Combination flash-bottoming cycle geothermal power generation: A case history
- Unocal Corp., Santa Rosa, CA (United States). Geothermal and Power Operations
High- and low-enthalpy, liquid-dominated geothermal resources are commonly exploited by steam flash and binary power cycles, respectively. Cooled brine from both flash and binary power cycles, respectively. Cooled brine from both flash and binary power plants is typically reinjected into the geothermal reservoir to replenish the aquifer, maintain reservoir pressure and to protect the environment. Silica tends to precipitate from geothermal brine at almost every stage of brine processing as the temperature is reduced, either as hydrous, amorphous opal or as metal silicate. Silica scale deposition in flash plants and brine reinjection systems is commonly controlled by disposing of brine at temperatures above which silica/silicate is saturated or only slightly over-saturated. A significant amount of heat remains in high temperature injection brine that may otherwise be extracted. In 1994, binary cycle units comprising 16 MWe were installed at the Bulalo, Philippines geothermal field utilizing flashed waste brine that was previously injected directly to the reservoir. The binary bottoming cycle consists of six energy converters each employing a preheater and a vaporizer. The brine temperature is reduced across the heat exchangers from 450{degree} to 408{degree}. During the heat recovery process, over-saturation of silica in the injection brine increases from < 10 to > 100%, and scaling rates are predicted to increase thirty-fold from 0.1 to 3 mm/yr. Siliceous scaling in heat exchangers, cooled injection brine piping, injection wells and near-wellbore formation is inhibited by acidification of brine sent to the binary plant. The heat recovery process, incorporating silica scale control by pH modification, has successfully operated at the Bulalo field for two years. Silica scaling, as a result of flashing and cooling brine has been reduced to less than 1 mm/yr.
- OSTI ID:
- 435571
- Report Number(s):
- CONF-960805-; TRN: IM9710%%229
- Resource Relation:
- Conference: 31. intersociety energy conversion engineering conference, Washington, DC (United States), 9-14 Aug 1996; Other Information: PBD: 1996; Related Information: Is Part Of Proceedings of the 31. intersociety energy conversion engineering conference. Volume 3: Policy impacts on energy, renewable energy resources, energy systems, environmental impact; Chetty, P.R.K.; Jackson, W.D.; Dicks, E.B. [eds.]; PB: 684 p.
- Country of Publication:
- United States
- Language:
- English
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