| Title |
Microseismic Monitoring of the Worldís Largest Potential HDR Reservoir |
| Authors |
R.Baria, S.Michelet, J.Baumgaertner ,B.Dyer A.Gerard, J.Nicholls,T.Hettkamp, D.Teza N.Soma, H.Asanuma, J. Garnish, T.Megel |
| Year |
2004 |
| Conference |
Stanford Geothermal Workshop |
| Keywords |
microseismic monitoring, hot dry rock, European HDR project |
| Abstract |
The current phase of the European Hot Dry Rock�Project at Soultz-sous-ForÍts requires the drilling of�two additional deep wells to 5000 m depth into the�crystalline basement, to form a module consisting of�a central injector and two producers. The first well�GPK-2 was drilled to 5000 m in 1999 and�stimulated in 2000. The well GPK-3 (the injector)�was drilled in 2002 and targeted using microseismic�and other data. The bottom hole temperature was�200.6 ?C and separation between the two wells at the�bottom is around 600 m. GPK3 was then stimulated�to enhance the permeability between the wells. A�number of stimulation techniques were tried�including ìfocusedî stimulation, a novel method of�injecting simultaneously in two wells. Microseismic�monitoring, flow logging and other diagnostic�methods were used during these injections.�The ìsparseî microseismic network at the Soultz�site consists of a number of seismic sensors�deployed in wells between 1500 m and 3600 m deep�with bottom hole temperatures of 130-160 ?C.�A 48 channel, 22 bit data digitizing unit was used�for data acquisition in conjunction with proprietary�software to carry out automatic timing and location�in real time. This gave a real time decision-making�possibility and control of the reservoir. This was the�first time that such an interactive method had been�carried out at this site.�Around 90 000 micro-earthquakes were triggered�during these injections and about 9 000 events were�automatically timed and located in real time. These�stimulations created a total reservoir volume in�excess of 3 km 3 . This is the largest stimulated�volume in the development of HDR technology to�date.�The data suggest that ìfocusedî stimulation may�have a significant advantage over a single well�stimulation technique and may be a way forward for�efficient stimulation of larger separations between�It is recognized that the reservoir creation process�generates microseismic events but generation of�bigger events (30 events approaching 2ML & one�up to 2.9ML during this campaign) may retard the�acceptance of this technology in an urban�environment. This needs further studies to�understand the processes and find a procedure to�reduce the incidence of larger events.� |