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integer | ndim |
| spatial dimension (3) More...
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integer, save | ncelet = 0 |
| number of extended (real + ghost of the 'halo') cells. See Note 1: ghost cells - (halos) More...
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integer, save | ncel = 0 |
| number of real cells in the mesh More...
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integer, save | nfac = 0 |
| number of internal faces (see Note 2: internal faces) More...
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integer, save | nfabor = 0 |
| number of boundary faces (see Note 2: internal faces) More...
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integer, dimension(:,:), pointer | ifacel_0 |
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integer, dimension(:), pointer | ifabor_0 |
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double precision, dimension(:,:), pointer | xyzcen |
| coordinate of the cell centers More...
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double precision, dimension(:,:), pointer | surfac |
| surface vector of the internal faces. Its norm is the surface of the face and it is oriented from ifacel (1,.) to ifacel (2,.) More...
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double precision, dimension(:,:), pointer | surfbo |
| surface vector of the boundary faces. Its norm is the surface of the face and it is oriented outwards More...
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double precision, dimension(:,:), pointer | suffac |
| fluid surface vector of the internal faces. Its norm is the surface of the face and it is oriented from ifacel (1,.) to ifacel (2,.) More...
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double precision, dimension(:,:), pointer | suffbo |
| fluid surface vector of the boundary faces. Its norm is the surface of the face and it is oriented outwards More...
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integer, dimension(:), pointer | isolid_0 |
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double precision, dimension(:,:), pointer | cdgfac |
| coordinates of the centers of the internal faces More...
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double precision, dimension(:,:), pointer | cdgfbo |
| coordinates of the centers of the boundary faces More...
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double precision, dimension(:), pointer | volume |
| volume of each cell More...
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double precision, dimension(:), pointer | cell_f_vol |
| fluid volume of each cell More...
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double precision, dimension(:), pointer | surfan |
| norm of the surface vector of the internal faces More...
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double precision, dimension(:), pointer | surfbn |
| norm of the surface of the boundary faces More...
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double precision, dimension(:), pointer | suffan |
| norm of the fluid surface vector of the internal faces More...
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double precision, dimension(:), pointer | suffbn |
| norm of the fluid surface of the boundary faces More...
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double precision, dimension(:), pointer | dist |
| for every internal face, dot product of the vectors \( \vect{IJ}\) and \(\vect{n}\). I and J are respectively the centers of the first and the second neighboring cell. The vector \(\vect{n}\) is the unit vector normal to the face and oriented from the first to the second cell More...
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double precision, dimension(:), pointer | distb |
| For every boundary face, dot product between the vectors \(\vect{IF}\) and \(\vect{n}\). I is the center of the neighboring cell. F is the face center. The vector \(\vect{n}\) is the unit vector normal to the face and oriented to the exterior of the domain More...
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double precision, dimension(:), pointer | pond |
| weighting (Aij=pond Ai+(1-pond)Aj) for every internal face, \(\displaystyle\frac{\vect{FJ}.\vect{n}}{\vect{IJ}.\vect{n}}\). With regard to the mesh quality, its ideal value is 0.5 More...
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double precision, dimension(:,:), pointer | dijpf |
| vector I'J' for interior faces for every internal face, the three components of the vector \(\vect{I'J'}\), where I' and J' are respectively the orthogonal projections of the neighboring cell centers I and J on a straight line orthogonal to the face and passing through its center More...
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double precision, dimension(:,:), pointer | diipb |
| vector II' for interior faces for every boundary face, the three components of the vector \(\vect{II'}\). I' is the orthogonal projection of I, center of the neighboring cell, on the straight line perpendicular to the face and passing through its center More...
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double precision, dimension(:,:), pointer | dofij |
| vector OF for interior faces for every internal face, the three components of the vector \(\vect{OF}\). O is the intersection point between the face and the straight line joining the centers of the two neighboring cells. F is the face center More...
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