Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise


Paruchuri, Chaitanya, Joseph, Phillip, Narayanan, Subramanyam, Vanderwel, Christina, Turner, Jacob, Mansel, Kim, Jae and Ganapathisubramani, Bharathram (2017) Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise University of Southampton [Dataset]

Download

[img] Plain Text Readme.txt - Text
Available under License Creative Commons Attribution.

Download (1kB)
[img] Archive (ZIP) data_set.zip - Dataset
Available under License Creative Commons Attribution.

Download (45MB)

Description/Abstract

The dataset the results of a detailed experimental investigation into the effectiveness of sinusoidal leading edge serrations on aerofoils for the reduction of the noise generated by the interaction with turbulent flow.The data underpins the paper P. Chaitanya?, P. Joseph, S. Narayanan?, C. Vanderwel, J. Turner, J. W. Kim, and B. Ganapathisubramani (2017), 'Performance and mechanism of sinusoidal leading edge serrations for the reduction of turbulence-aerofoil interaction noise', accepted in the Journal of Fluid Mechanics.

Item Type: Dataset
Related URLs:
Organisations: Acoustics Group, Southampton Marine & Maritime Institute, Aerodynamics & Flight Mechanics Group, Electronics & Computer Science, Education Hub
ePrint ID: 405263
Date :
Date Event
2017Published
Date Deposited: 10 Feb 2017 13:19
Last Modified: 11 Jun 2017 16:34
Projects:
Spectral Leading Edge Serrations for the Reduction of Aerofoil-Turbulence Interaction Noise
Funded by: UNSPECIFIED (EP/J007633/1)
29 June 2012 to 28 December 2014
Further Information:Google Scholar
URI: http://eprints.soton.ac.uk/id/eprint/405263

Actions (login required)

View Item View Item

Available Files

Visible to: Anyone
Content: Text
Description: UNSPECIFIED
Mime-Type: text/plain
UNSPECIFIED: 1kB
Visible to: Anyone
Content: Dataset
Description: UNSPECIFIED
Mime-Type: application/zip
UNSPECIFIED: 45MB