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Further Reading 241
Mendez, A., Neumann, L.F.de, Templeton, C.C., Richardson, E.A.,
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sandstone-reservoir stimulation in deepwa- Petroleum Technology, 27, 1199–1203.
ter horizontal wells. BJ Services Company Thomas, R.L. and Crowe, C.W. (1978) Matrix
and Petrobras, 2005 SPE Annual Technical treatment employs new acid system for
Conference and Exhibition, October 9-12, stimulation and control of fines migra-
SPE 95826, Dallas. tion in sandstone formations. 53 rd SPE
Molina, P.O., Malate, R.C.M., Buning, Annual Technical Conference and Exhibi-
B.C., Yglopaz, D.M., Austria, J.J.C., and tion, October 1-3, SPE 7566, Houston.
Lacanilao, A.M. (1998) Productivity anal- Tuedor, F.E. (2006) A Breakthrough Fluid
ysis and optimization of well SK-2D, Technology in Stimulation of Sandstone
Mindanao I Geothermal Project Philip- Reservoirs, Schlumberger, SPE 98314.
pines. Proceedings of the 23rd Workshop Williams, B.B. (1979) Acidizing fundamen-
on Geothermal Reservoir Engineering, tals. New York and Dallas Society of
January 26-28, 1998, Stanford. Petroleum Engineers, European Formation
Morris, C.W., Verity, R.V., and Dasie, W. Damage Control Conference, SPE Mono-
(1984) Chemical stimulation treatment of graph No. 6, May 15-16, The Hague, the
a well in the Beowawe Geothermal Field. Netherlands.
Geothermal Resources Council Transactions,
Xie, T. (2004) A parametric study of sand-
8, 269–274.
stone acidizing using a fine-scale simu-
Mukherjee, H. and Cudney, G. (1993) Exten-
lator.Master of Science in Engineering,
sion of acid fracture penetration by drastic
University of Texas, Austin.
fluid loss control. Journal of Petroleum Xu, T., Ontoy, Y., Molling, P., Spycher,
Technology, 45 (2), 102–105. N., Parini, M., and Pruess, K. (2004)
Nami, P., Schindler, M., Tischner, R., Jung
Reactive transport modeling of injec-
T., and Teza, D. (2007) Evaluation of
tion well scaling and acidizing at Tiwi
stimulation operations and current
field, Philippines. Geothermics, 33 (4),
status of the deep soultz wells prior
477–491.
to power production. Proceedings of
EHDRA Scientific Conference, June 28-29, Post Stimulation Evaluation
Soultz-sous-Forˆ ets.
Paccaloni, G. and Tambini, M. (1990) Charlety, J., Cuenot, N., Dorbath,
Advances in matrix stimulation tech- L., Dorbath, C., Haessler, H., and
nology. 65th SPE Annual Technical Frogneux, M. (2007) Large earthquakes
Conference and Exhibition, September during hydraulic stimulations at the
23-26, New Orleans, SPE 20623. geothermal site of Soutz-sous-Forˆ ets. In-
Portier, S., Andr´ e, L., and Vuataz, F.-D. ternational Journal of Rock Mechanics and
(2007) Review on chemical stimulation Minning Sciences, 44, 1091–1105.
techniques in oil Industry and applications
to geothermal systems, a technical report
prepared for the EC-financed co-ordination Tracer Testing
project ENGINE (Enhanced Geother-
mal Innovative Network for Europe), Adams, M.C., Yamada, Y., Yagi, M.,
Work Package 4: Drilling, stimulation Kondo, T., and Wada, T. (2000) Stabil-
and reservoir assessment. CREGE-Centre ity of methanol, propanol, and SF6 as
for Geothermal Research, Neuchˆ atel, high-temperature tracers. World Geother-
Switzerland, November 2007. mal Congress, 3015–3019.
PTTC (2000) Well stimulation advances. Fukuda, D., Asanuma M., Hishi Y., and
Workshop Co-sponsored by PTTC’s North Kotanaka K. (2005) Alcohol tracer test-
Midcontinent Region and the Wichita ing at the Matsukawa vapour-dominated
Chapter of Society of Petroleum Engi- geothermal field, Northeast Japan. Pro-
neers, February 9, 2000, Wichita. ceedings of the 30th Workshop on
