Total producedProduced flowrate of live oil across the well-reservoir contact with the volumes measured at the sandface temperature and pressure conditions.
For the volatile oil MBO fluid model the total oil sandface flowrate
is related to
surface flowrates of
fluid components ascrude oil and natural gas as below (see Derivation): LaTeX Math Block |
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q_o = \frac{B_o -\cdot R_v B_g}{1(q_O - R_v R_s} \, q_O + \frac{B_g - R_s B_oG)}{1 - R_v \, R_s} \, q_G
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where
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LaTeX Math Inline |
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body | \{ q_W, \, q_O, \, q_G \} |
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\{ w, \, B_, \, B_g \} factors\{ R_s, \, \}Solution GOR and
It simplifies for the Black Oil model to:
LaTeX Math Block |
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q_to = B_o \, q_O + (B_g - R_s B_o) \, q_G =B_o \, (q_O -R_s q_G) + B_g \, q_G
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and simplifies further down to production from undersaturated reservoir as:
LaTeX Math Block |
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q_t = B_w \, q_W + B_o \, q_O
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and even simpler for single-phase fluid with surface flow rate
and formation volume factor B: LaTeX Math Block |
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q_t = q \cdot B
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See also
See Also
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Petroleum Industry / Upstream / Subsurface E&P Disciplines / Well Testing (WT) / Flowrate Testing / Flowrate
[ Well & Reservoir Surveillance ]
[ Sandface flowrates ] [ Oil sandface flowrate ] [ Gas sandface flowrate ] [ Water sandface flowrate ]
[ Surface flowrates ] [ Oil surface flowrate ] [ Gas surface flowrate ] [ Water surface flowrate ]Non-linear multi-phase diffusion derivation @model