SPE Annual Technical Conference and Exhibition 2015
DOI: 10.2118/174942-ms
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Geomechanical Analysis to Evaluate Production-Induced Fault Reactivation at Groningen Gas Field

Abstract: The Groningen Gas Field in Northern Netherlands is the largest gas field in Europe with production starting in 1963. Seismic events were first observed in 1986, but these were generally small with minimal damage. A government study concluded in early 1990’s that tremors were linked to gas production. The objective of the work described here is to utilize advanced geomechanical modeling to (i) characterize subsurface behavior related to production-induced fault reactivation, and (ii) evaluate alternate producti… Show more

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Cited by 16 publications
(14 citation statements)
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“…Mechanical models predicting moment evolution on faults (e.g. Van Wees et al, 2014;Sanz et al, 2015) allow us to place the delay of onset and observed increasing growth of seismic moment ( Fig. 3; Bourne et al, 2014) in a physical context.…”
Section: Fig 2 Geomechanical Model Approach Numbers Refer To Key Tmentioning
confidence: 99%
“…Mechanical models predicting moment evolution on faults (e.g. Van Wees et al, 2014;Sanz et al, 2015) allow us to place the delay of onset and observed increasing growth of seismic moment ( Fig. 3; Bourne et al, 2014) in a physical context.…”
Section: Fig 2 Geomechanical Model Approach Numbers Refer To Key Tmentioning
confidence: 99%
“…The gas field in Groningen is located in an urban area, and therefore controlling the subsidence and induced seismicity is an important issue from a public acceptance point of view. For this reason, subsidence and induced seismicity are both continuously monitored [e.g., Hettema et al, 2000Hettema et al, , 2002TNO, 2013] and numerically modeled [e.g., Van Wees et al, 2014;Sanz et al, 2015;Wassing et al, 2016;Orlic, 2016].…”
mentioning
confidence: 99%
“…However, for complex reservoirs, it is a major challenge to build geomechanical models, in particular if many faults need to be included (Koutsabeloulis & Zhang 2009;Lele et al 2016). This challenge emerges from the fact that the required topology of geomechanical FEM differs considerably from the topology of reservoir flow models (Cappa & Rutqvist 2011;Orlic & Wassing 2013;Sanz et al 2015;Lele et al 2016). Thus, one needs to create dedicated meshes for the geomechanical FEM, which require a very dense resolution at faults of approximately 5 m to be able to capture sharp stress variations caused by reservoir compaction or dilation (e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Visualization of the Octree (indicated by blueish colours) for the single-faulted reservoir model shown inFigure 1. The original cells of the reservoir have been clustered and subdivided, respectively far and close from the fault Wassing 2013;Sanz et al 2015…”
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confidence: 99%