%0 Journal Article %1 meliga2011global %A Meliga, Philippe %A Chomaz, Jean-Marc %D 2011 %J Theoretical and Computational Fluid Dynamics %K %P 179-193 %R 10.1007/s00162-010-0194-6 %T Global modes in a confined impinging jet : application to heat transfer and control %U https://link.springer.com/article/10.1007%2Fs00162-010-0194-6 %V 25 %X We investigate the stability and control of a plane, laminar jet impinging on a flat plate in a channel, a geometry used to cool down a hot wall with a cold air jet in many industrial configurations. The global stability analysis indicates that, even for a strong confinement, the two-dimensional (2-D) steady flow is unstable to three-dimensional (3-D), steady perturbations. In the simplest limit case where dilatation effects are neglected, we show that the development of the instability induces a significant spanwise modulation of the heat flux at the impacted wall. To control the leading global mode, we propose adjoint-based 3-D harmonic and 2-D steady forcing in the bulk or at the wall. We show for instance that the unstable mode is controllable using a spanwise uniform blowing at the upper wall, in a specific domain corresponding to the footprint of the upper recirculating bubble. These techniques are applied to a novel open-loop control, in which we introduce into the flow a small airfoil, modelled by the lift force it exerts on the flow.

@article{meliga2011global, abstract = {We investigate the stability and control of a plane, laminar jet impinging on a flat plate in a channel, a geometry used to cool down a hot wall with a cold air jet in many industrial configurations. The global stability analysis indicates that, even for a strong confinement, the two-dimensional (2-D) steady flow is unstable to three-dimensional (3-D), steady perturbations. In the simplest limit case where dilatation effects are neglected, we show that the development of the instability induces a significant spanwise modulation of the heat flux at the impacted wall. To control the leading global mode, we propose adjoint-based 3-D harmonic and 2-D steady forcing in the bulk or at the wall. We show for instance that the unstable mode is controllable using a spanwise uniform blowing at the upper wall, in a specific domain corresponding to the footprint of the upper recirculating bubble. These techniques are applied to a novel open-loop control, in which we introduce into the flow a small airfoil, modelled by the lift force it exerts on the flow.}, added-at = {2021-09-20T18:57:22.000+0200}, author = {Meliga, Philippe and Chomaz, Jean-Marc}, biburl = {https://www.bibsonomy.org/bibtex/2bf670afae8ffa0373a6233f5bcac34ab/gdmcbain}, doi = {10.1007/s00162-010-0194-6}, interhash = {8d66f4e1fabeb4d66642d33c8acde8f4}, intrahash = {bf670afae8ffa0373a6233f5bcac34ab}, journal = {Theoretical and Computational Fluid Dynamics}, keywords = {}, pages = {179-193}, timestamp = {2021-09-20T18:57:22.000+0200}, title = {Global modes in a confined impinging jet : application to heat transfer and control}, url = {https://link.springer.com/article/10.1007%2Fs00162-010-0194-6}, volume = 25, year = 2011 }