Heat flow in a turbocharger shaft and its impact on the bearing system

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • T. Kleine Sextro
  • N. Lübbert
  • H. Rätz
  • J. R. Seume

Research Organisations

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Details

Original languageEnglish
Title of host publication12th International Conference on Turbochargers and Turbocharging 2016
Pages191-205
Number of pages15
ISBN (electronic)9781510856202
Publication statusPublished - 2016
Event12th International Conference on Turbochargers and Turbocharging 2016 - London, United Kingdom (UK)
Duration: 17 May 201618 May 2016

Publication series

Name12th International Conference on Turbochargers and Turbocharging 2016
Volume2016-May

Abstract

Previous studies have shown that the temperature distribution in a turbocharger shaft and the resulting heat flow have a significant impact on the performance of full floating-ring journal bearings. The object of the present paper is therefore the development of a ID heat flow model of the shaft using boundary temperatures in order to predict the shaft temperature field. This ID heat flow model is developed based on CHT simulations and coupled to a bearing simulation. The results of the ID heat flow model show an improved prediction of the bearing performance validated by its ring speed.

ASJC Scopus subject areas

Cite this

Heat flow in a turbocharger shaft and its impact on the bearing system. / Kleine Sextro, T.; Lübbert, N.; Rätz, H. et al.
12th International Conference on Turbochargers and Turbocharging 2016. 2016. p. 191-205 (12th International Conference on Turbochargers and Turbocharging 2016; Vol. 2016-May).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Kleine Sextro, T, Lübbert, N, Rätz, H & Seume, JR 2016, Heat flow in a turbocharger shaft and its impact on the bearing system. in 12th International Conference on Turbochargers and Turbocharging 2016. 12th International Conference on Turbochargers and Turbocharging 2016, vol. 2016-May, pp. 191-205, 12th International Conference on Turbochargers and Turbocharging 2016, London, United Kingdom (UK), 17 May 2016.
Kleine Sextro, T., Lübbert, N., Rätz, H., & Seume, J. R. (2016). Heat flow in a turbocharger shaft and its impact on the bearing system. In 12th International Conference on Turbochargers and Turbocharging 2016 (pp. 191-205). (12th International Conference on Turbochargers and Turbocharging 2016; Vol. 2016-May).
Kleine Sextro T, Lübbert N, Rätz H, Seume JR. Heat flow in a turbocharger shaft and its impact on the bearing system. In 12th International Conference on Turbochargers and Turbocharging 2016. 2016. p. 191-205. (12th International Conference on Turbochargers and Turbocharging 2016).
Kleine Sextro, T. ; Lübbert, N. ; Rätz, H. et al. / Heat flow in a turbocharger shaft and its impact on the bearing system. 12th International Conference on Turbochargers and Turbocharging 2016. 2016. pp. 191-205 (12th International Conference on Turbochargers and Turbocharging 2016).
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abstract = "Previous studies have shown that the temperature distribution in a turbocharger shaft and the resulting heat flow have a significant impact on the performance of full floating-ring journal bearings. The object of the present paper is therefore the development of a ID heat flow model of the shaft using boundary temperatures in order to predict the shaft temperature field. This ID heat flow model is developed based on CHT simulations and coupled to a bearing simulation. The results of the ID heat flow model show an improved prediction of the bearing performance validated by its ring speed.",
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AB - Previous studies have shown that the temperature distribution in a turbocharger shaft and the resulting heat flow have a significant impact on the performance of full floating-ring journal bearings. The object of the present paper is therefore the development of a ID heat flow model of the shaft using boundary temperatures in order to predict the shaft temperature field. This ID heat flow model is developed based on CHT simulations and coupled to a bearing simulation. The results of the ID heat flow model show an improved prediction of the bearing performance validated by its ring speed.

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