MARIE SKŁODOWSKA-CURIE ACTIONS

Stability and Sensitivity Methods for Flow Control and Industrial Design

Innovative Training Networks (ITN) Call: H2020-MSCA-ITN-2020

Challenges

SSeCoID aims to understand complex mathematical configurations underlying the physics of stable design of the aircrafts. To do that, the project will perform experiments grouped into four practical test cases:

SSECOID Stability and Sensitivity Methods for Flow Control and Industrial Design

TC1

Full formula 1 configuration with detailed analysis of the front wing.

SSECOID Stability and Sensitivity Methods for Flow Control and Industrial Design

TC2

Isolated supersonic turbine. Steady/unsteady state, high compressibility, structural vibrations of airfoils near stall angle of attack.

SSECOID Stability and Sensitivity Methods for Flow Control and Industrial Design

TC3

Shape optimization of an inkjet printhead with acoustic feedback.

SSECOID Stability and Sensitivity Methods for Flow Control and Industrial Design

TC4

Turbulent transition under roughness surface elements. Effect of 3D surface perturbation in the transition to turbulence at high and low speeds.

SSECOID Stability and Sensitivity Methods for Flow Control and Industrial Design

TC5

Analysing aerodynamically and acoustically induced vibrations in the wake of a bluff body, including final acoustic radiation.

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