International audienceWe introduce continuous tools to study the low Mach number behaviour of the Godunov scheme applied to the linear wave equation with porosity on cartesian meshes. More precisely, we extend the Hodge decomposition to a weighted L 2 space in the continuous case and we study the properties of the modified equation associated to this Godunov scheme. This allows to partly explain the inaccuracy of the Godunov scheme at low Mach number on cartesian meshes and to propose two corrections: a first one named low Mach and a second one named all Mach. These results are preliminary since it remains to prove them in the discrete case
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...
Classical finite volume schemes for the Euler system are not accurate at low Mach number and some fi...
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
International audienceWe study the low Mach number behavior of the Godunov finite volume scheme appl...
International audienceWe propose a method to explain the behavior of the Godunov finite volume schem...
International audienceThis article is composed of three self-consistent chapters that can be read in...
International audienceThis article is composed of three self-consistent chapters that can be read in...
International audienceThis article deals with acoustic computations in low Mach number flows with de...
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...
Classical finite volume schemes for the Euler system are not accurate at low Mach number and some fi...
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
International audienceWe introduce continuous tools to study the low Mach number behaviour of the Go...
We introduce continuous tools to study the low Mach number behavior of the Godunov scheme ...
International audienceWe study the low Mach number behavior of the Godunov finite volume scheme appl...
International audienceWe propose a method to explain the behavior of the Godunov finite volume schem...
International audienceThis article is composed of three self-consistent chapters that can be read in...
International audienceThis article is composed of three self-consistent chapters that can be read in...
International audienceThis article deals with acoustic computations in low Mach number flows with de...
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...
Classical finite volume schemes for the Euler system are not accurate at low Mach number and some fi...
International audienceClassical finite volume schemes for the Euler system are not accurate at low M...