| Title |
Relative Permeability through Fractures |
| Authors |
Gracel P. Diomampo, Kewen Li and Roland N. Horne |
| Year |
2002 |
| Conference |
PNOC-EDC Geothermal Conference |
| Keywords |
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| Abstract |
The mechanism of two-phase flow through fractures exerts an important influence on the behavior of geothermal resewoirs. Cumntly, two-phase flow thmugh fractures is still poorly understood. In this study, nitmgen-water and steam-water experiments were done on both smooth and mugh parallel plates to determine the governing #ow mechanisms. ��The experiments were done using a glass plate to allow visualization of flow. Digital video recording allowed instantaneous measurement of pressureJ flow rate and saturation. Saturation was computed using image analysis techniques. The experiments showed that gas and liquid phases flow through fmctures in nonuniform separate channels. The localized channels change with time as each phase path undergoes continues breaking and reforming due to invasion of the other phase. The stability of the phase paths is dependent on liquid and gas flow rate ratio. This mechanism hdds true for over a range of saturation for both smooth and mugh fmctures. ��The data mm the experiments were analyzed using Dafcy's law and using the concept of friction factor and equivalent Reynold's number for two-phase flow. For both smooth-and mughwalled fractures a clear mlationship between relative permeability and saturation was seen. The calculated relative permeability cuwes follow Corey-type behavior and can be modeled using Honarpour expressions. The sum of the relative permeabilities is not equal one, indicating phase inte~erence. The equivalent homogenous single-phase appmach did not give satisfactory representation of flow thmugh fractures. The graphs of experimentally derived friction factor with the modified Reynold's number do not reveal a distinctive linear relationship. |