Supercomputer used to simulate winds that cause clear air turbulence
Date:
July 12, 2023
Source:
Nagoya University
Summary:
Using Japan's most powerful supercomputer, researchers reproduced
cases of clear air turbulence around Tokyo. They simulated the fine
vortices responsible for this dangerous phenomenon. The usefulness
of the simulation in predicting turbulence was confirmed by
comparing simulation data with data from aircraft recordings. This
research should improve the forecasting of turbulence.
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FULL STORY ==========================================================================
A research group from Nagoya University has accurately simulated air
turbulence occurring on clear days around Tokyo using Japan's fastest supercomputer. They then compared their findings with flight data to
create a more accurate predictive model. The research was reported in
the journal Geophysical Research Letters.
Although air turbulence is usually associated with bad weather,
an airplane cabin can shake violently even on a sunny and cloudless
day. Known as clear air turbulence (CAT), these turbulent air movements
can occur in the absence of any visible clouds or other atmospheric disturbances. Although the exact mechanisms that cause CAT are not
fully understood, it is believed to be primarily driven by wind shear
and atmospheric instability.
CAT poses a high risk to aviation safety. The sudden turbulence on
an otherwise calm day can lead to passenger and crew member injuries,
aircraft damage, and disruptions to flight operations. Pilots rely on
reports from other aircraft, weather radar, and atmospheric models to anticipate and avoid areas of potential turbulence. However, since CAT
shows no visible indicators, such as clouds or storms, it is particularly challenging to detect and forecast.
As winds swirl and circulate creating sudden changes in airflow,
eddies are created that can shake an aircraft. Therefore, to better
understand CAT, scientists model it using large-eddy simulation
(LES), a computational fluid dynamics technique used to simulate these turbulent flows. However, despite its importance to research on air
turbulence, one of the greatest challenges of LES is the computational
cost. Simulating the complex interactions involved in LES requires high
levels of computing power.
To elaborately simulate the process of turbulence generation using
high- resolution LES, the research group from Nagoya University
turned to an exascale computer called the Fugaku supercomputer. It is
a high-performance computing system, currently ranked as the world's
second fastest supercomputer.
Using Fugaku's immense computational power, Dr. Ryoichi Yoshimura of
Nagoya University in collaboration with Dr. Junshi Ito and others at
Tohoku University, performed an ultra-high-resolution simulation of the
CAT above Tokyo's Haneda airport in winter caused by low pressure and
a nearby mountain range.
They found that the wind speed disturbance was caused by the collapse of
the Kelvin-Helmholtz instability wave, a specific type of instability
that occurs the interface between two layers of air with different
velocities. As one layer has higher velocity than the other, it creates
a wave-like effect as it pulls at the lower velocity layer. As the
atmospheric waves grow from the west and collapse in the east, this
phenomenon creates several fine vortices, creating turbulence.
After making their computations, the group needed to confirm whether
their simulated vortices were consistent with real-world data. "Around
Tokyo, there is a lot of observational data available to validate our
results," said Yoshimura. "There are many airplanes flying over the
airports, which results in many reports of turbulence and the intensity
of shaking. Atmospheric observations by a balloon near Tokyo were also
used. The shaking data recorded at that time was used to show that the calculations were valid." "The results of this research should lead
to a deeper understanding of the principle and mechanism of turbulence generation by high-resolution simulation and allow us to investigate the effects of turbulence on airplanes in more detail," said Yoshimura. "Since significant turbulence has been shown to occur in the limited 3D region, routing without flying in the region is possible by adjusting flight
levels if the presence of active turbulence is known in advance. LES
would provide a smart way of flying by providing more accurate turbulence forecasts and real-time prediction."
* RELATED_TOPICS
o Matter_&_Energy
# Wind_Energy # Aviation # Aerospace
o Earth_&_Climate
# Atmosphere # Weather # Air_Quality
o Computers_&_Math
# Computer_Modeling # Distributed_Computing #
Computers_and_Internet
* RELATED_TERMS
o Supercomputer o Scientific_visualization o Turbulence o
Data_mining o Aircraft o Atmospheric_dispersion_modeling o
Firestorm o Computer_simulation
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========================================================================== Journal Reference:
1. R. Yoshimura, J. Ito, P. A. Schittenhelm, K. Suzuki, A. Yakeno, S.
Obayashi. Clear Air Turbulence Resolved by Numerical Weather
Prediction Model Validated by Onboard and Virtual Flight
Data. Geophysical Research Letters, 2023; 50 (12) DOI:
10.1029/2022GL101286 ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2023/07/230712011556.htm
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