| Title | Geothermal Reservoir Characterization Using Distributed Temperature Sensing at Brady Geothermal Field, Nevada |
|---|---|
| Authors | Jeremy R. PATTERSON, Michael CARDIFF, Thomas COLEMAN, Herb WANG, Kurt L. FEIGL, John AKERLEY, and Paul SPIELMAN |
| Year | 2018 |
| Conference | Stanford Geothermal Workshop |
| Keywords | Brady, Distributed Temperature Sensing, DTS, Thermal diffusivity, borehole dynamics |
| Abstract | Distributed temperature sensing (DTS) systems provide near real-time data collection that captures borehole spatiotemporal temperature dynamics. Temperature data were collected in an observation well at an active geothermal site for a period of eight days under geothermal production conditions. Collected temperature data showcase the ability of DTS systems to detect changes to the location of the steam-water interface, visualize borehole temperature recovery - following injection of a cold-water slug - and identify anomalously warm and/or cool zones. The high sampling rate and spatial resolution of DTS data also shows borehole temperature dynamics that are not captured by traditional pressure-temperature survey tools. Inversion of thermal recovery data using a finite-difference heat-transfer model produces a thermal-diffusivity profile that is consistent with laboratory-measured values and correlates with identified lithologic changes within the borehole. Used alone or in conjunction with complementary data sets, DTS systems are useful tools for developing a better understanding of both reservoir rock thermal properties as well as within and near borehole fluid movement. The work presented herein has been funded in part by the Office of Energy Efficiency and Renewable Energy (EERE), U.S. Department of Energy, under Award Number DE-EE0006760. The results from this study have recently been published as: Patterson, J. R., M. Cardiff, T. Coleman, H. Wang, K. L. Feigl, J. Akerley, and P. Spielman (2017), Geothermal reservoir characterization using distributed temperature sensing at Brady Geothermal Field, Nevada, The Leading Edge, 36, 1024a1021-1024a1027. http://dx.doi.org/10.1190/tle36121024a1.1 |