Modeling contribution to risk assessment of thermal production power for geothermal reservoirs

Abstract We analyze the likelihood of success for heat production strategies in a sandstone reservoir in the north-eastern German basin in a depth of about 2 km by simulating both double and single well configurations. For this test case study we use an exploited oil and gas field. We combine seismic interpretation, numerical modeling, and stochastic estimation of rock properties to predict the transient temperature and pressure variations and their uncertainties in a geothermal reservoir. We demonstrate the essential necessity in geothermal reservoir modeling to account for heterogeneity of rock properties. We use 3D seismic data and stratigraphy data from about 100 wells at 1500 m – 2500 m depth for setting up a 3D stratigraphic model. Rock properties are assigned to this model by a Monte Carlo approach using Sequential Gaussian Simulation. Using 3D inversion of temperature data obtained in the wells we estimate a specific heat flow of 77.7 mW m −2  ± 1.2 mW m −2 at 6 km depth, in agreement with a temperature of 87.1 °C ± 1.8 K in the Rhaetian sandstone target layer at a depth of ∼2 km. For different types of potential geothermal well installations inside the Rhaetian sandstone layer the probability of success is just 1.6%.

[2]  Distribution of thermal conductivities in the Groß Schönebeck (Germany) test site based on 3D inversion of deep borehole data , 2010 .

[3]  Christian Vogt,et al.  Stochastic inversion of the tracer experiment of the enhanced geothermal system demonstration reservoir in Soultz-sous-Forêts — Revealing pathways and estimating permeability distribution , 2012 .

[4]  H. Vosteen,et al.  The thermal regime of the Northeastern-German Basin from 2-D inversion , 2004 .

[5]  Ben Norden,et al.  Heat flow and lithospheric thermal regime in the Northeast German Basin , 2008 .

[6]  R. Walter Geologie von Mitteleuropa , 2007 .

[7]  Clayton V. Deutsch,et al.  GSLIB: Geostatistical Software Library and User's Guide , 1993 .

[8]  H. M. Bücker,et al.  Joint three-dimensional inversion of coupled groundwater flow and heat transfer based on automatic differentiation: sensitivity calculation, verification, and synthetic examples , 2006 .

[9]  Kurt J. Marfurt,et al.  Eigenstructure-based coherence computations as an aid to 3-D structural and stratigraphic mapping , 1999 .

[10]  Darius Mottaghy,et al.  The geothermal project Den Haag: 3D numerical models for temperature prediction and reservoir simula , 2011 .

[11]  D. W. Peaceman Interpretation of well-block pressures in numerical reservoir simulation with nonsquare grid blocks and anisotropic permeability , 1983 .

[12]  Olaf Kolditz,et al.  Variable-density flow and transport in porous media: approaches and challenges , 2002 .

[13]  P. Bakker,et al.  Image structure analysis for seismic interpretation , 2002 .

[14]  C. Clauser Thermal Storage and Transport Properties of Rocks, II: Thermal Conductivity and Diffusivity , 2021, Encyclopedia of Solid Earth Geophysics.

[15]  David Deming,et al.  Application of bottom-hole temperature corrections in geothermal studies , 1989 .

[16]  J. H. Doveton,et al.  FAST MATRIX METHODS FOR THE LITHOLOGICAL INTERPRETATION OF GEOPHYSICAL LOGS , 1979 .

[17]  L. Rybach,et al.  A simple method to determine heat production from gamma-ray logs , 1996 .

[18]  Christoph Clauser,et al.  Numerical simulation of reactive flow in hot aquifers : SHEMAT and processing SHEMAT , 2003 .

[19]  M. Sambridge,et al.  Monte Carlo analysis of inverse problems , 2002 .

[20]  Reiner Jatho,et al.  New Concepts for Extracting Geothermal Energy from One Well: The GeneSys-Project , 2010 .

[21]  D. Horner,et al.  Pressure Build-up in Wells , 1951 .

[22]  Wolfram Rühaak,et al.  Detecting thermal anomalies within the Molasse Basin, southern Germany , 2010 .

[23]  Christoph Clauser,et al.  Anhydrite cementation and compaction in geothermal reservoirs : Interaction of pore-space structure with flow, transport, P-T conditions, and chemical reactions , 2005 .

[24]  Darius Mottaghy,et al.  Reducing temperature uncertainties by stochastic geothermal reservoir modelling , 2010 .

[25]  Wolfram Rühaak,et al.  3D finite volume groundwater and heat transport modeling with non-orthogonal grids, using a coordinate transformation method , 2008 .

[26]  Olaf Kolditz,et al.  Uncertainty analysis of thermo-hydro-mechanical coupled processes in heterogeneous porous media , 2010 .