Resonant vibrations of a cylindrical wall of a discharge chamber, induced by an electrical discharge in water

The influence of resonant modes of interaction of the vapor-gas cavity and the discharge chamber wall on energy exchange between them is studied. Mathematical modeling of electrodynamic, hydrodynamic, and elastoplastic wave processes in the discharge chamber is performed in a coupled, geometrically and physically nonlinear formulation. The dependence of the amount of energy transferred from the capacitor to the liquid and solid through their contact boundary on dynamic system parameters is determined.