Difference between revisions of "Pore-fluid interaction"
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Pore–fluid interaction determines the amount and rate of hydrocarbon recovery. Reservoir pore throat radius, [[buoyancy pressure]], and fluid properties are the main elements controlling pore–fluid interaction. Since direct observation of pore–fluid interaction in the reservoir is impossible at present, [[capillary pressure]] and relative [[permeability]] analysis of rocks yields the most insight into the behavior of fluids in a particular pore system. | Pore–fluid interaction determines the amount and rate of hydrocarbon recovery. Reservoir pore throat radius, [[buoyancy pressure]], and fluid properties are the main elements controlling pore–fluid interaction. Since direct observation of pore–fluid interaction in the reservoir is impossible at present, [[capillary pressure]] and relative [[permeability]] analysis of rocks yields the most insight into the behavior of fluids in a particular pore system. | ||
| − | + | The See Also listing contains articles that discuss pore–fluid interaction and techniques for predicting the behavior of fluid within a pore system. | |
==See also== | ==See also== | ||
Revision as of 22:42, 10 March 2014
| Exploring for Oil and Gas Traps | |
| |
| Series | Treatise in Petroleum Geology |
|---|---|
| Part | Predicting the occurrence of oil and gas traps |
| Chapter | Predicting reservoir system quality and performance |
| Author | Dan J. Hartmann, Edward A. Beaumont |
| Link | Web page |
| Store | AAPG Store |
Pore–fluid interaction determines the amount and rate of hydrocarbon recovery. Reservoir pore throat radius, buoyancy pressure, and fluid properties are the main elements controlling pore–fluid interaction. Since direct observation of pore–fluid interaction in the reservoir is impossible at present, capillary pressure and relative permeability analysis of rocks yields the most insight into the behavior of fluids in a particular pore system.
The See Also listing contains articles that discuss pore–fluid interaction and techniques for predicting the behavior of fluid within a pore system.
See also
- Hydrocarbon expulsion, migration, and accumulation
- Characterizing rock quality
- Pc curves and saturation profiles
- Converting Pc curves to buoyancy, height, and pore throat radius
- What is permeability?
- Relative permeability and pore type
External links
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