Implementation of Time-Lapse Gravity and Subsidence Monitoring for Optimising the Development of the Scarborough Gas Field

References

1. Agersborg, R., Hille, L.T., Lien, M., Lindgård, J. E., Ruiz, H., Vatshelle, M. [2017]. Density changes and reservoir compaction from in-situ calibrated 4D gravity and subsidence measured at the seafloor. SPE Annual Technical Conference and Exhibition, Extended abstracts, PSE-187224-MS.
   [Google Scholar]
2. Alnes, H., Stenvold, T. and Eiken, O. [2010]. Experiences on seafloor gravimetric and subsidence monitoring above producing reservoirs. 72nd EAGE Annual Conference and Exhibition, Extended abstracts, L010.
   [Google Scholar]
3. Alsos, T., Osdal, B., Haverl, M., Skeie, S., Sørensen, H. and Holdahl, R. [2024]. Gravity and 4D seismic monitoring data in history matching of the Snøhvit reservoir model. 85th EAGE Annual Conference & Exhibition, Extended Abstracts.
   [Google Scholar]
4. Borges, F., Basford, H., Calder, T., Lien, M., Vassvåg, S.C. and Ward, C. [2024]. Monitoring CO2 Storage in the Morecambe Depleted Gas Reservoirs through Seafloor Deformation and Time-Lapse Gravimetry Measurements. First Break, 42(3), 71–75.
   [Google Scholar]
5. Eiken, O., Stenvold, T, Zumberge, M., Alnes, H. and Sasagawa, G. [2008]. Gravimetric monitoring of gas production from the Troll field. Geophysics, 73(6), WA149–WA154.
   [Google Scholar]
6. Hatchell, P. and Bourne, S. [2005]. Rocks under strain: Strain-induced time-lapse time shifts are observed for depleting reservoirs. The Leading Edge, 24(12), 1222–1225.
   [Google Scholar]
7. Landrø, M. [2001]. Discrimination between pressure and fluid saturation changes from time-lapse seismic dataLandrø, M.. Geophysics, 66(3), 836–844.
   [Google Scholar]
8. Müller, T. M. and Gurevich, B. [2004]. One-dimensional random patchy saturation model for velocity and attenuation in porous rocks. Geophysics, 69(5), 1166–1172.
   [Google Scholar]
9. Ruiz, H., Lien, M., Vatshelle, M., Alnes, H., Haverl, M. and Serensen, H. [2022]. Monitoring the Snøhvit gas field using seabed gravimetry and subsidence. First Break, 40(3), 93–96.
   [Google Scholar]
10. Solbu, Ø. H., Nyvoll, A., Alnes, H., Vassvåg, S. C, Lien, M. and Ruiz, H. [2023]. Time-Lapse Gravity and Subsidence Applied in History Matching of a Gas-Condensate Field. First Break, 41(9), 69–74.
    [Google Scholar]
11. Van Opstal, G. [1974]. The effect of base-rock rigidity on subsidence due to reservoir compaction. Advances in rock mechanics. Proceedings of the Third Congress of the International Society for Rock Mechanics, 2B:1102-1111.
    [Google Scholar]
12. Van Thienen-Visser, K., Pruiksma, J.P and Breunese, J.N. [2015]. Compaction and subsidence of the Groningen gas field in the Netherlands. Proceedings of the International Association of Hydrological Sciences, 372, 367–373.
    [Google Scholar]
13. Vassvåg, S., Halpaap, F., Faust Andersen, C. and Jørgensen, L. [2025]. Twenty five years of monitoring the Troll gas and oil field with time-lapse gravity and seafloor deformation surveys. First Break, 43(3), 41–46. See page 41 of this issue.
    [Google Scholar]