Add to ORKGIn this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions and Cartesian grids, to test the importance of connectivity of the finite volumes. The area of application is nuclear fusion plasma with field line aligned temperature gradients and extreme anisotropy. We apply the scheme to the anisotropic heat-conduction equation, and compare its results with those of existing finite-volume schemes for anisotropic diffusion. Also, we introduce a general model adaptation of the steady diffusion equation for extremely anisotropic diffusion problems with closed field lines.</p
A new finite volume for the discretization of anisotropic diffusion problems on general unstructured...
In this paper, we describe a high-order cell-centered finite volume method for solving anisotropic d...
In fusion plasmas diffusion tensors are extremely anisotropic due to the high temperature and large ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
In this paper, we describe a high-order cell-centered finite volume method for solving anisotropic d...
Strongly anisotropic diffusion equations require special techniques to overcome or reduce the mesh l...
We propose a new second-order finite volume scheme for non-homogeneous and anisotropic diffusion pro...
A new finite volume for the discretization of anisotropic diffusion problems on general unstructured...
In this paper, we describe a high-order cell-centered finite volume method for solving anisotropic d...
In fusion plasmas diffusion tensors are extremely anisotropic due to the high temperature and large ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
In this paper, we apply a special finite-volume scheme, limited to smooth temperature distributions ...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
We present a finite volume based cell-centered method for solving diffusion equations on three-dimen...
In this paper, we describe a high-order cell-centered finite volume method for solving anisotropic d...
Strongly anisotropic diffusion equations require special techniques to overcome or reduce the mesh l...
We propose a new second-order finite volume scheme for non-homogeneous and anisotropic diffusion pro...
A new finite volume for the discretization of anisotropic diffusion problems on general unstructured...
In this paper, we describe a high-order cell-centered finite volume method for solving anisotropic d...
In fusion plasmas diffusion tensors are extremely anisotropic due to the high temperature and large ...