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- | chapter = Rock-water reaction: formation damage Near wellbore [[permeability]] reduction, that is, formation damage, can result from the interaction of the reservoir rock with extraneous dril17 KB (2,380 words) - 18:23, 21 January 2022
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- ...practices work to safeguard the environment and present minimal potential damage to fresh-water zones. Most hydraulic fracturing takes place in zones remove1 KB (187 words) - 16:47, 18 July 2016
- * Skin damage: A figure that describes the formation damage that could be caused by many factors. ...favored to have an underbalance operation for less skin damage (formation damage). Moreover, the permeability anisotropy is one of the main factors that aff12 KB (1,786 words) - 21:02, 21 April 2022
- ...rast, patience is paramount when handling soft cores to prevent mechanical damage. ...oints. Based on experience, the following steps are recommended to prevent damage:7 KB (1,083 words) - 20:50, 19 January 2022
- ...lysis. (For more on formation damage, see [[Rock-water reaction: formation damage]].) * [[Rock-water reaction: formation damage]]7 KB (1,011 words) - 16:57, 20 January 2022
- Near wellbore [[permeability]] reduction, that is, formation damage, can result from the interaction of the reservoir rock with extraneous [[dr ..., v. 34, 847-856.</ref> can be determined from laboratory tests. These two damage mechanisms can exist independently or in combination.<ref name=Gabriel_etal17 KB (2,356 words) - 19:24, 19 January 2022
- | chapter = Rock-water reaction: formation damage Near wellbore [[permeability]] reduction, that is, formation damage, can result from the interaction of the reservoir rock with extraneous dril17 KB (2,380 words) - 18:23, 21 January 2022
- ...leased by the fission reaction damage the lattice of apatite crystals. The damage appears as linear features referred to as fission tracks.7 KB (994 words) - 21:38, 4 February 2022
- ...raulic fracturing. Solvent or surfactant treatments are sometimes used for damage removal. ...hose having effective permeabilities of 10 md or greater generally require damage removal methods. Those formations in between these two permeabilities may r24 KB (3,633 words) - 13:55, 24 January 2022
- ...e of gas distorts wellhead flow measurements. If the impact of storage and damage is not recognized and accounted for in the analysis, the resulting forecast * Formation damage11 KB (1,656 words) - 18:41, 20 January 2022
- ...amage. (However, a low fluid loss does not always ensure minimal formation damage.) There are many types of fluid loss additives, such as [[bentonite]], that ...cal properties of the rock. These changes may be enough to cause formation damage and borehole instability. These damaging effects can be minimized by using13 KB (1,866 words) - 21:17, 19 January 2022
- ...cases, the potential for [[Rock-water reaction: formation damage|formation damage]] that can be caused by [[Wellcompletion|completion]] and/or [[stimulation] ...n hole tools|wireline log]] responses. They are also better because sample damage tends to be minimal. Thin sections are commonly made from porosity-permeabi24 KB (3,264 words) - 15:09, 24 January 2022
- ...on partial penetration have concluded that the effects are similar to skin damage around the wellbore (that is, an altered [[permeability]] that is lower tha ...e precipitated from formation fluids (see [[Rock-water reaction: formation damage]]). As these fluids are produced, equilibrium conditions of pressure and te16 KB (2,540 words) - 18:41, 20 January 2022
- * Physical damage to the rock ===Physical damage===20 KB (2,971 words) - 15:46, 19 January 2022
- ====Damage theory==== ...or plate tectonics on super-Earths: Inferences from convection models with damage, Earth and Planetary Science Letters 331-332, pp. 281–290.=</ref>19 KB (2,736 words) - 12:59, 14 March 2019
- ...trital or authigenic clays or cement (see [[Rock-water reaction: formation damage]]). Thus, a proper geological evaluation of tight gas reservoirs requires a ...of clays with tight gas reservoirs makes them very sensitive to formation damage. Hydraulic fracturing is therefore the least destructive and most preferred11 KB (1,444 words) - 21:26, 4 January 2024
- ...al penetration), impaired permeability adjacent to the wellbore (formation damage), and flow restrictions in the perforations. ==Effect of stimulation and damage on IPR equations==20 KB (3,155 words) - 21:20, 19 January 2022
- ...ns allow the use of larger jet charges; however, the guns can cause casing damage in unsupported casing. ...er jet charges than the hollow carrier guns, and the possibility of casing damage exists.19 KB (2,910 words) - 21:06, 18 January 2022
- ...ge-scale damage. Electromagnetic devices are useful in inspecting for pipe damage on either the inside or outside of the casing and can be useful in examinin12 KB (1,726 words) - 16:48, 20 January 2022
- * Bit grade (wear and damage)5 KB (752 words) - 15:39, 24 January 2022
- | Skin damage || Can be major error || Can be measured and corrected for6 KB (849 words) - 17:55, 17 February 2022
- ...lts can be used to determine reservoir properties, to assess the degree of damage or [[stimulation]], to identify production and reservoir problems, or to sa ...w and pressure buildup tests from which [[permeability]] and the extent of damage or stimulation can be estimated.<ref name=pt09r14>Lee, W. J., 1982, Well Te14 KB (2,165 words) - 18:42, 20 January 2022
- ...h [[Analysis of mud weights|underbalanced mud]] or air to prevent fracture damage. The Niobrara is an [[Causes of underpressure|underpressured reservoir]] wi7 KB (962 words) - 16:03, 18 February 2022
- ...val and drill with gas, salt water, or oil-based mud to minimize formation damage.16 KB (2,450 words) - 21:42, 20 January 2022
- ...should be identified. Knowledge of zonal mineralogy may prevent excessive damage by [[drilling fluid]]s and should be used in designing the mud program. The ...buildup. The final buildup is used to evaluate reservoir transmissibility, damage, and radius of investigation and should be at least as long as the final fl26 KB (4,009 words) - 15:09, 24 January 2022
- ...rock interactions]], and [[Rock-water reaction: formation damage|formation damage]]. Heterogeneities at the interwell scale affect [[Fundamentals of fluid fl17 KB (2,232 words) - 21:22, 19 January 2022
- ...and it is almost always run before a core barrel or diamond bit to prevent damage ([[:file:fishing_fig4.png|Figure 4]]).8 KB (1,156 words) - 21:19, 19 January 2022
- ...uring reservoir life indicating trends in reservoir depletion or formation damage. ...ity]] or channeling, and [[Rock-water reaction: formation damage|formation damage]].22 KB (3,076 words) - 13:56, 24 January 2022
- * A variety of mud weights and types are needed to prevent formation damage in different producing zones.8 KB (983 words) - 20:49, 19 January 2022
- ...n 1/32 in. can probably be seen by the borehole televiewer. In some cases, damage may make the fracture appear wider than it actually is. (For more informati9 KB (1,380 words) - 17:25, 18 January 2022
- * the width of fault damage zones ==Fault damage zone==63 KB (9,496 words) - 16:51, 15 January 2024
- ...overy_fig7.png|thumb|300px|{{figure_number|7}}Fluid segregation by gravity damage.]]16 KB (2,374 words) - 20:46, 19 January 2022
- ...cant amounts of fluids into the reservoir with the potential for formation damage. If the wellbore is now open to high pressure, safety is of paramount impor12 KB (1,834 words) - 15:25, 24 January 2022
- * [[Rock-water reaction: formation damage]]12 KB (1,706 words) - 15:11, 24 January 2022
- * [[Rock-water reaction: formation damage]]11 KB (1,477 words) - 15:25, 24 January 2022
- * [[Rock-water reaction: formation damage]]14 KB (1,893 words) - 20:15, 2 February 2016
- * [[Rock-water reaction: formation damage]]14 KB (2,121 words) - 21:16, 19 January 2022
- ...e deployed in areas with obstructions to improve control and thereby avoid damage. The length of cable required for a job depends on the objectives of the su13 KB (2,015 words) - 18:24, 21 January 2022
- * Skin factor, which is a quantitative measure of damage or [[stimulation]] in the well15 KB (2,314 words) - 17:45, 21 January 2022
- ...m Geology, p. 1308-1314.</ref> listed several different types of reservoir damage, including (1) movement of secondary clays causing plugging of pore throats34 KB (5,070 words) - 15:11, 23 August 2016
- ...ements that can by incorporated into zircons, they are also susceptible to damage from radioactive decay through the process of [[Metamictization]]. As radio16 KB (2,328 words) - 22:11, 3 December 2015
- ...about 2 mm) because they can be recovered from drill cuttings without much damage to the fossils. Different processing techniques separate [[Calcareous micro17 KB (2,331 words) - 20:11, 10 August 2016
- Gas condensate reservoirs are prone to formation damage due to condensate banking. The accumulation of liquid will act as a blockag21 KB (3,040 words) - 15:22, 12 December 2022
- ...analysis is extremely important in evaluating the potential for formation damage by introduction of potentially reactive [[stimulation]] fluids.18 KB (2,514 words) - 17:47, 21 January 2022
- ...T., 1986, Use of capillary pressure data for rapid evaluation of formation damage or stimulation: Society of Petroleum Engineers Paper No. 12475.</ref> has b19 KB (2,716 words) - 19:02, 20 January 2022
- ...can be utilized in the well planning process to avoid any well collapse or damage during drilling. Okoli et al.<ref name=Okolietal_2019>Okoli, P., Vega, J. C21 KB (3,096 words) - 20:59, 21 April 2022
- * [[Rock-water reaction: formation damage]]24 KB (3,450 words) - 19:09, 20 January 2022
- ...reservoir performance through increased productivity and reduced formation damage20 KB (2,916 words) - 21:04, 21 April 2022
- | Chromium ||Disturbances in Glucose Metabolism || Kidney Damage (Nephritis) ...ormone production. Glutathione peroxidase protects cells against oxidative damage by acting as a catalyst in the breakdown of hydrogen peroxide. According to83 KB (12,860 words) - 14:03, 10 April 2019
- ...Geological Survey “New Hazard Model for Induced Earthquakes” maps risk of damage from earthquakes (April 2016).27 KB (4,076 words) - 16:33, 19 July 2016
- ...but produced less than expected as a result of a combination of formation damage and poorer than predicted vertical permeability.<ref name=Fuetal_1998 />32 KB (4,727 words) - 21:03, 15 January 2024
- ...ignificant amounts of clay minerals that could potentially cause formation damage during production operations (see [[Problem wells]]). The report should inc43 KB (6,686 words) - 13:44, 18 March 2019
- ...ll during fracture stimulation resulting in poor performance and formation damage, and third results in less brittle rock.157 KB (23,278 words) - 18:36, 16 January 2024