Hydraulic behavior of fault zones in pump tests of geothermal wells: a parametric analysis using numerical simulations for the Upper Jurassic aquifer of the North Alpine Foreland Basin

Hydraulic behavior of fault zones in pump tests of geothermal wells: a parametric analysis using numerical simulations for the Upper Jurassic aquifer of the North Alpine Foreland Basin

Fault zones in the Upper Jurassic aquifer of the North Alpine Foreland Basin are generally regions with possibly increased hydraulic properties. They are consequently often part of the geothermal exploration concepts in this area and a primary target for the drilling operation. Data from this aquife...

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Bibliographic Details
Published in:Geothermal energy (Heidelberg) Vol. 7; no. 1; pp. 1 - 28
Main Authors: Konrad, Florian, Savvatis, Alexandros, Wellmann, Florian, Zosseder, Kai
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 24-08-2019
Springer Nature B.V
SpringerOpen
Subjects:
Aquifer testing
Aquifers
Computer simulation
Dependence
Detection
Drilling
Earth and Environmental Science
Earth Sciences
Fault zone
Fault zones
Geoecology/Natural Processes
Geological faults
Geotechnical Engineering & Applied Earth Sciences
Geothermal energy
Geothermal exploration
Geothermal resources
Hydraulic properties
Hydraulics
Jurassic
Malm
Mathematical models
Matrix methods
Numerical models
Numerical simulation
Parameters
Parametric analysis
Parametric statistics
Parametric study
Permeability
Properties
Properties (attributes)
Pumping tests
Renewable and Green Energy
Tests
Well test analysis
Fault zone
Malm
Parametric study
Molasse Basin
Geothermal energy
Numerical simulation
Well test analysis
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Description
Summary:Fault zones in the Upper Jurassic aquifer of the North Alpine Foreland Basin are generally regions with possibly increased hydraulic properties. They are consequently often part of the geothermal exploration concepts in this area and a primary target for the drilling operation. Data from this aquifer, gathered in pump tests, however, show that only four out of 41 successful wells exhibit hydraulic proof for the presence of such a fault zone in terms of a bi-/linear flow regime. Besides technical effects, also the contrast in hydraulic properties itself, between fault zone and surrounding host rock, can prevent the detection of a fault zone in pump test data. This means a certain threshold has to be surpassed until its effects become clearly visible. A simplified realistic numerical model was constructed and calibrated with pressure data from an exploration site in the south of Munich. This model was then used to observe the presence of linear and bilinear flows in dependence on the Malm aquifers parameter space. Sampling the possible hydraulic property combinations with the help of an HPC (high-performance computing) cluster and automating the detection of the corresponding main flow type allowed to quantify the areas in parameter space where the fault zone-related flow regimes of interest are present. Through the investigation of more than 30,000 combinations between fault zone permeability, matrix permeability, fault zone storage, matrix storage and fault zone thickness, it was found that, in the parameter space of the Malm aquifer, a bilinear flow can be observed for the first time only if the matrix permeability is lower than 2.0 × 10 −13  m 2 , and a linear flow for matrix permeability values below 6.0 × 10 −14  m 2 . Additionally, it was shown that fault zones, which have better hydraulic properties than the surrounding matrix, can indeed be hidden in pumping tests due to the parameter setting.
ISSN:2195-9706
2195-9706
DOI:10.1186/s40517-019-0137-4