10,372
edits
Changes
Jump to navigation
Jump to search
Line 30:
Line 30: − +
Fracture threshold in the real world (view source)
Revision as of 20:19, 15 April 2014
, 20:19, 15 April 2014→Effect of water depth, stratigraphy, and facies changes
==Effect of water depth, stratigraphy, and facies changes==
==Effect of water depth, stratigraphy, and facies changes==
[[file:evaluating-top-and-fault-seal_fig10-43.png|thumb|{{figure number|2}}See text for explanation.]]
[[file:evaluating-top-and-fault-seal_fig10-43.png|thumb|{{figure number|2}}Comparison of the fracture gradient pressure for the case of a well on land and the same well with an additional [[length::298 ft]] [[depth::(100 m]]) of water column..]]
Pore pressure alone does not control hydraulic fracturing. Changes in the overburden stress change the theoretical fracture pressure and seal risk. For example, water depth alters the overburden stress and therefore P<sub>f</sub>. [[:file:evaluating-top-and-fault-seal_fig10-43.png|Figure 2]] compares the fracture gradient pressure for the case of a well on land and the same well with an additional [[length::298 ft]] [[depth::(100 m]]) of water column. The water column substitutes low-density water for high-density rock. The result is a shift of P<sub>f</sub> to lower values. If the water depth were sufficiently great, there would be an increased likelihood of hydraulic fracturing with no change in pore pressure.
Pore pressure alone does not control hydraulic fracturing. Changes in the overburden stress change the theoretical fracture pressure and seal risk. For example, water depth alters the overburden stress and therefore P<sub>f</sub>. [[:file:evaluating-top-and-fault-seal_fig10-43.png|Figure 2]] compares the fracture gradient pressure for the case of a well on land and the same well with an additional [[length::298 ft]] [[depth::(100 m]]) of water column. The water column substitutes low-density water for high-density rock. The result is a shift of P<sub>f</sub> to lower values. If the water depth were sufficiently great, there would be an increased likelihood of hydraulic fracturing with no change in pore pressure.