Preface |
Introduction |
Kinetic Equation / 1: |
Distribution function and macroscopic parameters of plasma / 1.1: |
Boltzmann's kinetic equation / 1.2: |
Effective cross sections / 1.3: |
The collision integral for charged particles / 1.4: |
Transport Equations / 2: |
General transport equation / 2.1: |
Conservation equations / 2.2: |
Entropy balance equation / 2.3: |
Multitemperature and multifluid models of plasma / 2.4: |
Nonequilibrium thermodynamics of a multicomponent plasma / 2.5: |
Quasihydrodynamic Approach / 3: |
Average transfer of momentum and energy in collisions / 3.1: |
Generalized Ohm's law for a partially ionized three-component plasma / 3.2: |
The formal solution of the equations of multicomponent diffusion in a plasma / 3.3: |
Generalized Ohm's law for a multicomponent plasma / 3.4: |
Diffusion in a weakly ionized gas / 3.5: |
Transverse transport of particles in a magnetized plasma / 3.6: |
Grad's Method / 4: |
Expansion of the distribution function / 4.1: |
13N-moment approximation / 4.2: |
Linear transport relations / 4.3: |
One-temperature plasma / 4.4: |
Two-temperature plasma / 4.5: |
Higher approximations of the moment method / 4.6: |
Relation to the results of the Chapman--Enskog method / 4.7: |
Transport Phenomena in a Multicomponent Gas Mixture / 5: |
Original system of equations / 5.1: |
Viscous-stress tensor and heat flux / 5.2: |
Diffusion in a multicomponent mixture / 5.3: |
Barodiffusion in a viscous flow / 5.4: |
Entropy production. Generalized nonequilibrium thermodynamics of a gas mixture / 5.5: |
Transport Phenomena in a Multispecies Plasma / 6: |
Multispecies nonisothermal plasma in the magnetic field / 6.1: |
Separation of equations for electrons and heavy particles. Electron transport properties / 6.2: |
Higher approximations / 6.3: |
Two-temperature Partially Ionized Gas / 7: |
Viscous-stress tensor / 7.1: |
Heat flux / 7.2: |
Diffusion fluxes / 7.3: |
Multispecies Fully Ionized Plasma / 8: |
Original equations / 8.1: |
Transport phenomena in a simple plasma / 8.2: |
Transverse transport in a magnetized plasma / 8.3: |
Longitudinal constituents of the friction forces and heat fluxes. Longitudinal viscosity / 8.4: |
Diffusion and heat transfer in toroidal systems in Pfirsch--Schluter regime / 8.5: |
Some Practical Applications / 9: |
Electrical conductivity of the MHD generator plasma / 9.1: |
Separation of the mixture species in a rotating plasma / 9.2: |
Temperature screening of impurities in a fully ionized multispecies plasma / 9.3: |
Radial particle and heat fluxes of the impurities in Pfirsch--Schluter regime / 9.4: |
Transport Phenomena in a Polyatomic Gas Mixture / 10: |
Macroscopic parameters and conservation equations for a polyatomic gas mixture / 10.1: |
Expansion of the distribution function and the transport equations / 10.3: |
Transport and relaxation phenomena in a pure polyatomic gas / 10.4: |
Two-temperature approximation. Relaxation equation of internal energy / 10.5: |
Estimates of contributions of inelastic collisions to kinetic coefficients / 10.6: |
Thermal conductivity of molecular gases / 10.7: |
Transport phenomena in a polyatomic gas mixture / 10.8: |
Energy relaxation and volume viscosity of a mixture / 10.9: |
Appendices |
General system of moment equations / A1: |
Values of partial bracket integrals in terms of integrals [Omega superscript lr subscript alpha beta] / A2: |
Expressions for the elements q[superscript nk] and p[superscript nk] / A3: |
References |
Index |
Preface |
Introduction |
Kinetic Equation / 1: |
Distribution function and macroscopic parameters of plasma / 1.1: |
Boltzmann's kinetic equation / 1.2: |
Effective cross sections / 1.3: |