changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on Nov 20, 2018
Saved on Dec 16, 2018
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\frac{T(t, \mathbf{r} ) = T(\mathbf{r}))}{dt} = \textrm{const}0
Reservoir fluid temperature is constant not changing over time
s_w(t, \mathbf{r}) = s_w(\mathbf{r}), \quad s_o(t, \mathbf{r}) = s_o(\mathbf{r}), \quad s_g(t, \mathbf{r}) = s_g(\mathbf{r})
Reservoir saturation is constant over time
| \nabla B_o | \sim 0, \quad |\nabla B_g | \sim 0
No high fluid pressure gradients over reservoir volume
|\nabla P_{cow}(s)| \sim 0, \quad | \nabla P_{cog}(s)| \sim 0
No high capillary pressure gradients over reservoir volume