Numerical modeling of the dynamics of ionospheric- plasmospheric exchange in calm and disturbed conditions

Based on a non-stationary hydrodynamic model of the ionosphere and plasmasphere, founded on the concept of the global dynamics of the ionospheric plasma as a result of the complex action of chemical kinetic processes, ambipolar plasma diffusion of directed geomagnetic force waves, heat transfer, taking into account the dependence between neutral and charged components, and the interaction of plasma with a neutral wind, variations macroscopic parameters (velocity, temperature and concentrations) of plasma interaction in various heliogeophysical conditions. Characteristics of the near-Earth space plasma are multicomponent, anisotropic, non-linear, a strong change in physical characteristics in terms of volume variables, large time and scale scales of the proposed objects. Computational methods are proposed for solving model constraints, motion and heat balance.