The Role of Capillary Forces in the Natural State of Fractured Geothermal Reservoirs
Abstract/Contents
- Abstract
- A lot of experiments into the natural state of geothermal reservoirs have been conducted using porous medium models, even though geothermal systems are usually highly fractured. It is unclear whether a porous medium model is adequate in describing the natural state of a fractured geothermal reservoir. Because of this, a dual porosity model is often invoked. The question of how heat and mass is transferred in fractures has been widely investigated. The objective of this work was to further our understanding by investigating how heat and mass transfer is affected by capillary forces. Also, the question of how capillary forces affect the stability of a water-saturated region overlying a liquid-dominated two-phase zone was examined. The study was carried out by developing a two-dimensional numerical model representing a fractured geothermal reservoir. The numerical simulations were carried to steady state with the use of a commercial simulator TETRAD (version 12). Results indicate that due to capillary forces, the fractures act as heat pipes -transporting heat by the process of convection. The convection process was found to be enhanced if there is no capillary pressure in the fractures. It was also determined that only if capillary forces are present can a system consist of a water-saturated zone overlying a liquid-dominated two-phase zone remain stable.
Description
Type of resource | text |
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Date created | June 1997 |
Creators/Contributors
Author | Urmeneta, Nemesto Noel A. |
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Primary advisor | Horne, Roland N. |
Degree granting institution | Stanford University, Department of Petroleum Engineering |
Subjects
Subject | School of Earth Energy & Environmental Sciences |
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Genre | Thesis |
Bibliographic information
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Preferred citation
- Preferred Citation
- Urmeneta, Nemesto Noel A. (1997). The Role of Capillary Forces in the Natural State of Fractured Geothermal Reservoirs. Stanford Digital Repository. Available at: https://purl.stanford.edu/kp687bs2524
Collection
Master's Theses, Doerr School of Sustainability
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