| Title |
Magnetotelluric Surveying and Monitoring at the Coso Geothermal Area, California, in Support of the Enhanced Geothermal Systems Concept: Survey Parameters and Initial Results |
| Authors |
Philip E. Wannamaker, Peter E. Rose, William M. Doerner, Brian C. Berard, Jess McCulloch, Kenneth Nurse |
| Year |
2004 |
| Conference |
Stanford Geothermal Workshop |
| Keywords |
electronical resistivity, enhanced geothermal system, magnetotelluric survey |
| Abstract |
Electrical resistivity may contribute to progress in�enhanced geothermal systems (EGS) by imaging the�geometry, bounds and controlling structures in�existing production, and by monitoring changes in�the underground resistivity properties in the vicinity�of injection due to fracture porosity enhancement. To�these ends, we are acquiring a dense grid of�magnetotelluric (MT) stations plus contiguous bipole�array profiling centered over the east flank of the�Coso geothermal system. Acquiring good quality MT�data in producing geothermal systems is a challenge�due to production related electromagnetic (EM) noise�and, in the case of Coso, due to proximity of a�regional DC intertie power transmission line. To�achieve good results, a remote reference completely�outside the influence of the dominant source of EM�noise must be established. Experimental results so far�indicate that emplacing a reference a distance of 65�miles from the DC intertie in Amargosa Valley, NV,�is still insufficient for noise cancellation much of the�time. Even though the DC line EM fields are planar�at this distance, they remain coherent with the non-planar�fields in the Coso area so that remote�referencing produces incorrect responses. We have�successfully unwrapped and applied MT times series�from the permanent observatory at Parkfield, CA, and�these appear adequate to suppress the interference of�the artificial EM noise. The efficacy of this�observatory is confirmed by comparison to stations�taken using an ultra-distant reference east of Socorro,�NM. Operation of the latter reference was successful�by using fast ftp internet communication between�Coso Junction and the New Mexico Institute of�Mining and Technology, using the University of Utah�site as intermediary, and allowed referencing within a�few hours of data downloading at Coso.� |