This function calculates the sigma for the spongeLayer from treeid for the polynomial order n6. Sponge profile: where, \sigma_A - sponge strength, L - thickness, x0 - start of sponge.
Type | Intent | Optional | Attributes | Name | ||
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type(tem_spongeLayer_radial_type) | :: | me |
Spatial sponge layer to evaluate |
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integer(kind=long_k), | intent(in) | :: | treeIds(n) |
treeIds of elements in given level |
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type(treelmesh_type), | intent(in) | :: | tree |
global treelm mesh |
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integer, | intent(in) | :: | nDim |
Dimension |
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integer, | intent(in) | :: | n |
Number of arrays to return |
return value
function spongeLayer_radial_polyn6_for_treeids(me, treeids, tree, nDim, n) & & result(res) ! -------------------------------------------------------------------------- !> Spatial sponge layer to evaluate type(tem_spongeLayer_radial_type) :: me !> Number of arrays to return integer, intent(in) :: n !> global treelm mesh type( treelmesh_type ), intent(in) ::tree !> treeIds of elements in given level integer(kind=long_k), intent(in) :: treeIds(n) !> Dimension integer, intent(in) :: nDim !> return value real(kind=rk) :: res(n) ! -------------------------------------------------------------------------- integer :: i real(kind=rk) :: rad, outer_radius, sigma, vec(3), coord(3) real(kind=rk) :: const_fac ! -------------------------------------------------------------------------- outer_radius = me%radius + me%thickness vec = 0.0_rk const_fac = 729_rk/(16_rk*me%thickness**6) do i = 1,n !barycentric coordinate coord = tem_BaryOfId( tree, treeIds(i) ) vec(1:nDim) = coord(1:nDim) - me%origin(1:nDim) rad = sqrt( vec(1)**2 + vec(2)**2 + vec(3)**2 ) if (rad > me%radius) then sigma = const_fac * (outer_radius - rad)**2 * (rad - me%radius)**4 res(i) = min(1.0_rk, sigma) * me%dampFactor else res(i) = 0.0_rk end if end do end function spongeLayer_radial_polyn6_for_treeids