Numerical simulation of the aerodynamic characteristics of a fixed wing with trailing edge rotating slotted cylinder

Zhi Chun Yang; Hui Xue Dang; Yong Jun Sun; Hao Sun

Numerical simulation of the aerodynamic characteristics of a fixed wing with trailing edge rotating slotted cylinder

Zhi Chun Yang, Hui Xue Dang, Yong Jun Sun, Hao Sun

School of Aeronautics

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

4 Scopus citations

Abstract

A new type of flutter exciter is simplified as a two dimensional lifting surface with a slotted rotating cylinder at its trailing edge. The excitation characteristics are studied by examining its static and dynamic aerodynamic characteristics using CFD approach. The lifts of the airfoil which vary with the variation of rotating phase angles of the cylinder are calculated at different angles of attack and airflow velocities. The abrupt change of lift under static conditions at phase angle of 45°±3° and 135°±3° is also examined and explained. It is found that the amplitude of the lift decreases monotonically with the distance between the trailing edge of the airfoil and the leading edge of the cylinder increasing. The numerical simulation results for the unsteady aerodynamics demonstrate that it can generate a sine wave exciting force when the cylinder is rotating at a constant rate.

Original language	English
Pages (from-to)	222-227
Number of pages	6
Journal	Gongcheng Lixue/Engineering Mechanics
Volume	26
Issue number	11
State	Published - Nov 2009

Keywords

Abrupt lift drop
Ejector
Excitation characteristics
Flutter exciter
Numerical simulation

Cite this

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title = "Numerical simulation of the aerodynamic characteristics of a fixed wing with trailing edge rotating slotted cylinder",

abstract = "A new type of flutter exciter is simplified as a two dimensional lifting surface with a slotted rotating cylinder at its trailing edge. The excitation characteristics are studied by examining its static and dynamic aerodynamic characteristics using CFD approach. The lifts of the airfoil which vary with the variation of rotating phase angles of the cylinder are calculated at different angles of attack and airflow velocities. The abrupt change of lift under static conditions at phase angle of 45°±3° and 135°±3° is also examined and explained. It is found that the amplitude of the lift decreases monotonically with the distance between the trailing edge of the airfoil and the leading edge of the cylinder increasing. The numerical simulation results for the unsteady aerodynamics demonstrate that it can generate a sine wave exciting force when the cylinder is rotating at a constant rate.",

keywords = "Abrupt lift drop, Ejector, Excitation characteristics, Flutter exciter, Numerical simulation",

author = "Yang, {Zhi Chun} and Dang, {Hui Xue} and Sun, {Yong Jun} and Hao Sun",

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language = "英语",

volume = "26",

pages = "222--227",

journal = "Gongcheng Lixue/Engineering Mechanics",

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publisher = "Tsinghua University",

number = "11",

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TY - JOUR

T1 - Numerical simulation of the aerodynamic characteristics of a fixed wing with trailing edge rotating slotted cylinder

AU - Yang, Zhi Chun

AU - Dang, Hui Xue

AU - Sun, Yong Jun

AU - Sun, Hao

PY - 2009/11

Y1 - 2009/11

N2 - A new type of flutter exciter is simplified as a two dimensional lifting surface with a slotted rotating cylinder at its trailing edge. The excitation characteristics are studied by examining its static and dynamic aerodynamic characteristics using CFD approach. The lifts of the airfoil which vary with the variation of rotating phase angles of the cylinder are calculated at different angles of attack and airflow velocities. The abrupt change of lift under static conditions at phase angle of 45°±3° and 135°±3° is also examined and explained. It is found that the amplitude of the lift decreases monotonically with the distance between the trailing edge of the airfoil and the leading edge of the cylinder increasing. The numerical simulation results for the unsteady aerodynamics demonstrate that it can generate a sine wave exciting force when the cylinder is rotating at a constant rate.

AB - A new type of flutter exciter is simplified as a two dimensional lifting surface with a slotted rotating cylinder at its trailing edge. The excitation characteristics are studied by examining its static and dynamic aerodynamic characteristics using CFD approach. The lifts of the airfoil which vary with the variation of rotating phase angles of the cylinder are calculated at different angles of attack and airflow velocities. The abrupt change of lift under static conditions at phase angle of 45°±3° and 135°±3° is also examined and explained. It is found that the amplitude of the lift decreases monotonically with the distance between the trailing edge of the airfoil and the leading edge of the cylinder increasing. The numerical simulation results for the unsteady aerodynamics demonstrate that it can generate a sine wave exciting force when the cylinder is rotating at a constant rate.

KW - Abrupt lift drop

KW - Ejector

KW - Excitation characteristics

KW - Flutter exciter

KW - Numerical simulation

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M3 - 文章

AN - SCOPUS:71949094171

SN - 1000-4750

VL - 26

SP - 222

EP - 227

JO - Gongcheng Lixue/Engineering Mechanics

JF - Gongcheng Lixue/Engineering Mechanics

IS - 11

ER -

Numerical simulation of the aerodynamic characteristics of a fixed wing with trailing edge rotating slotted cylinder

Abstract

Keywords

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