Page 131 - Geothermal Energy Systems Exploration, Development, and Utilization
P. 131
References 107
Helgeson, H.C., Kirkham, D.H., and and stimulation of a deep sedimentary
Flowers, G.C. (1981) Theoretical prediction geothermal reservoir. Scientific Drilling, 5,
of the behavior of aqueous electrolytes 47–49. doi: 10.2204/lodp.sd.5.09.2007.
at high pressures and temperatures: cal- Hunt, T.M., Allis, R.G., Balkeley, M.R., and
culation of activity coefficients, osmotic O’Sullivan, M.J. (1990) Testing reservoir
coefficients, and apparent molal, and stan-
simulation models for the Broadlands
dard and relative partial molal properties geothermal field using precision gravity
◦
to 600 Cand 5kb. American Journal of
data. Transactions – Geothermal Resources
Science, 281, 1249–1516.
Henley, R.W. and Ellis, A.J. (1983) Geother- Council, 14 (1-2), 1287–1294.
Hurter S. and Haenel R. (2002) Atlas of
mal systems, ancient and modern: a
geochemical review. Earth Science Review, Geothermal Resources in Europe. Eu-
19, 1–50. ropean Commission Office for Official
Henley, R.W., Truesdell, A.H., Barton, Publications of the European Communi-
P.B.Jr., and Whitney, J.A. (1984) ties, Luxemburg, 93 p.
Fluid-mineral equilibria in hydrother- Jaeger, J.C., Cook, N.G.W., and Zimmerman,
mal systems. Reviews in Economic Geology, R.W. (2007) Fundamentals of Rock Mechan-
1, 267. ics, 4th edn, Blackwell Publishing, Oxford.
Hillis, R.R. (1998) The influence of fracture Keary, P., Brooks, M., and Hill, I. (2002) An
stiffness and the in situ stress field on Introduction to Geophysical Exploration,3rd
the closure of natural fractures. Petroleum edn, Blackwell, 262 p.
Geoscience, 4, 57–65. Klein, C.W. (2006) Exploration Geochemistry.
Hillis, R.R. and Nelson, E.J. (2005) In situ GRC Exploration Workshop, GeothermEx,
stresses in the North Sea and their appli-
Inc., September 2006.
cations: petroleum geomechanics from
Klein, D.J. Sill, W.R., (1982) Electrical prop-
exploration to development, in Petroleum
erties of artificial clay-bearing sandstones.,
Geology: North-West Europe and Global Per- Geophysics, 47, 1593–1601.
spectives – Proceedings of the 6th Petroleum
Geology Conference (eds A.G. Dor´ eand Larsen, J.C., Mackie, R.L., Manzella, A.,
Fiordelisi, A., and Rieven, S. (1996) Ro-
B.A. Vining), Petroleum Geology Con-
ferences, Ltd, Geological Society, London, bust smooth magnetotelluric transfer
pp. 551–564. functions. Geophysical Journal Interna-
Hillis, R.R. and Reynolds, S.D. (2000) The tional, 124, 801–819.
Australian stress map. Journal of the Lichti, K.A. and Wilson, P.T. (1999) Corro-
Geological Society, London, 157, 915–921. sion in New Zealand geothermal systems.
Horita, J., Cole, D.R., and Wesolowski, D.J. Corrosion Reviews, 17, 181–203.
(1995) The activity-composition relation- Lisle, R.J. and Srivastava, D.C. (2004) Test of
ship of oxygen and hydrogen isotopes in the frictional reactivation theory for faults
aqueous salt solutions: III. Vapor-liquid and validity of fault-slip analysis. Geology,
water equilibration of NaCl solutions to 32, 569–572.
◦
350 C. Geochimica Cosmochimica Acta, Lumb, J.T. (1981) Prospecting for geothermal
59, 1139–1151.
resources, in Geothermal Systems: Princi-
Horita, J. and Wesolowski, D.J. (1994)
ples and Case Histories (eds L. Rybach and
Liquid-vapor fractionation of oxygen and
L.J.P. Muffler), John Wiley & Sons, Ltd,
hydrogen isotopes of water from the freez-
pp. 77–108.
ing to the critical temperature. Geochimica
MacBeth, C. (1999) Azimuthal variations
Cosmochimica Acta, 58, 3425–3437.
Hudson, J.A. (1981) Wave speeds and at- in P-wave signatures due to fluid flow.
tenuation of elastic waves in material Geophysics, 64 (4), 1181–1192.
containing cracks. Geophysical Journal Mackie, R.L., Smith, J.T., and Madden, T.R.
of the Royal Astronomical Society, 64, (1994) Three-dimensional electromag-
133–150. netic modeling using finite difference
Huenges, E. and Moeck, I., The Geothermal equations: the magnetotelluric example.
Project Group (2007) Directional drilling Radio Science, 29, 923–935.
