Asymptotic approximation of laminar lubrication thermal field at low reduced peclet and Brinkman number

Per Johansen; Daniel Beck Roemer; Torben Ole Andersen; Henrik C. Pedersen

doi:10.1115/1.4027957

Asymptotic approximation of laminar lubrication thermal field at low reduced peclet and Brinkman number

Per Johansen, Daniel Beck Roemer, Torben Ole Andersen, Henrik C. Pedersen

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Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

8 Citationer (Scopus)

Abstract

A conventional simplification of the thermal problem in fluid film lubrication analysis is performed by assuming that the main direction of heat flow is conduction through the film thickness, and thereby neglecting convection. However, in a significant amount of applications, convection is not negligible, whereby the majority of design engineers exclusively use numerical solvers. This paper presents a perturbation series expansion of the temperature field for small values of the Brinkman number. The derived perturbation solution and the more conventional analytical solution, where convection is neglected, are compared to a numerical test case. The comparison shows a significant improvement in the region where the convection term and conduction term are of the same order.

Originalsprog	Engelsk
Artikelnummer	TRIB-13-1248
Tidsskrift	Journal of Tribology
Vol/bind	136
Udgave nummer	4
Antal sider	7
ISSN	0742-4787
DOI	https://doi.org/10.1115/1.4027957
Status	Udgivet - 2014

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10.1115/1.4027957

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HyDrive: Hydrostatic Drive Train Transmission for Renewable Energy Applications
Andersen, T. O. (Projektdeltager), Bech, M. M. (Projektdeltager), Nørgård, C. (Projektdeltager), Roemer, D. B. (Projektdeltager) & Johansen, P. (Projektdeltager)
DSF The Danish Council for Strategic Research
01/04/2014 → 30/09/2019
Projekter: Projekt › Forskning

Citationsformater

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abstract = "A conventional simplification of the thermal problem in fluid film lubrication analysis is performed by assuming that the main direction of heat flow is conduction through the film thickness, and thereby neglecting convection. However, in a significant amount of applications, convection is not negligible, whereby the majority of design engineers exclusively use numerical solvers. This paper presents a perturbation series expansion of the temperature field for small values of the Brinkman number. The derived perturbation solution and the more conventional analytical solution, where convection is neglected, are compared to a numerical test case. The comparison shows a significant improvement in the region where the convection term and conduction term are of the same order.",

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AU - Roemer, Daniel Beck

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PY - 2014

Y1 - 2014

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AB - A conventional simplification of the thermal problem in fluid film lubrication analysis is performed by assuming that the main direction of heat flow is conduction through the film thickness, and thereby neglecting convection. However, in a significant amount of applications, convection is not negligible, whereby the majority of design engineers exclusively use numerical solvers. This paper presents a perturbation series expansion of the temperature field for small values of the Brinkman number. The derived perturbation solution and the more conventional analytical solution, where convection is neglected, are compared to a numerical test case. The comparison shows a significant improvement in the region where the convection term and conduction term are of the same order.

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DO - 10.1115/1.4027957

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ER -

Asymptotic approximation of laminar lubrication thermal field at low reduced peclet and Brinkman number

Abstract

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HyDrive: Hydrostatic Drive Train Transmission for Renewable Energy Applications

Citationsformater