[u, v, w, y] c = 1.0 - y wrate = rxn_rate(c) fsd = sqrt (sqr(ddx(c)) + sqr(ddy(c)) + sqr(ddz(c))) sd = ((d2dx(c) + d2dy(c) + d2dz(c)) * $rod + wrate) / fsd nx = - ddx(c) / fsd ny = - ddy(c) / fsd nz = - ddz(c) / fsd vn = u * nx + v * ny + w * nz divn = ddx(nx) + ddy(ny) + ddz(nz) absk = abs(divn) lapc = d2dx(c) + d2dy(c) + d2dz(c) t1 = (vn + sd) * nx t2 = t1' * nx' t3 = t1' * divn' t4 = t1' * absk' t5 = sqr(t1') t6 = sqr(nx') t7 = sqr(divn') t8 = sqr(absk') avg { c, u, v, w, fsd, lapc, ddx_c, ddy_c, ddz_c, d2dx_c, d2dy_c, d2dz_c } avg fsd { u, v, w, nx, ny, nz, t1, t2, t3, t4, t5, t6, t7, t8, absk, divn, sd }