Environmental Engineering Reference
In-Depth Information
Komatsu, R., Ikeuchi, K., Doi,N., Sasaki,M., Uchida, T. & Sasada, M. (1998). Characteristics
of the Quaternary Kakkonda granite and geothermal system clarified by fluid inclusion
study of deep investigation well, Kakkonda, Japan.
J. Geotherm. Res. Soc. Japan
20
,
209- 224 (in Japanese with English abstract).
Moore, J.N. & Gunderson, R.P. (1995). Fluid inclusion and isotopic systematics of an
evolving magmatic- hydrothermal stage.
Geochim. Cosmochim. Acta
59
,
3887-3907.
Moore, J.N., Lutz, S.J., Renner, J.L., McCulloch, J. & Petty, S. (2000). Evolution of a
volcanic-hosted vapor-dominated system: Petrologic and geochemical data from corehole
T-8, Karaha-Telaga Bodas, Indonesia.
Geotherm. Res. Council Trans.
24
,
24-27.
Muramatsu. Y. (1984). Fluid inclusion study in the Takinoue geothermal field, Iwate
prefecture, Japan: An application to the estimate of the present underground temperature.
Proc.6th New Zealand Geothermal Workshop,
21-25.
Muramatsu,Y. (1987). Distributions, paragenesis and fluid inclusions of hydrothermal
minerals in the Kakkonda geothermal field, Northeastern Japan.
J. Miner. Petr. Econ.
Geol.
82
,216-229 (in Japanese with English abstract).
Muramatsu,Y. (1993). Considerations on application of fluid inclusion geothermometry for
evaluation of geothermal well.
Geothermal Energy
61
,
90-103 (in Japanese with English
abstract).
Muramatsu, Y. & Komatsu. R. (1996). Fluid evolution in the Kakkonda shallow geothermal
reservoir, Iwate prefecture, Northeastern Japan: a fluid inclusion study.
J. Miner. Petr.
Econ. Geol.
91
,
145-161 (in Japanese with English abstract).
Muramatsu, Y. & Komatsu. R. (1999). Microthermometric evidence for the formation of Ca-
rich hypersaline brine and CO
2
-rich fluid in the Mori geothermal reservoir, Japan.
Resource Geol.
49
,
27-37.
Muramatsu, Y., Sawaki, T. & Arai, F.(2006). Geochemical study of fluid inclusions from the
western upflow zone of the Matsukawa geothermal system, Japan.
Geothermics,
35
123-140.
Muramatsu, Y., Komatsu. R., Sawaki.T. & Sasaki.M. (1997). Gas composition of fluid
inclusions from the Mori geothermal reservoir, Southwestern Hokkaido, Japan.
Resource
Geol.
47
,
283-291.
Muramatsu, Y., Komatsu. R., Sawaki.T., Sasaki.M. & Yanagiya,S. (2000). Geochemical
study of fluid inclusions in anhydrite from the Kakkonda geothermal system, northeast
Japan.
Geochemical J.
34
,
175-193.
Nakamura, H. (1967). Geothermal exploration and subsurface structure of Matsukawa area.
J.
Jap. Geotherm. Energy Assoc. (Chinetsu),
20
, 6-8 (in Japanese with English abstract).
New Energy and Industrial Technology Development Organization (1989). Report on
geothermal development research, development of method for reservoir assessment.
Nitta,T.,Suga,S.,Tsukagoshi,S. & Adachi,M.(1987). Geothermal resources in the Okuaizu,
Tohoku district, Japan.
J. Jap. Geotherm. Energy Assoc. (Chinetsu),
24
,
26-56 (in
Japanese with English abstract).
Oakes,C.S., Bodnar,R.J. & Simonsin,J.M.(1990). The system NaCl-CaCl
2
-H
2
O: I. The ice
liquidus at 1 atm total pressure.
Geochim. Cosmochim. Acta
54
,603-610.
Ozeki, H., Fukuda, D. & Okumura, T. (2001). Historical changes of geothermal reservoir
models at Matsukawa, Japan.
J. Jap. Geotherm. Energy Assoc. (Chinetsu),
167
,
339-368
(in Japanese with English abstract).
Search WWH ::
Custom Search