Applicability of blended blade and endwall under different operating conditions

Yong Tian; Lu Cheng Ji; Wei Wei Li; Wei Lin Yi; Yun Han Xiao

Applicability of blended blade and endwall under different operating conditions

Yong Tian^*, Lu Cheng Ji, Wei Wei Li, Wei Lin Yi, Yun Han Xiao

^*Corresponding author for this work

School of Mechanical Engineering

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

7 Citations (Scopus)

Abstract

To continue the previous work, NASA rotor 67 redesigned with blended blade and endwall (BBEW) was further studied and focused on assessing the influences of three different rotating speeds, i. e. 100%, 90% and 80% of full speed, at two different Reynolds numbers, under ground condition and 10000-meter high altitude condition. Numerical tests show that under almost all the operating conditions in relation to original model, BBEW model can improve performance such as total pressure ratio and isentropic efficiency, particularly under conditions of low rotating speeds and low Reynolds numbers, with the efficiency up by 0.6% to 0.8%. This indicates that BBEW has broad applications under operating conditions, serving as another important aspect of full 3-D blade in addition to sweep and bow techniques.

Original language	English
Pages (from-to)	1905-1913
Number of pages	9
Journal	Hangkong Dongli Xuebao/Journal of Aerospace Power
Volume	28
Issue number	8
Publication status	Published - Aug 2013

Keywords

Blended blade and endwall(BBEW)
Corner separation
Fillet
Rules of dihedral
Turbomachinery

Cite this

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title = "Applicability of blended blade and endwall under different operating conditions",

abstract = "To continue the previous work, NASA rotor 67 redesigned with blended blade and endwall (BBEW) was further studied and focused on assessing the influences of three different rotating speeds, i. e. 100%, 90% and 80% of full speed, at two different Reynolds numbers, under ground condition and 10000-meter high altitude condition. Numerical tests show that under almost all the operating conditions in relation to original model, BBEW model can improve performance such as total pressure ratio and isentropic efficiency, particularly under conditions of low rotating speeds and low Reynolds numbers, with the efficiency up by 0.6% to 0.8%. This indicates that BBEW has broad applications under operating conditions, serving as another important aspect of full 3-D blade in addition to sweep and bow techniques.",

keywords = "Blended blade and endwall(BBEW), Corner separation, Fillet, Rules of dihedral, Turbomachinery",

author = "Yong Tian and Ji, {Lu Cheng} and Li, {Wei Wei} and Yi, {Wei Lin} and Xiao, {Yun Han}",

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T1 - Applicability of blended blade and endwall under different operating conditions

AU - Tian, Yong

AU - Ji, Lu Cheng

AU - Li, Wei Wei

AU - Yi, Wei Lin

AU - Xiao, Yun Han

PY - 2013/8

Y1 - 2013/8

N2 - To continue the previous work, NASA rotor 67 redesigned with blended blade and endwall (BBEW) was further studied and focused on assessing the influences of three different rotating speeds, i. e. 100%, 90% and 80% of full speed, at two different Reynolds numbers, under ground condition and 10000-meter high altitude condition. Numerical tests show that under almost all the operating conditions in relation to original model, BBEW model can improve performance such as total pressure ratio and isentropic efficiency, particularly under conditions of low rotating speeds and low Reynolds numbers, with the efficiency up by 0.6% to 0.8%. This indicates that BBEW has broad applications under operating conditions, serving as another important aspect of full 3-D blade in addition to sweep and bow techniques.

AB - To continue the previous work, NASA rotor 67 redesigned with blended blade and endwall (BBEW) was further studied and focused on assessing the influences of three different rotating speeds, i. e. 100%, 90% and 80% of full speed, at two different Reynolds numbers, under ground condition and 10000-meter high altitude condition. Numerical tests show that under almost all the operating conditions in relation to original model, BBEW model can improve performance such as total pressure ratio and isentropic efficiency, particularly under conditions of low rotating speeds and low Reynolds numbers, with the efficiency up by 0.6% to 0.8%. This indicates that BBEW has broad applications under operating conditions, serving as another important aspect of full 3-D blade in addition to sweep and bow techniques.

KW - Blended blade and endwall(BBEW)

KW - Corner separation

KW - Fillet

KW - Rules of dihedral

KW - Turbomachinery

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JF - Hangkong Dongli Xuebao/Journal of Aerospace Power

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Applicability of blended blade and endwall under different operating conditions

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