Reservoir Response to Tidal and Barometric Effects | |||
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Authors: | Hanson, Jonathan M. | ||
Keywords: | Reservoir Engineering; USA; California; Idaho; Salton Sea; Raft River; Barometric Pressure; Tidal Strains; Well Pressure | ||
Conference: | Geothermal Resources Council Transactions | Session: | Reservoir modeling; Fluid dynamics; Well logging |
Year: | 1980 | Language: | English |
Geo Location: | |||
Abstract: | Solid earth tidal strain and surface loading due to fluctuations in barometric pressure have the effect, although extremely minute, of dilating or contracting the effective pore volume in a porous reservoir. If a well intersects the formation, the change in pore pressure can be measured with sensitive quartz pressure gauges. Mathematical models of the relevant fluid dynamic of the well reservoir system have been generated and tested against conventional well pumping results or core data at the Salton Sea Geothermal Field (SSGF), California and at the Raft River Geothermal Field (FFGF), Idaho. Porosity-total compressibility product evaluation based on tidal strain response compares favorably with result based on conventional pumping techniques. Analysis of reservoir response to barometric loading using Auto Regressive Integrated Moving Average (ARIMA) stochastic modeling appears also to have potential use for the evaluation of reservoir parameters. | ||
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