Gulder-UToronto-CombustionThermochemistry.pdf
... • Extensive Properties: depends on amount of substance considered. Usually denoted by capital letters. Examples are: V for volume, U for total internal energy, H for total enthalpy. • Intensive Properties: expressed per unit amount of substance (mass or mole). Its numerical value is independent of t ...
... • Extensive Properties: depends on amount of substance considered. Usually denoted by capital letters. Examples are: V for volume, U for total internal energy, H for total enthalpy. • Intensive Properties: expressed per unit amount of substance (mass or mole). Its numerical value is independent of t ...
Turbulent and neoclassical toroidal momentum transport in tokamak
... to the low collisionality of the plasma, kinetic modeling is mandatory for the study of tokamak turbulence. In principle, this implies the modeling of a six-dimensional distribution function representing the density of particles in position and velocity phase-space, which can be reduced to five dime ...
... to the low collisionality of the plasma, kinetic modeling is mandatory for the study of tokamak turbulence. In principle, this implies the modeling of a six-dimensional distribution function representing the density of particles in position and velocity phase-space, which can be reduced to five dime ...