| Titre | Using geodetic data in geothermal areas |
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| Auteur | Vasco, D W; Rutqvist, J; Jeanne, P; Samsonov, S V ; Hartline, C |
| Source | The Leading Edge vol. 39, issue 12, 2020 p. 845-924, https://doi.org/10.1190/tle39120883.1  Accès ouvert |
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| Année | 2020 |
| Séries alt. | Ressources naturelles Canada, Contribution externe 20200619 |
| Éditeur | The Society of Exploration Geophysicists |
| Document | publication en série |
| Lang. | anglais |
| DOI | https://doi.org/10.1190/tle39120883.1 |
| Media | papier; en ligne; numérique |
| Formats | pdf |
| Sujets | réseaux géodésiques; ressources géothermiques; ressources énergétiques; énergie géothermique; géologie économique; géologie de l'environnement; Sciences et technologie |
| Illustrations | modèles; cartes géomagnétiques; figures |
| Diffusé | 2020 12 01 |
| Résumé | (disponible en anglais seulement)
Geodetic observations, often in conjunction with other data, provide a cost-effective means for identifying and characterizing geothermal resources. A review of
the various methods reveals how the technology for measuring deformation has advanced considerably in the past few decades. Currently, interferometric synthetic aperture radar is the method of choice for monitoring deformation at a geothermal field.
A discussion of geodetic monitoring at The Geysers geothermal field, California, illustrates some of the progress made and the challenges that remain. |
| GEOSCAN ID | 327883 |
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