Artificial intelligence and data mining are being used to measure aerodynamic flows

Artificial intelligence and data mining are being used to measure aerodynamic flows
Wind tunnel experiment using particle image velocimetry technique. Credit: UC3M

Developing new ways to measure turbulent flows that are more efficient and reliable is the main objective of the NEXTFLOW research project at the Universidad Carlos III de Madrid (UC3M), funded by an ERC Starting Grant from the European Union. These techniques, which use new developments in artificial intelligence and data mining, can be used to improve the aerodynamics of means of transport and reduce their environmental impact.

One of the current challenges that aerodynamics faces is improving techniques for characterizing and controlling the behavior of turbulent flows (the that occurs around an airplane wing, for example). "They are chaotic, with complex dynamics which makes it difficult to understand their behavior completely using the techniques currently available to us," explains the NEXTFLOW project coordinator, Stefano Discetti, from the UC3M's Department of Bioengineering and Aerospace Engineering.

Optimizing strategies to measure turbulent flows is a key element in today's industry due to the critical role that turbulence plays in many industrial applications. In this regard, obtaining more precise information about its dynamics would allow us to use it in real-life contexts, such as in the transport sector. Turbulent flows affect the forces opposing the movement of all types of vehicles, for example, such as cars, airplanes or ships, so understanding them better can help improve their performance and reduce their impact on the environment, the researchers note.

Credit: Carlos III University of Madrid

For the time being, techniques for measuring in experiments only provide "a partial description of their velocity, temperature, or pressure," states Stefano Discetti. This new ERC project's objective is to use and techniques to develop a new generation of measuring tools so that a more complete description of their dynamic behavior can be obtained, and then having more information on how to control them.

One of the methods being used is volumetric particle image velocimetry, which makes it possible to obtain a 3D reconstruction of the movement of a fluid following the motion of particles, made visible by a laser light. Within the framework of this research, scientists hope to use data provided by high sampling-frequency point probes to complement the 3D description with dynamics in time. In addition to this, algorithms based on artificial intelligence will be developed to improve the accuracy of particle image velocimetry technique. In a recent work published by these UC3M researchers in the Experimental Thermal and Fluid Science journal, they presented a novel approach based on data mining to achieve this goal.

High-precision and time-resolved measurements will be used to obtain pressure fields by applying fundamental fluid mechanics equations. With this, they hope to define compact models that can be used to describe the behavior of flows accurately and develop control logics. "These results could provide new tools which have the potential to bridge the gap between laboratory experiments and characterisation and control of flows in real-life applications, which could lead to an improvement in processes and reduce the environmental impact of different industry sectors, especially the aeronautical industry," notes Stefano Discetti.

More information: Cortina-Fernández, J., Sanmiguel Vila, C., Ianiro, A., & Discetti, S. (2021). From sparse data to high-resolution fields: ensemble particle modes as a basis for high-resolution flow characterization. Experimental Thermal and Fluid Science, 120, 110178.

Citation: Artificial intelligence and data mining are being used to measure aerodynamic flows (2021, June 7) retrieved 10 December 2022 from
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