Page 130 - Geothermal Energy Systems Exploration, Development, and Utilization

P. 130

106 2 Exploration Methods
by the University of Texas at E1 Paso, R.Scarpa and R.I. Tilling), Springer,
E1 Paso, Texas 79968-0637, USA.), pp. pp. 221–256.
45–61. Giggenbach, W.F. (1997a) The ori-
Fournier, R.O. (1991) Water geothermome- gin and evolution of ﬂuids in
ters applied to geothermal energy, in magmatic-hydrothermal systems, in Geo-
Application of Geochemistry in Geother- chemistry of Hydrothermal Ore Deposits (ed.
mal Reservoir Development (F. D’Amore, H.L.Barnes), John Wiley & Sons, Inc.,
co-ordinator), UNITAR, pp. 37–69. pp. 737–796.
Fournier, R.O. and Potter, R.W. (1979) Goff, F. and Janik, C.J. (2000) Geothermal
Magnesium correction to the Na-K-Ca systems, in Encyclopedia of Volcanoes (eds
chemical geothermometer. Geochimica H. Sigurdsson, B. Houghton, S. McNutt,
Cosmochimica Acta, 43, 1543–1550. H.Rymer,and J.Stix),AcademicPress,
Fournier, R.O. and Rowe, J.J. (1977) The San Diego, pp. 817–834.
solubility of amorphous silica in water at Gudmundsson, A. (1999) Fluid overpressure
high temperatures and high pressures. and stress drop in fault zones. Geophysical
American Mineralogist, 62, 1052–1056. Research Letter, 26 (1), 115–118.
Fournier, R.O. and Truesdell, A.H. (1973) Gudmundsson, A. (2000) Active faults and
An empirical Na-K-Ca geothermometer for groundwater ﬂow. Geophysical Research
natural waters. Geochimica Cosmochimica Letter, 27 (18), 2993–2996.
Gudmundsson, A., Fjeldskaar, I., and
Acta, 37, 1255–1275.
Brenner, S.L. (2002) Propagation path-
Gamble, T.D., Goubau, W.M. et al. (1979)
ways and ﬂuid transport in jointed and
Magnetotellurics with a remote magnetic
layered rocks in geothermal ﬁelds. Journal
reference. Geophysics, 44, 53–68.
of Volcanology and Geothermal Research,
Giggenbach, W.F. (1980) Geothermal gas
116, 257–278.
equilibria. Geochimica Cosmochimica Acta, Guidi, M., Marini, L., Scandifﬁo, G., and
44, 2021–2032.
Giggenbach, W.F. (1984) Mass transfer Cioni, R. (1990) Chemical geothermometry
in hydrothermal aqueous solutions: the
in hydrothermal alterations systems.
inﬂuence of ion complexing. Geothermics,
Geochimica Cosmochimica Acta, 48,
19, 415–441.
2693–2711. Gunnarsson, I. and Arnorsson, S. (2005)
Giggenbach, W.F. (1988) Geothermal so- Impact of silica scaling on the efﬁciency of
lute equilibria. Derivation of Na-K-Mg-Ca heat extraction from high-temperature
geoindicators. Geochimica Cosmochimica geothermal ﬂuids. Geothermics, 34,
Acta, 52, 2749–2765.
320–329.
Giggenbach, W.F. (1991a) Chemical tech-
Han, N., Nam, M.J., Kim, H.J., Song,
niques in geothermal exploration, in
Y., and Suh, J.H. (2009) A compari-
Application of Geochemistry in Geother-
son of accuracy and computation time
mal Reservoir Development (F. D’Amore, of three-dimensional magnetotelluric
co-ordinator), UNITAR, pp. 119–144. modelling algorithms. Journal of Geo-
Giggenbach, W.F. (1991b) Isotopic com- physical Engineering, 6, 136–145. doi:
position of geothermal water and steam 10.1088/1742-2132/6/2/005.
discharges, in Application of Geochem- Heald, P., Foley, N.K., and Hayba,
istry in Geothermal Reservoir Development D.O. (1987) Comparative anatomy of
(F. D’Amore, co-ordinator), UNITAR, volcanic-hosted epithermal deposits:
pp. 253–273. acid-sulfate and adularia-sericite deposits.
Giggenbach, W.F. (1992a) Isotopic shifts Economic Geology, 82, 1–26.
in waters from geothermal and volcanic Heise, W., Caldwell, T.G., Bibby, H.M., and
systems along convergent plate bound- Bannister, S.C. (2008) Three-dimensional
aries and their origin. Earth and Planetary modelling of magnetotelluric data from
Science Letters, 113, 495–510. the Rotokawa geothermal ﬁeld, Taupo
Giggenbach, W.F. (1996) Chemical com- Volcanic Zone, New Zealand. Geophysical
position of volcanic gases, in Monitoring Journal International, 173 (2), 740–750.
and Mitigation of Volcano Hazards (eds doi: 10.1111/j.1365-246X.2008.03737.x.

125 126 127 128 129 130 131 132 133 134 135