A method based on low dissipation Roe Scheme and RANS equations for predicting BVI noise of helicopter rotor in forward flight

Futian Xie; Wenping Song; Zhonghua Han

A method based on low dissipation Roe Scheme and RANS equations for predicting BVI noise of helicopter rotor in forward flight

Futian Xie, Wenping Song, Zhonghua Han

School of Aeronautics

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

Aim: Same as Ref. 1, a previous paper by NWPU authors, we employ RANS (Reynolds averaged Navier Stokes) equations. Different from Ref. 1, we employ the low dissipation Roe scheme. Section 2 of the full paper discusses how to select the grid so as to improve numerical calculations. Section 3 gives eqs. (2) through (5) to calculate the rotor flow field, including what is needed for predicting BVI (blade vortex interaction) aeroacoustic noise in forward flight. Section 4 gives eq. (6) and discusses the calculation of aeroacoustic noise. Section 5 gives a numerical example, whose results are given in Figs. 4 through 8. These results show preliminarily that this paper's use of low dissipation Roe scheme helps to improve the prediction precision of BVI aeroacoustic noise of helicopter rotor in forward flight.

Original language	English
Pages (from-to)	151-156
Number of pages	6
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	27
Issue number	2
State	Published - Apr 2009

Keywords

Aeroacoustic noise
Helicopter rotors
Navier Stokes equations
Roe Scheme

Cite this

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title = "A method based on low dissipation Roe Scheme and RANS equations for predicting BVI noise of helicopter rotor in forward flight",

abstract = "Aim: Same as Ref. 1, a previous paper by NWPU authors, we employ RANS (Reynolds averaged Navier Stokes) equations. Different from Ref. 1, we employ the low dissipation Roe scheme. Section 2 of the full paper discusses how to select the grid so as to improve numerical calculations. Section 3 gives eqs. (2) through (5) to calculate the rotor flow field, including what is needed for predicting BVI (blade vortex interaction) aeroacoustic noise in forward flight. Section 4 gives eq. (6) and discusses the calculation of aeroacoustic noise. Section 5 gives a numerical example, whose results are given in Figs. 4 through 8. These results show preliminarily that this paper's use of low dissipation Roe scheme helps to improve the prediction precision of BVI aeroacoustic noise of helicopter rotor in forward flight.",

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author = "Futian Xie and Wenping Song and Zhonghua Han",

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T1 - A method based on low dissipation Roe Scheme and RANS equations for predicting BVI noise of helicopter rotor in forward flight

AU - Xie, Futian

AU - Song, Wenping

AU - Han, Zhonghua

PY - 2009/4

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N2 - Aim: Same as Ref. 1, a previous paper by NWPU authors, we employ RANS (Reynolds averaged Navier Stokes) equations. Different from Ref. 1, we employ the low dissipation Roe scheme. Section 2 of the full paper discusses how to select the grid so as to improve numerical calculations. Section 3 gives eqs. (2) through (5) to calculate the rotor flow field, including what is needed for predicting BVI (blade vortex interaction) aeroacoustic noise in forward flight. Section 4 gives eq. (6) and discusses the calculation of aeroacoustic noise. Section 5 gives a numerical example, whose results are given in Figs. 4 through 8. These results show preliminarily that this paper's use of low dissipation Roe scheme helps to improve the prediction precision of BVI aeroacoustic noise of helicopter rotor in forward flight.

AB - Aim: Same as Ref. 1, a previous paper by NWPU authors, we employ RANS (Reynolds averaged Navier Stokes) equations. Different from Ref. 1, we employ the low dissipation Roe scheme. Section 2 of the full paper discusses how to select the grid so as to improve numerical calculations. Section 3 gives eqs. (2) through (5) to calculate the rotor flow field, including what is needed for predicting BVI (blade vortex interaction) aeroacoustic noise in forward flight. Section 4 gives eq. (6) and discusses the calculation of aeroacoustic noise. Section 5 gives a numerical example, whose results are given in Figs. 4 through 8. These results show preliminarily that this paper's use of low dissipation Roe scheme helps to improve the prediction precision of BVI aeroacoustic noise of helicopter rotor in forward flight.

KW - Aeroacoustic noise

KW - Helicopter rotors

KW - Navier Stokes equations

KW - Roe Scheme

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A method based on low dissipation Roe Scheme and RANS equations for predicting BVI noise of helicopter rotor in forward flight

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