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Approximation of Material Balance Pressure @model for slightly compressibility flow:

(1) p(t) = p_i + \frac{\Delta Q(t)}{V_\phi \cdot c_t}
(2) \Delta Q = - \frac{B_o - R_s \, B_g}{1- R_s \, R_v} \cdot \, Q^{\uparrow}_O + \frac{ B_g - R_v \, B_o}{1- R_s \, R_v} \cdot \, \left( Q^{\downarrow}_G - Q^{\uparrow}_G + Q^{\downarrow}_{GCAP} \ \ \right) + B_w \, \left( Q^{\downarrow}_W - Q^{\uparrow}_W + Q^{\downarrow}_{WAQ} \ \ \right)


where

\Delta Q(t)

Cumulative Voidage Replacement Balance (CVRB) over time  t

V_\phi = V \cdot \phi_i

initial drainage volume of the main pay (excluding the aquifer and gas cap)

\phi_i = \phi(p_i)

initial porosity

c_t = c_\phi + c_o \, s_{oi} + c_g \, s_{gi} + c_w \, s_{wi}

total compressibility

c_\phi

pore compressibility 

s_{wi}

initial water saturation

s_{gi}

initial gas saturation

s_{oi}

initial oil saturation: s_{oi} = 1 - s_{wi} - s_{gi}

c_o, \, c_g, \, c_w

fluid compressibility of water phaseoil phase and gas phase


The equations  (1) and (2) are often used in express assessment of thief water production share \Omega^{\uparrow}_W = Q^{\uparrow}_{W,{\rm true}} \, / \,Q^{\uparrow}_W and thief water injection share \Omega^{\downarrow}_W = Q^{\downarrow}_{W,{\rm true}} \, / \,Q^{\downarrow}_W:

(3) p_i - p(t) = \alpha \cdot Q^{\uparrow}_O(t) + \beta \cdot Q^{\uparrow}_W(t) - \gamma \cdot Q^{\downarrow}_W(t)
(4) \alpha > 0, \quad \beta > 0, \quad \gamma > 0
(5) V_\phi = \frac{ 1 }{ \alpha \cdot c_t} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v}
(6) \Omega^{\uparrow}_W = \frac{Q^{\uparrow}_{W,{\rm true}}}{Q^{\uparrow}_W} = \frac{\beta}{\alpha} \cdot \frac{1}{B_w} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v}
(7) \Omega^{\downarrow}_W = \frac{Q^{\downarrow}_{W, {\rm true}}}{Q^{\downarrow}_W} =\frac{\gamma}{\alpha} \cdot \frac{1}{B_w} \cdot \frac{B_o - R_s \, B_g}{1- R_s \, R_v}

See Also

Petroleum Industry / Upstream /  Production / Subsurface Production / Field Study & Modelling / Production Analysis / Material Balance Analysis (MatBal) / Material Balance Pressure @model

[ Derivation of Slightly compressible Material Balance Pressure @model ]

[ Capacitance-Resistivity Model (CRM) @model ]



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