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Fracture threshold in the real world (view source)
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| isbn = 0-89181-602-X
| isbn = 0-89181-602-X
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We don't really know how high the pore pressure must be to induce [[Fracture|fracturing]]. In field examples, failure seems to occur below the fracture pressure.<ref name=ch10r70>Skerlec, G., M., 1982, Risking top seals in the Central Graben: Exxon Production Research Company internal report.</ref><ref name=ch10r71>Skerlec, G., M., 1990, SEALS: A short course for risking top seal and fault seal: Franklin, Pennsylvania, SEALS International, 600 p.</ref><ref name=ch10r21>Dutta, N., C., 1987, Fluid flow in low [[permeability]] porous media, in Doligez, B., ed., [[Migration]] of Hydrocarbons in Sedimentary Basins: Paris, Editions Technip, p. 567–596.</ref><ref name=ch10r49>Lerche, I., 1990, Basin Analysis I: San Diego, Academic Press, 562 p.</ref><ref name=ch10r84>Ungerer, P., Burrus, J., Doligez, B., Chenet, P., Y., Bessis, F., 1990, [http://archives.datapages.com/data/bulletns/1990-91/data/pg/0074/0003/0000/0309.htm Basin evaluation by integrated two-dimensional modeling of heat transfer, fluid flow, hydrocarbon generation, and migration]: AAPG Bulletin, vol. 74, no. 3, p. 309–335.</ref> Risk increases as overpressure increases relative to P<sub>f</sub>, but failure may occur below the theoretical fracture pressure. Other factors, not yet understood, control the point at which failure occurs.
We don't really know how high the pore pressure must be to induce [[Fracture|fracturing]]. In field examples, failure seems to occur below the fracture pressure.<ref name=ch10r70>Skerlec, G. M., 1982, Risking top seals in the Central Graben: Exxon Production Research Company internal report.</ref><ref name=ch10r71>Skerlec, G. M., 1990, SEALS: A short course for risking top seal and fault seal: Franklin, Pennsylvania, SEALS International, 600 p.</ref><ref name=ch10r21>Dutta, N. C., 1987, Fluid flow in low [[permeability]] porous media, in B. Doligez, ed., [[Migration]] of Hydrocarbons in Sedimentary Basins: Paris, Editions Technip, p. 567–596.</ref><ref name=ch10r49>Lerche, I., 1990, Basin Analysis I: San Diego, Academic Press, 562 p.</ref><ref name=ch10r84>Ungerer, P., J. Burrus, B. Doligez, P. Y. Chenet, and F. Bessis, 1990, [http://archives.datapages.com/data/bulletns/1990-91/data/pg/0074/0003/0000/0309.htm Basin evaluation by integrated two-dimensional modeling of heat transfer, fluid flow, hydrocarbon generation, and migration]: AAPG Bulletin, vol. 74, no. 3, p. 309–335.</ref> Risk increases as overpressure increases relative to P<sub>f</sub>, but failure may occur below the theoretical fracture pressure. Other factors, not yet understood, control the point at which failure occurs.
Theoretically, [[Fracture|fracturing]] occurs when the pore pressure reaches P<sub>f</sub>. However, P<sub>f</sub> increases as pore pressure increases. Although the theory generally is described in terms of the pore pressure needed to overcome the horizontal stress keeping the fractures closed, in practice the pore pressure must approach the [[Geostatic and lithostatic pressure|lithostatic pressure]] for [[Brittleness|brittle failure]] to occur.<ref name=ch10r52>Lorenz, J., C., Teufel, L., W., Warpinski, N., R., 1991, [http://archives.datapages.com/data/bulletns/1990-91/data/pg/0075/0011/0000/1714.htm Regional fractures: a mechanism for the formation of regional fractures at depth in flat-lying reservoirs]: AAPG Bulletin, vol. 75, no. 11, p. 1714–1737.</ref>
Theoretically, [[Fracture|fracturing]] occurs when the pore pressure reaches P<sub>f</sub>. However, P<sub>f</sub> increases as pore pressure increases. Although the theory generally is described in terms of the pore pressure needed to overcome the horizontal stress keeping the fractures closed, in practice the pore pressure must approach the [[Geostatic and lithostatic pressure|lithostatic pressure]] for [[Brittleness|brittle failure]] to occur.<ref name=ch10r52>Lorenz, J., C., Teufel, L., W., Warpinski, N., R., 1991, [http://archives.datapages.com/data/bulletns/1990-91/data/pg/0075/0011/0000/1714.htm Regional fractures: a mechanism for the formation of regional fractures at depth in flat-lying reservoirs]: AAPG Bulletin, vol. 75, no. 11, p. 1714–1737.</ref>