Page 266 - Geothermal Energy Systems Exploration, Development, and Utilization
P. 266
242 4 Enhancing Geothermal Reservoirs
Geothermal Reservoir Engineering, Stan- 27th workshop on Geothermal Reservoir
ford University, January 31-February 2, Engineering, January 28-30, Stanford.
2005, SGP-TR-176, Stanford.
Lovelock, B.G. (2001) Steam flow measure-
ment using alcohol tracers. Geothermics, Case Study Horstberg
30 (6), 641–654.
Jung, R., Orzol, J., Kehrer, P., and
Geothermics, (2001) Special Issue on tracers,
Jatho, R. (2005) Verbundprojekt:
30 (6), 571–781.
GeneSys, Vorstudie – Erprobung
der Wasserfractechnik und des
Einsonden-Zweischichtverfahrens
Stimulation Thermal
f¨ ur die Direktw¨ armenutzung aus
Charlez, P., Lemonnier, P., Ruffet, C., gering permeablen Sediment-
Bout´ eca, M.J., and Tan, C. (1996) gesteinen. BMU-Abschlussbericht,
Thermally Induced Fracturing: Anal- F¨ orderkennzeichen: 0327116, 70 p.
ysis of a Field Case in North Sea. Jung,R., Orzol, J.,Tischner, T.,Jatho, R.,
Society of Petroleum Engineers, SPE and Kehrer, P. (2005) The geothermal
36916. project GeneSys – Results of massive
Flores, M.,Davies,D.,Couples,G., and waterfrac-tests in the Bunter sandstone
Palsson, B. (2005) Stimulation of geother- formation in the Northern German Basin.
mal wells. Can We Afford It? Proceedings Proceedings of the 30th Stanford Uni-
World Geothermal Congress April 24-29, versity workshop Geothermal Reservoir,
Antalya. January 31–February 2, 2005, Stanford.
Sanjuan, B., Lasne, E., and Brach, M. (2000) Wessling, S., Junker, R., Rutqvist, J., Silin,
Bouillante geothermal field (Guadeloupe, D., Sulzbacher, H., Tischner, T., and
West Indies): geochemical monitoring Tsang, C.-F. (2009) Pressure analysis of
during thermal stimulation operation. hydromechanical effects in a fractured
Proceedings of the Twenty-fifth Workshop tight sedimentary geothermal reservoir.
on Geothermal Reservoir Engineering, Geothermics, 38 (2), June, 211–226.
Stanford University, January 24-26, 2000,
Stanford.
Tester,J.W., Murphy,H.D., Grigsby, C.O., Case Study Gross Sch¨onebeck
Potter, R.M., and Robinson, B.A. (1989)
Bommer, J.J., Oates, S., Cepeda, J.M.,
Fractured geothermal reservoir growth
Lindholm, C., Bird, J., Torres, R.,
induced by heat extraction. SPE Reservoir
Marroqu´ ın, G., and Rivas, J. (2005) Con-
Engineering, 4, 97–104.
trol of hazard due to seismicity induced
by a hot fractured rock geothermal project.
Review Articles Representative Sites
Engineering Geology, 83 (4), 287–306.
Calcagno, P. and Sliaupa, S. (eds) (2008)
Bertini, G., Casini, M., Gianelli, G., and
Pandelli, E. (2006) Geological structure Enhanced Geothermal Innovative Net-
work for Europe: Proceedings of the
of a long-living geothermal system,
Engine Final Conference, February
Larderello, Italy. Terra Nova, 18 (3),
163–169. 12-15, 2008, Vilnius,BRGMEditions,
Orleans.ISBN 978-2-7159-2993-7, Collec-
tion Actes/Proceedings, ISSN 1773-6161.
Case Study Soultz Charlez, P., Lemonnier, P., Ruffet, C., and
Bout´ eca, M.J. (1996) Thermally Induced
Weidler, R., Gerard, A., Baria, R., and Jung, Fracturing: Analysis of a Field Case in
R. (2002) Hydraulic and microseismic North Sea. SPE, Paper No. 36916.
results of a massive stimulation test at Evans, K.F. (2005) Permeability creation and
5 km depth at the European Hot-Dry-Rock damage due to massive fluid injections
test site Soultz, France. Proceedings of the into granite at 3,5 km at Soultz: 2. Critical
