Noise suppression technology for aircraft jet engines
JAXA Supercomputer System Annual Report February 2021-January 2022
Report Number: R21EA0716
Subject Category: Aeronautical Technology
- Responsible Representative: Tatsuya Ishii, Aeronautical Technology Directorate, Aviation Environmental Sustainability Innovation Hub
- Contact Information: Shunji ENOMOTO(enomoto.shunji@jaxa.jp)
- Members: Shunji Enomoto, Hideshi Oinuma, Kenichiro Nagai, Junichi Oki, Tatsuya Ishii
Abstract
Ultra high bypass ratio aviation jet engines have a smaller sound absorbing liner area than conventional engines. In this project, we will develop sound-absorbing device technology that provides high noise reduction performance even with a small-sized sound-absorbing liner.
Reference URL
N/A
Reasons and benefits of using JAXA Supercomputer System
To perform many LES calculations by changing the shape of the sound absorbing liner and the incident sound frequency, the calculation performance and the storage capacity of JAXA supercomputer system were required.
Achievements of the Year
In this research, numerical simulations of phenomena that occur when sound is incident on a sound-absorbing liner used to reduce noise in aircraft jet engines are being conducted. This year, numerical simulation of the impulse response method was attempted, taking advantage of the fact that the phenomenon is linear when sound pressure is not high. Although this simulation is performed in the time domain, the amplitude and phase of the sound pressure in the frequency domain can be easily obtained as a result. The figure shows a moving image of how the amplitude (Figure 1) and phase (Figure 2) of the sound field changes with the frequency of the incident sound when a plane wave sound is incident from left to right with no flow in a flow duct with a single hole sound absorbing liner. This analysis method facilitates understanding of the acoustic phenomena occurring in sound-absorbing liners.
Fig.1(video): Amplitude of sound when a plane wave sound is incident on the sound absorbing liner from right to left.
Fig.2(video): Phase of sound
Publications
– Non peer-reviewed papers
Shunji Enomoto, Hideshi Oinuma, Kenichiro Nagai, Junichi Oki, Tatsuya Ishii, Evaluation of Sound Absorption Coefficient Using Impulse Response Method in Numerical Analysis of Sound Absorbing Liners, FDC/ANSS 2022
Usage of JSS
Computational Information
- Process Parallelization Methods: MPI
- Thread Parallelization Methods: OpenMP
- Number of Processes: 4 – 160
- Elapsed Time per Case: 300 Hour(s)
JSS3 Resources Used
Fraction of Usage in Total Resources*1(%): 0.56
Details
Please refer to System Configuration of JSS3 for the system configuration and major specifications of JSS3.
System Name | CPU Resources Used(Core x Hours) | Fraction of Usage*2(%) |
---|---|---|
TOKI-SORA | 13229403.23 | 0.64 |
TOKI-ST | 786.08 | 0.00 |
TOKI-GP | 0.00 | 0.00 |
TOKI-XM | 0.00 | 0.00 |
TOKI-LM | 0.00 | 0.00 |
TOKI-TST | 0.00 | 0.00 |
TOKI-TGP | 0.00 | 0.00 |
TOKI-TLM | 0.00 | 0.00 |
File System Name | Storage Assigned(GiB) | Fraction of Usage*2(%) |
---|---|---|
/home | 17.03 | 0.02 |
/data and /data2 | 3816.60 | 0.04 |
/ssd | 764.73 | 0.20 |
Archiver Name | Storage Used(TiB) | Fraction of Usage*2(%) |
---|---|---|
J-SPACE | 26.93 | 0.18 |
*1: Fraction of Usage in Total Resources: Weighted average of three resource types (Computing, File System, and Archiver).
*2: Fraction of Usage:Percentage of usage relative to each resource used in one year.
ISV Software Licenses Used
ISV Software Licenses Used(Hours) | Fraction of Usage*2(%) | |
---|---|---|
ISV Software Licenses(Total) | 278.63 | 0.20 |
*2: Fraction of Usage:Percentage of usage relative to each resource used in one year.
JAXA Supercomputer System Annual Report February 2021-January 2022