changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on May 04, 2021
Saved on May 31, 2021
s_w \, V_{mw} \cdot \frac{(\epsilon -1)(2\epsilon+1)}{9\epsilon} + \left( 1-s_ow \, V_{mo} + s_g \, V_{mg} \right) \cdot \frac{\epsilon-1}{\epsilon+2} = P = s_w P_w + s_o P_g + s_g P_g
P_w = V_{mw} \cdot \frac{(\epsilon_w-1)(2\epsilon_w+1)}{9 \, \epsilon_w}
P_o(T) = V_{mw} \cdot \frac{\epsilon_o-1}{\epsilon_o+2}
P_g(T) = V_{mw} \cdot\frac{\epsilon_g-1}{\epsilon_g+2}
\epsilon_w(T) = 87.74 - 0.40008 \cdot T + 9.398 \cdot 10^{-4} \cdot T^2 - 1.41 \cdot 10^{-6} \cdot T^3
\epsilon_o(T) = 3
\epsilon_o(T) = 2
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