Noise Evaluation Technique Based on Surface Pressure

Publication: ResearchReport chapter – Annual report year: 2012

Standard

Noise Evaluation Technique Based on Surface Pressure. / Fischer, Andreas.

EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark, 2012. p. 36-40 (DTU Wind Energy E; No. 0004).

Publication: ResearchReport chapter – Annual report year: 2012

Harvard

Fischer, A 2012, 'Noise Evaluation Technique Based on Surface Pressure'. in EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark, pp. 36-40. DTU Wind Energy E, no. 0004

APA

Fischer, A. (2012). Noise Evaluation Technique Based on Surface Pressure. In EUDP Project: Low Noise Airfoil - Final Report. (pp. 36-40). Wind Energy Department, Technical University of Denmark. (DTU Wind Energy E; No. 0004).

CBE

Fischer A. 2012. Noise Evaluation Technique Based on Surface Pressure. In EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark. pp. 36-40. (DTU Wind Energy E; No. 0004).

MLA

Fischer, Andreas "Noise Evaluation Technique Based on Surface Pressure". EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark. 2012. 36-40. (DTU Wind Energy E; Journal number 0004).

Vancouver

Fischer A. Noise Evaluation Technique Based on Surface Pressure. In EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark. 2012. p. 36-40. (DTU Wind Energy E; No. 0004).

Author

Fischer, Andreas / Noise Evaluation Technique Based on Surface Pressure.

EUDP Project: Low Noise Airfoil - Final Report. Wind Energy Department, Technical University of Denmark, 2012. p. 36-40 (DTU Wind Energy E; No. 0004).

Publication: ResearchReport chapter – Annual report year: 2012

Bibtex

@inbook{d48a9b6be6794f9f80a6afcca5bffefb,
title = "Noise Evaluation Technique Based on Surface Pressure",
keywords = "DTU-Wind-Energy-E-0004(EN), DTU-Wind-Energy-Report-E-0004",
publisher = "Wind Energy Department, Technical University of Denmark",
author = "Andreas Fischer",
year = "2012",
series = "DTU Wind Energy E",
pages = "36-40",
booktitle = "EUDP Project: Low Noise Airfoil - Final Report",

}

RIS

TY - GEN

T1 - Noise Evaluation Technique Based on Surface Pressure

A1 - Fischer,Andreas

AU - Fischer,Andreas

PB - Wind Energy Department, Technical University of Denmark

PY - 2012

Y1 - 2012

N2 - In this chapter the relevant theory for the understanding of TE noise modeling <br/>is collected. It contains the acoustic formulations of [31] and [57]. Both give a <br/>relation for the far field sound pressure in dependence of the frequency wave <br/>number spectral density of the pressure on the airfoil surface.

AB - In this chapter the relevant theory for the understanding of TE noise modeling <br/>is collected. It contains the acoustic formulations of [31] and [57]. Both give a <br/>relation for the far field sound pressure in dependence of the frequency wave <br/>number spectral density of the pressure on the airfoil surface.

KW - DTU-Wind-Energy-E-0004(EN)

KW - DTU-Wind-Energy-Report-E-0004

BT - EUDP Project: Low Noise Airfoil - Final Report

T2 - EUDP Project: Low Noise Airfoil - Final Report

T3 - DTU Wind Energy E

T3 - en_GB

SP - 36

EP - 40

ER -