Material properties of fluid affecting the fluid dynamics:
For 3-phase Oil + Gas + Water fluid model this will be:
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body | \rho_w^{\LARGE \circ} = \rho_w(P^{\LARGE \circ}, T^{\LARGE \circ}) |
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| density of water phase at standard pressure and temperature LaTeX Math Inline |
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body | T^{\LARGE \circ}o^{\LARGE \circ} P^{\LARGE \circ}, T^{\LARGE \circ})density of oil phase at standardpressure P^{LARGE \circ} and temperature LaTeX Math Inline |
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body | \rho_g^{\LARGE \circ} density of gas phase at standard pressure and temperature | P^{\LARGE \circ}, T^{\LARGE \circ})Pdensity of water phase at arbitrary pressure LaTeX Math Inline |
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body | \rhoP | and temperature \rhoP Tdensity of oil phase at arbitrary pressure and temperature LaTeX Math Inline |
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body | \rhoP | \rhoP Tdensity of gas phase at arbitrary pressure P | and temperature T | LaTeX Math Inline |
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body | w ww^www^FVF of water phase at arbitrary pressure P | and temperature LaTeX Math Inline |
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body | o oo^ooo^FVF of oil phase at arbitrary pressure P | and temperature mathinline |
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body | g gg^ggg^FVF of gas phase at arbitrary pressure P | and temperature LaTeX Math Inline |
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body | T\mu \muviscosity of water phase at arbitrary pressure P | and temperature LaTeX Math Inline |
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body | Tviscosity of oil phase at arbitrary pressure LaTeX Math Inline |
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body | P | and temperature g gviscosity of gas phase at arbitrary pressure and temperature LaTeX Math Inline |
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body | c_{pg} = c_{pg}(P, T) |
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Rs Rs = \frac{V_g^{\LARGE \circ}}{V_o}solution gas in oil phase at arbitrary pressure P | and temperature \lambda_o = \lambda_o(P, T) |
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body | \lambda_g = \lambda_g(P, T) |
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Rv Rv = \frac{V_o^{\LARGE \circ}}{V_g}oil vapour in gas phase at arbitrary pressure P | and temperature boiling pressure at arbitrary temperature T | mathinlinebody | dew pressure at arbitrary temperature LaTeX Math Inline |
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body | T
See Also
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Petroleum Industry / Upstream / Subsurface E&P Disciplines / Fluid Analysis (PVT)
Reference
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CURTIS H. WHITSON AND MICHAEL R. BRULÉ, PHASE BEHAVIOR, SPE Monograph Volume 20, 2000