| 1 |
Evolution of deep parent fluids of geothermal fields in the Nimu-Nagchu geothermal belt, Tibet, China
Wang X, Wang GL, Lu C, Gan HN, Liu Z
Geothermics, 71, 118, 2018 |
| 2 |
An ideal geothermometer in slate formation: A case from the Chingshui geothermal field, Taiwan
Huang YH, Liu HL, Song SR, Chen HF
Geothermics, 74, 319, 2018 |
| 3 |
Shear stress in the graphitization of carbonaceous matter during the low-grade metamorphism from the northern Parang Mountains (South Carpathians) - Implications to graphite geothermometry
Barzoi SC
International Journal of Coal Geology, 146, 179, 2015 |
| 4 |
Integrated multicomponent solute geothermometry
Spycher N, Peiffer L, Sonnenthal EL, Saldi G, Reed MH, Kennedy BM
Geothermics, 51, 113, 2014 |
| 5 |
Optimized multicomponent vs. classical geothermometry: Insights from modeling studies at the Dixie Valley geothermal area
Peiffer L, Wanner C, Spycher N, Sonnenthal EL, Kennedy BM, Iovenitti J
Geothermics, 51, 154, 2014 |
| 6 |
Temperature evaluation of the Bugok geothermal system, South Korea
Park SS, Yun ST, Chae GT, Hutcheon I, Koh YK, So CS, Choi HS
Geothermics, 35(4), 448, 2006 |
| 7 |
A new improved Na/K geothermometer by artificial neural networks
Can I
Geothermics, 31(6), 751, 2002 |
| 8 |
The thermal springs of Bockfjord, Svalbard: Occurrence and major ion hydrochemistry
Banks D, Sletten RS, Haldorsen S, Dale B, Heim M, Swensen B
Geothermics, 27(4), 445, 1998 |
| 9 |
THE GEOTHERMAL AREA OF EL-PILAR-CASANAY, STATE OF SUCRE, VENEZUELA - GEOCHEMICAL-EXPLORATION AND MODEL
DAMORE F, GIANELLI G, CORAZZA E
Geothermics, 23(3), 283, 1994 |
