Here we study the nonlinear stability of magnetohydrodynamics plane Couette and Hartmann shear flows. We prove that the streamwise perturbations are stable for any Reynolds number. This result is in a contradiction with the numerical solutions of the Euler–Lagrange equations for a maximum energy problem. We solve this contradiction with a conjecture. Then, we rigorous prove that the least stabilizing perturbations, in the energy norm, are the spanwise perturbations and give some critical Reynolds numbers for some selected Prandtl and Hartmann numbers. Similar results have been obtained by Falsaperla et al. (2021) for the classical plane Couette and Poiseuille fluid-dynamics flows.
Nonlinear energy stability of magnetohydrodynamics Couette and Hartmann shear flows: A contradiction and a conjecture
Falsaperla P.;Mulone G.;Perrone C.
2022-01-01
Abstract
Here we study the nonlinear stability of magnetohydrodynamics plane Couette and Hartmann shear flows. We prove that the streamwise perturbations are stable for any Reynolds number. This result is in a contradiction with the numerical solutions of the Euler–Lagrange equations for a maximum energy problem. We solve this contradiction with a conjecture. Then, we rigorous prove that the least stabilizing perturbations, in the energy norm, are the spanwise perturbations and give some critical Reynolds numbers for some selected Prandtl and Hartmann numbers. Similar results have been obtained by Falsaperla et al. (2021) for the classical plane Couette and Poiseuille fluid-dynamics flows.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
