Effects of Periodic Wakes on Unsteady Aerodynamic Performance of High-Lift Low-Pressure Turbine Cascade

Xiao Qu; Yan Feng Zhang; Xin Gen Lu; Jun Qiang Zhu

Effects of Periodic Wakes on Unsteady Aerodynamic Performance of High-Lift Low-Pressure Turbine Cascade

Xiao Qu, Yan Feng Zhang, Xin Gen Lu, Jun Qiang Zhu

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

Abstract

At low Reynolds number, incoming wakes were produced through moving rods upstream of the cascade. The effects of upstream wakes on endwall secondary flow and profile losses within the high-lift LPT cascade were researched by experiment, and the interaction mechanisms between the upstream wakes and secondary flow were studied by numerical simulation. Upstream wakes can significantly suppress endwall secondary vortical structures. The interaction between vorticity of the wakes and the passage vortex decrease the time-averaged result of the secondary vortex in an upstream wake-passing period. Additionally, upstream wakes have both positive and negative effects on the flow of LPT. The periodic wakes can decrease the size of the separation bubble, but increasing mixing losses. If appropriate wakes passing frequency was chose, aerodynamic performance of turbine cascade can be improved more.

Original language	English
Pages (from-to)	2004-2011
Number of pages	8
Journal	Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics
Volume	40
Issue number	9
Publication status	Published - 1 Sept 2019
Externally published	Yes

Keywords

Experimental investigation
High-lift Low-pressure turbine
Low Reynolds number
Periodic wake
Secondary flow

Cite this

@article{0295fc686f90493c8c72fed1a64a4aa6,

title = "Effects of Periodic Wakes on Unsteady Aerodynamic Performance of High-Lift Low-Pressure Turbine Cascade",

abstract = "At low Reynolds number, incoming wakes were produced through moving rods upstream of the cascade. The effects of upstream wakes on endwall secondary flow and profile losses within the high-lift LPT cascade were researched by experiment, and the interaction mechanisms between the upstream wakes and secondary flow were studied by numerical simulation. Upstream wakes can significantly suppress endwall secondary vortical structures. The interaction between vorticity of the wakes and the passage vortex decrease the time-averaged result of the secondary vortex in an upstream wake-passing period. Additionally, upstream wakes have both positive and negative effects on the flow of LPT. The periodic wakes can decrease the size of the separation bubble, but increasing mixing losses. If appropriate wakes passing frequency was chose, aerodynamic performance of turbine cascade can be improved more.",

keywords = "Experimental investigation, High-lift Low-pressure turbine, Low Reynolds number, Periodic wake, Secondary flow",

author = "Xiao Qu and Zhang, {Yan Feng} and Lu, {Xin Gen} and Zhu, {Jun Qiang}",

year = "2019",

month = sep,

day = "1",

language = "English",

volume = "40",

pages = "2004--2011",

journal = "Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics",

issn = "0253-231X",

publisher = "Science China Press",

number = "9",

}

TY - JOUR

T1 - Effects of Periodic Wakes on Unsteady Aerodynamic Performance of High-Lift Low-Pressure Turbine Cascade

AU - Qu, Xiao

AU - Zhang, Yan Feng

AU - Lu, Xin Gen

AU - Zhu, Jun Qiang

PY - 2019/9/1

Y1 - 2019/9/1

N2 - At low Reynolds number, incoming wakes were produced through moving rods upstream of the cascade. The effects of upstream wakes on endwall secondary flow and profile losses within the high-lift LPT cascade were researched by experiment, and the interaction mechanisms between the upstream wakes and secondary flow were studied by numerical simulation. Upstream wakes can significantly suppress endwall secondary vortical structures. The interaction between vorticity of the wakes and the passage vortex decrease the time-averaged result of the secondary vortex in an upstream wake-passing period. Additionally, upstream wakes have both positive and negative effects on the flow of LPT. The periodic wakes can decrease the size of the separation bubble, but increasing mixing losses. If appropriate wakes passing frequency was chose, aerodynamic performance of turbine cascade can be improved more.

AB - At low Reynolds number, incoming wakes were produced through moving rods upstream of the cascade. The effects of upstream wakes on endwall secondary flow and profile losses within the high-lift LPT cascade were researched by experiment, and the interaction mechanisms between the upstream wakes and secondary flow were studied by numerical simulation. Upstream wakes can significantly suppress endwall secondary vortical structures. The interaction between vorticity of the wakes and the passage vortex decrease the time-averaged result of the secondary vortex in an upstream wake-passing period. Additionally, upstream wakes have both positive and negative effects on the flow of LPT. The periodic wakes can decrease the size of the separation bubble, but increasing mixing losses. If appropriate wakes passing frequency was chose, aerodynamic performance of turbine cascade can be improved more.

KW - Experimental investigation

KW - High-lift Low-pressure turbine

KW - Low Reynolds number

KW - Periodic wake

KW - Secondary flow

UR - http://www.scopus.com/inward/record.url?scp=85074846304&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:85074846304

SN - 0253-231X

VL - 40

SP - 2004

EP - 2011

JO - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

JF - Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics

IS - 9

ER -

Effects of Periodic Wakes on Unsteady Aerodynamic Performance of High-Lift Low-Pressure Turbine Cascade

Abstract

Keywords

Other files and links

Fingerprint

Cite this