ESPCP...

Finite Element Analysis of Thrust Bearing in ESPCP System

Abstract:

Thrust bearing is one of the most important components in ESPCP system, which determines the life of the whole system under the restriction of some factors such as the installation depth and the viscosity of swabbed petroleum oil etc. To increase the ability of high temperature resistance of thrust bearings under the limited radial size, the damage reason of applied bearings was analyzed. Some different modified methods were employed on configuration and material. Contact problems were researched with finite element analysis software. Comparison of the analysis results shows that in the tube, it is optimum that 8 rollers thrust bearings are used in 10mm radial tube without holders.

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Periodical:

Advanced Materials Research (Volumes 781-784)

Pages:

2834-2838

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.781-784.2834

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Online since:

September 2013

Authors:

Lei Wang*, Chong Gao, Shi Jie Wang, Jing Zhao, Li Li

Keywords:

ESPCP System, Intensity Analysis, Progressing Cavity Pump, Thrust Bearing

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