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Friction data of simulated fault gouges derived from the Groningen gas field
Hunfeld, Luuk; Niemeijer, André; Spiers, Christopher; (2017-12)
We investigated the frictional properties of simulated fault gouges derived from the main lithologies present in the seismogenic Groningen gas field (NE Netherlands), employing... -
Mechanical and microstructural data used in the article Pijnenburg et al., Deformation behaviour of sandstones from the seismogenic Groningen gas field: Role of inelastic versus elastic mechanisms
Pijnenburg, Ronald; Verberne, Berend; Hangx, Suzanne; Spiers, Christopher; (2015-05)
Hydrocarbon or groundwater production from sandstone reservoirs can result in surface subsidence and induced seismicity. Subsidence results from combined elastic and inelastic... -
Shallow compaction data of the Groningen gas field and other locations in the Netherlands – period 1970 to 2021.
van Eijs, Rob M.H.E.; van der Wal, Onno; (2022)
This dataset comprises shallow (0 to 400 meter) compaction data obtained in various locations across the Netherlands, including the large Groningen gas field in the NE... -
Frictional healing data from direct shear slide-hold-slide experiments performed on simulated fault gouges from the Groningen gas field
Hunfeld, Luuk Bernd; (2020)
We investigated the frictional strength recovery (healing) and subsequent reactivation and slip-weakening behaviour of simulated fault gouges derived from key stratigraphic... -
Friction and compaction data of simulated fault gouges derived from the Basal Zechstein caprock of the Groningen gas field
Hunfeld, Luuk Bernd; (2019)
We investigated the rate-and-state frictional properties of simulated anhydrite-carbonate fault gouge derived from the Basal Zechstein caprock overlying the seismogenic... -
Microstructural data used in “Drill core from seismically active sandstone gas reservoir yields clues to internal deformation mechanisms”
Verberne, Berend Antonie; Hangx, Suzanne J.T.; Pijnenburg, Ronald P.J.; Hamers, Maartje F.; Drury, Martyn R.; Spiers, Christopher J.; (2022)
Europe’s largest gas field, the Groningen field (the Netherlands), is widely known for induced subsidence and seismicity caused by gas pressure depletion and associated... -
In-situ Distributed Strain Sensing data from the Zeerijp-3a well of the Groningen gas field, Netherlands. Period 2015-2019.
Kole, Pepijn R.; (2021)
The Groningen gas field is the largest gas field in Europe. Gas production in this field has led to seismicity and surface subsidence, both believed to be caused by compaction... -
Data from seismic slip-pulse experiments simulating induced earthquake rupture in the Groningen gas field
Hunfeld, Luuk Bernd; (2021)
Rock materials show dramatic dynamic weakening in large-displacement (m), high-velocity (~1 m/s) friction experiments, providing a mechanism for the generation of large, natural... -
Data accompanying the paper entitled: "The Frictional Strength and Stability of Spatially Heterogeneous Fault Gouges"
Arts, Job P.B.; (2023)
We performed friction experiments on simulated gouges derived from the Ten Boer claystone and Slochteren sandstone members in the Groningen stratigraphy to test the effects of... -
Dynamic Model (Eclipse Version) to predict the formation pressure response to gas extraction in the Groningen gas field, The Netherlands
Tummala , Pradeep ; Landman, Anke Jannie ; van Elk, Jan; (2023)
The dynamic model of the Groningen gas field is used to predict the flow of water and gas in the reservoir and the areal distribution of reservoir pressure resulting from the... -
In-situ Distributed Strain Sensing (DSS) data from the Zeerijp-3a well in the Groningen gas field, the Netherlands. Period 2015-2021
Kole, Pepijn R.; van Eijs, Rob M.H.E.; (2022)
The Groningen gas field is the largest gas field in Europe. Gas production in this field has led to seismicity and surface subsidence, both believed to be caused by compaction... -
Core photographs of the Rotliegend reservoir of the Groningen gas field and surrounding areas
Visser, Clemens A.; Bokhorst, Karel; (2022)
The Groningen gas field is the largest gas field in Europe and has been showing seismicity since the 1990s. The ~200 meter deep gas reservoir is situated at ~3 km depth, and... -
Petrel geological model of the Groningen gas field, the Netherlands
Aardolie Maatschappij (NAM), Nederlandse; (2020)
Geological model and data of the Groningen gas field, the Netherlands, developed by the Nederlandse Aardolie Maatschappij (NAM) and distributed by the Dutch research...
