Difference between revisions of "Hydrocarbon column: calculation of maximum height"

	Exploring for Oil and Gas Traps
Series	Treatise in Petroleum Geology
Part	Predicting the occurrence of oil and gas traps
Chapter	Evaluating top and fault seal
Author	Grant M. Skerlec
Link	Web page
Store	AAPG Store

Revision as of 22:05, 21 May 2014

Calculation[edit]

The maximum column of hydrocarbons that can accumulate under a seal occurs when the buoyancy pressure,P_b, equals the displacement pressure, P_d. If P_b exceeds P_d, the hydrocarbons will leak through the seal. If P_b is less than P_d, it would be possible to seal a greater column of hydrocarbons.

Therefore, for the maximum hydrocarbon column

P_{\rm {b}}=P_{\rm {d}}

(\rho _{\rm {w}}-\rho _{\rm {h}}){\mbox{g}}h={\frac {2\gamma \cos \theta }{R}}

h={\frac {\left(\displaystyle {\frac {2\gamma \cos \theta }{R}}\right)}{(\rho _{\rm {w}}-\rho _{\rm {h}}){\mbox{g}}}}

or, in mixed units,

h=\left({\frac {P_{\rm {d}}}{\rho _{\rm {w}}-\rho _{\rm {h}}}}\right)0.433

where:

ρ_w = density of water, g/cm³
ρ_h = density of hydrocarbon, g/cm³
g = acceleration due to gravity, cm/sec²
h = thickness of the hydrocarbon column, ft or m
γ is the interfacial tension,
θ is the contact angle between the wetting fluid and the solid surface, and
R is the capillary (pore throat) radius (Vavra et al., 1992^{[citation needed]}).

Effect on seal capacity[edit]

The height of the hydrocarbon column (h) in the above equations is a theoretical maximum. The actual height is less because of the effect of the reservoir. If the reservoir itself had zero displacement pressure, the height of the hydrocarbon column would attain the theoretical maximum and the OWC would coincide with the free water level. If the reservoir has some displacement pressure greater than zero, then the height of the hydrocarbon column is less than the theoretical maximum, or

{\mbox{h}}=\left({\frac {{\mbox{P}}_{\rm {ds}}-{\mbox{P}}_{\rm {dr}}}{\rho _{\rm {w}}-\rho _{\rm {h}}}}\right)0.433

where:

P_ds = displacement pressure of the seal
P_dr = displacement pressure of the reservoir

External links[edit]

find literature about
Hydrocarbon column: calculation of maximum height

@@ Line 15: / Line 15: @@
 }}
 ==Calculation==
-The maximum column of hydrocarbons that can accumulate under a [[seal]] occurs when the buoancy pressure,''P''<sub>b</sub>, equals the displacement pressure, ''P''<sub>d</sub>. If ''P''<sub>b</sub> exceeds ''P''<sub>d</sub>, the hydrocarbons will leak through the seal. If ''P''<sub>b</sub> is less than ''P''<sub>d</sub>, it would be possible to seal a greater column of hydrocarbons.
+The maximum column of hydrocarbons that can accumulate under a [[seal]] occurs when the [[Buoyant pressure|buoyancy pressure]],''P''<sub>b</sub>, equals the [[displacement pressure]], ''P''<sub>d</sub>. If ''P''<sub>b</sub> exceeds ''P''<sub>d</sub>, the hydrocarbons will leak through the seal. If ''P''<sub>b</sub> is less than ''P''<sub>d</sub>, it would be possible to seal a greater column of hydrocarbons.
 Therefore, for the maximum hydrocarbon column

Difference between revisions of "Hydrocarbon column: calculation of maximum height"

Revision as of 22:05, 21 May 2014

Contents

Calculation[edit]

Effect on seal capacity[edit]

See also[edit]

External links[edit]

Navigation menu

Search