Investigation of detailed flow in a variable turbine nozzle

Yixiong Liu; Dazhong Lao; Ce Yang

doi:10.1515/tjj-2015-0034

Investigation of detailed flow in a variable turbine nozzle

Yixiong Liu, Dazhong Lao, Ce Yang^*

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The detailed flow behavior of the nozzle channel of a variable turbine is presented in this paper. The numerical model of a variable nozzle turbine was developed by using computational fluid dynamics method, and validated by the measured performance data of the turbine. Two opening positions of the nozzle vane, as well as two inlet conditions of the nozzle representing different vane loadings, were investigated to evaluate the clearance flow behaviors. It is shown that the channel shock waves are produced at proper conditions, such as small opening and large inlet pressure, which has significant impact on the end wall clearance leakage flow. When the leakage flows through the end wall clearance from the pressure side to the suction side encountering by the main stream, and the leakage vortex is formed. It is found that this leakage vortex gradually enhanced from the trailing edge to the middle edge.

Original language	English
Journal	International Journal of Turbo and Jet Engines
Volume	2015
DOIs	https://doi.org/10.1515/tjj-2015-0034
Publication status	Published - 2015

Keywords

Clearance leakage flow
Opening
Unsteady flow
Variable turbine nozzle

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10.1515/tjj-2015-0034

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title = "Investigation of detailed flow in a variable turbine nozzle",

abstract = "The detailed flow behavior of the nozzle channel of a variable turbine is presented in this paper. The numerical model of a variable nozzle turbine was developed by using computational fluid dynamics method, and validated by the measured performance data of the turbine. Two opening positions of the nozzle vane, as well as two inlet conditions of the nozzle representing different vane loadings, were investigated to evaluate the clearance flow behaviors. It is shown that the channel shock waves are produced at proper conditions, such as small opening and large inlet pressure, which has significant impact on the end wall clearance leakage flow. When the leakage flows through the end wall clearance from the pressure side to the suction side encountering by the main stream, and the leakage vortex is formed. It is found that this leakage vortex gradually enhanced from the trailing edge to the middle edge.",

keywords = "Clearance leakage flow, Opening, Unsteady flow, Variable turbine nozzle",

author = "Yixiong Liu and Dazhong Lao and Ce Yang",

year = "2015",

doi = "10.1515/tjj-2015-0034",

language = "English",

volume = "2015",

journal = "International Journal of Turbo and Jet Engines",

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T1 - Investigation of detailed flow in a variable turbine nozzle

AU - Liu, Yixiong

AU - Lao, Dazhong

AU - Yang, Ce

PY - 2015

Y1 - 2015

N2 - The detailed flow behavior of the nozzle channel of a variable turbine is presented in this paper. The numerical model of a variable nozzle turbine was developed by using computational fluid dynamics method, and validated by the measured performance data of the turbine. Two opening positions of the nozzle vane, as well as two inlet conditions of the nozzle representing different vane loadings, were investigated to evaluate the clearance flow behaviors. It is shown that the channel shock waves are produced at proper conditions, such as small opening and large inlet pressure, which has significant impact on the end wall clearance leakage flow. When the leakage flows through the end wall clearance from the pressure side to the suction side encountering by the main stream, and the leakage vortex is formed. It is found that this leakage vortex gradually enhanced from the trailing edge to the middle edge.

AB - The detailed flow behavior of the nozzle channel of a variable turbine is presented in this paper. The numerical model of a variable nozzle turbine was developed by using computational fluid dynamics method, and validated by the measured performance data of the turbine. Two opening positions of the nozzle vane, as well as two inlet conditions of the nozzle representing different vane loadings, were investigated to evaluate the clearance flow behaviors. It is shown that the channel shock waves are produced at proper conditions, such as small opening and large inlet pressure, which has significant impact on the end wall clearance leakage flow. When the leakage flows through the end wall clearance from the pressure side to the suction side encountering by the main stream, and the leakage vortex is formed. It is found that this leakage vortex gradually enhanced from the trailing edge to the middle edge.

KW - Clearance leakage flow

KW - Opening

KW - Unsteady flow

KW - Variable turbine nozzle

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DO - 10.1515/tjj-2015-0034

M3 - Article

AN - SCOPUS:84988826001

SN - 0334-0082

VL - 2015

JO - International Journal of Turbo and Jet Engines

JF - International Journal of Turbo and Jet Engines

ER -

Investigation of detailed flow in a variable turbine nozzle

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Keywords

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