From 83b648839bec878310d0778e6dd7ecb9383b58a1 Mon Sep 17 00:00:00 2001 From: zhi Date: Wed, 20 Nov 2024 11:54:26 -0500 Subject: [PATCH] fix spherical artificial viscosity spherical --- pyro/compressible/interface.py | 37 +++++++++++++++++++++------------- 1 file changed, 23 insertions(+), 14 deletions(-) diff --git a/pyro/compressible/interface.py b/pyro/compressible/interface.py index 2771282ab..8c2634e6e 100644 --- a/pyro/compressible/interface.py +++ b/pyro/compressible/interface.py @@ -310,27 +310,33 @@ def artificial_viscosity(ng, dx, dy, Lx, Ly, # For SphericalPolar: else: - # cell-centered r-coord of right, left cell and face-centered r - rr = (i + 1 - ng) * dx + xmin - rl = (i - ng) * dx + xmin - rc = 0.5 * (rr + rl) - - # cell-centered sin(theta) of top, bot cell and face-centered - sint = np.sin((j + 1 - ng) * dy + ymin) - sinb = np.sin((j - ng) * dy + ymin) - sinc = np.sin((j + 0.5 - ng) * dy + ymin) + # cell-centered r-coord of right, left cell and node-centered r + rr = (i + 0.5 - ng) * dx + xmin + rl = (i - 0.5 - ng) * dx + xmin + rc = (i - ng) * dx + xmin # Find the average right and left u velocity ur = 0.5 * (u[i, j] + u[i, j - 1]) ul = 0.5 * (u[i - 1, j] + u[i - 1, j - 1]) - # Find the average top and bottom v velocity - vt = 0.5 * (v[i, j] + v[i - 1, j]) - vb = 0.5 * (v[i, j - 1] + v[i - 1, j - 1]) - # Finite difference to get ux and vy ux = (ur * rr * rr - ul * rl * rl) / (rc * rc * dx) - vy = (sint * vt - sinb * vb) / (rc * sinc * dy) + + # if sinc = 0, i.e. theta= {0, pi}, then vy goes inf + # but due to phi-symmetry, numerator cancel, so zero. + if sinc == 0.0: + vy = 0.0 + else: + # cell-centered sin(theta) of top, bot cell and node-centered sin(theta) + sint = np.sin((j + 0.5 - ng) * dy + ymin) + sinb = np.sin((j - 0.5 - ng) * dy + ymin) + sinc = np.sin((j - ng) * dy + ymin) + + # Find the average top and bottom v velocity + vt = 0.5 * (v[i, j] + v[i - 1, j]) + vb = 0.5 * (v[i, j - 1] + v[i - 1, j - 1]) + + vy = (sint * vt - sinb * vb) / (rc * sinc * dy) # Find div(U)_{i-1/2, j-1/2} divU[i, j] = ux + vy @@ -339,7 +345,10 @@ def artificial_viscosity(ng, dx, dy, Lx, Ly, for i in range(ilo, ihi): for j in range(jlo, jhi): + # div(U)_{i-1/2, j} = 0.5 (div(U)_{i-1/2, j-1/2} + div(U)_{i-1/2, j+1/2}) divU_x = 0.5 * (divU[i, j] + divU[i, j + 1]) + + # div(U)_{i, j-1/2} = 0.5 (div(U)_{i-1/2, j-1/2} + div(U)_{i+1/2, j-1/2}) divU_y = 0.5 * (divU[i, j] + divU[i + 1, j]) avisco_x[i, j] = cvisc * max(-divU_x * Lx[i, j], 0.0)