Investigation on heat transfer characteristic and optimization of the cooling air inlet for the twin-web turbine disk

Mengchuang Zhang; Wenxuan Gou; Qin Yao; Lei Li; Zhufeng Yue

doi:10.1088/1742-6596/885/1/012011

Investigation on heat transfer characteristic and optimization of the cooling air inlet for the twin-web turbine disk

Mengchuang Zhang, Wenxuan Gou, Qin Yao, Lei Li, Zhufeng Yue

School of Mechanics,Civil Engineering and Architecture

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Conference article › peer-review

5 Scopus citations

Abstract

With a higher operation temperature, the conventional aero-turbine single web disk (SWD) has reached its limits. The twin-web disk (TWD) has been designed as a breakthrough, which has an expected performance in weight loss, strength and heat transfer efficiency. However, the lack of investigation on the position of the cooling air inlet is slowing down further application of TWD. Therefore, for a further study, inlet position optimization with maximum average Nusselt number is conducted for TWD flow structure study. The average Nusselt number result shows that the TWD has a better performance in heat transfer. All the works, including modeling and analyzing, can be referred for engineering design. And the conclusions obtained in this paper could be valuable for the future improvement of the TWD.

Original language	English
Article number	012011
Journal	Journal of Physics: Conference Series
Volume	885
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/885/1/012011
State	Published - 29 Aug 2017
Event	2017 6th International Conference on Manufacturing Engineering and Process, ICMEP 2017 - Lisbon, Portugal Duration: 27 May 2017 → 29 May 2017

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10.1088/1742-6596/885/1/012011

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title = "Investigation on heat transfer characteristic and optimization of the cooling air inlet for the twin-web turbine disk",

abstract = "With a higher operation temperature, the conventional aero-turbine single web disk (SWD) has reached its limits. The twin-web disk (TWD) has been designed as a breakthrough, which has an expected performance in weight loss, strength and heat transfer efficiency. However, the lack of investigation on the position of the cooling air inlet is slowing down further application of TWD. Therefore, for a further study, inlet position optimization with maximum average Nusselt number is conducted for TWD flow structure study. The average Nusselt number result shows that the TWD has a better performance in heat transfer. All the works, including modeling and analyzing, can be referred for engineering design. And the conclusions obtained in this paper could be valuable for the future improvement of the TWD.",

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AU - Zhang, Mengchuang

AU - Gou, Wenxuan

AU - Yao, Qin

AU - Li, Lei

AU - Yue, Zhufeng

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2017/8/29

Y1 - 2017/8/29

N2 - With a higher operation temperature, the conventional aero-turbine single web disk (SWD) has reached its limits. The twin-web disk (TWD) has been designed as a breakthrough, which has an expected performance in weight loss, strength and heat transfer efficiency. However, the lack of investigation on the position of the cooling air inlet is slowing down further application of TWD. Therefore, for a further study, inlet position optimization with maximum average Nusselt number is conducted for TWD flow structure study. The average Nusselt number result shows that the TWD has a better performance in heat transfer. All the works, including modeling and analyzing, can be referred for engineering design. And the conclusions obtained in this paper could be valuable for the future improvement of the TWD.

AB - With a higher operation temperature, the conventional aero-turbine single web disk (SWD) has reached its limits. The twin-web disk (TWD) has been designed as a breakthrough, which has an expected performance in weight loss, strength and heat transfer efficiency. However, the lack of investigation on the position of the cooling air inlet is slowing down further application of TWD. Therefore, for a further study, inlet position optimization with maximum average Nusselt number is conducted for TWD flow structure study. The average Nusselt number result shows that the TWD has a better performance in heat transfer. All the works, including modeling and analyzing, can be referred for engineering design. And the conclusions obtained in this paper could be valuable for the future improvement of the TWD.

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T2 - 2017 6th International Conference on Manufacturing Engineering and Process, ICMEP 2017

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Investigation on heat transfer characteristic and optimization of the cooling air inlet for the twin-web turbine disk

Abstract

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