Performance comparison between textured, pocket, and tapered-land sector-pad thrust bearings using computational fluid dynamics thermohydrodynamic analysis

Different geometry patterns of the surface of thrust bearings have been proven very beneficial in terms of bearing load-carrying capacity and friction coefficient. In this study, four different types of sector-pad thrust bearings have been cross-evaluated for operation under realistic operating cond...

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Veröffentlicht in:	Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology Journal of engineering tribology, 2015-04, Vol.229 (4), p.376-397
Hauptverfasser:	Fouflias, Dimitrios G, Charitopoulos, Anastassios G, Papadopoulos, Christos I, Kaiktsis, Lambros, Fillon, Michel
Format:	Artikel
Sprache:	eng
Schlagworte:	Bearing Computational fluid dynamics Constants Fluid dynamics Friction Geometry Heat transfer Mathematical analysis Mechanical engineering Navier-Stokes equations Pocket Simulation Sliding friction Thrust bearings
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container_title	Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology
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creator	Fouflias, Dimitrios G Charitopoulos, Anastassios G Papadopoulos, Christos I Kaiktsis, Lambros Fillon, Michel
description	Different geometry patterns of the surface of thrust bearings have been proven very beneficial in terms of bearing load-carrying capacity and friction coefficient. In this study, four different types of sector-pad thrust bearings have been cross-evaluated for operation under realistic operating conditions: (a) an open pocket bearing, (b) a closed pocket bearing, (c) a tapered-land bearing, and (d) a bearing partially textured with rectangular dimples. Bearing performance has been computed by means of computational fluid dynamics simulations based on the numerical solution of the Navier–Stokes and energy equations for incompressible flow. Conjugate heat transfer at the bearing pad and rotor has been taken into account. Initially, for a reference design of each bearing, the effects of varying rotational speed and minimum film thickness have been investigated. Further, characterization of each bearing for a constant level of thrust load has been performed. Finally, the effects of varying the depth of each geometry pattern have been studied. The present results illustrate a superior performance of the open pocket bearing in comparison to the other bearing types.
doi_str_mv	10.1177/1350650114550346
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Part J, Journal of engineering tribology</title><description>Different geometry patterns of the surface of thrust bearings have been proven very beneficial in terms of bearing load-carrying capacity and friction coefficient. In this study, four different types of sector-pad thrust bearings have been cross-evaluated for operation under realistic operating conditions: (a) an open pocket bearing, (b) a closed pocket bearing, (c) a tapered-land bearing, and (d) a bearing partially textured with rectangular dimples. Bearing performance has been computed by means of computational fluid dynamics simulations based on the numerical solution of the Navier–Stokes and energy equations for incompressible flow. Conjugate heat transfer at the bearing pad and rotor has been taken into account. Initially, for a reference design of each bearing, the effects of varying rotational speed and minimum film thickness have been investigated. 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Initially, for a reference design of each bearing, the effects of varying rotational speed and minimum film thickness have been investigated. Further, characterization of each bearing for a constant level of thrust load has been performed. Finally, the effects of varying the depth of each geometry pattern have been studied. The present results illustrate a superior performance of the open pocket bearing in comparison to the other bearing types.</abstract><cop>London, England</cop><pub>SAGE Publications</pub><doi>10.1177/1350650114550346</doi><tpages>22</tpages></addata></record>
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subjects	Bearing Computational fluid dynamics Constants Fluid dynamics Friction Geometry Heat transfer Mathematical analysis Mechanical engineering Navier-Stokes equations Pocket Simulation Sliding friction Thrust bearings
title	Performance comparison between textured, pocket, and tapered-land sector-pad thrust bearings using computational fluid dynamics thermohydrodynamic analysis
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