Productivity enhancement of geothermal wells through fault zones: Efficient numerical evaluation of a parameter space for the Upper Jurassic aquifer of the North Alpine Foreland Basin

Florian Konrad; Alexandros Savvatis; Denise Degen; Florian Wellmann; Florian Einsiedl; Kai Zosseder

doi:10.1016/j.geothermics.2021.102119

Productivity enhancement of geothermal wells through fault zones: Efficient numerical evaluation of a parameter space for the Upper Jurassic aquifer of the North Alpine Foreland Basin

Florian Konrad, Alexandros Savvatis, Denise Degen, Florian Wellmann, Florian Einsiedl, Kai Zosseder

Chair of Hydrogeology

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11 Scopus citations

Abstract

Fault zones (FZ) are major components of geothermal exploration concepts for the Southern German Upper Jurassic aquifer (UJA). Because these sections of possibly favorable hydraulic properties can be hidden in pumping test data, their explorational importance with respect to well productivity is still debated. In this work, the effect of hydraulically active FZ on the well-productivity-index (PI) is quantified in dependency of the UJA parameter space using numerical modeling and the Reduced Basis method. Results suggest that hidden FZ can increase PI significantly, while a hydraulically active FZ thickness of ≥ 100 m is unlikely for the Upper Jurassic aquifer.

Original language	English
Article number	102119
Journal	Geothermics
Volume	95
DOIs	https://doi.org/10.1016/j.geothermics.2021.102119
State	Published - Sep 2021

Keywords

Fault zone
Geothermal energy
Malm
Molasse basin
Numerical simulation
Parametric study
Pressure transient analysis
Productivity index
Reduced basis method

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10.1016/j.geothermics.2021.102119

Cite this

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title = "Productivity enhancement of geothermal wells through fault zones: Efficient numerical evaluation of a parameter space for the Upper Jurassic aquifer of the North Alpine Foreland Basin",

abstract = "Fault zones (FZ) are major components of geothermal exploration concepts for the Southern German Upper Jurassic aquifer (UJA). Because these sections of possibly favorable hydraulic properties can be hidden in pumping test data, their explorational importance with respect to well productivity is still debated. In this work, the effect of hydraulically active FZ on the well-productivity-index (PI) is quantified in dependency of the UJA parameter space using numerical modeling and the Reduced Basis method. Results suggest that hidden FZ can increase PI significantly, while a hydraulically active FZ thickness of ≥ 100 m is unlikely for the Upper Jurassic aquifer.",

keywords = "Fault zone, Geothermal energy, Malm, Molasse basin, Numerical simulation, Parametric study, Pressure transient analysis, Productivity index, Reduced basis method",

author = "Florian Konrad and Alexandros Savvatis and Denise Degen and Florian Wellmann and Florian Einsiedl and Kai Zosseder",

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journal = "Geothermics",

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T1 - Productivity enhancement of geothermal wells through fault zones

T2 - Efficient numerical evaluation of a parameter space for the Upper Jurassic aquifer of the North Alpine Foreland Basin

AU - Konrad, Florian

AU - Savvatis, Alexandros

AU - Degen, Denise

AU - Wellmann, Florian

AU - Einsiedl, Florian

AU - Zosseder, Kai

PY - 2021/9

Y1 - 2021/9

N2 - Fault zones (FZ) are major components of geothermal exploration concepts for the Southern German Upper Jurassic aquifer (UJA). Because these sections of possibly favorable hydraulic properties can be hidden in pumping test data, their explorational importance with respect to well productivity is still debated. In this work, the effect of hydraulically active FZ on the well-productivity-index (PI) is quantified in dependency of the UJA parameter space using numerical modeling and the Reduced Basis method. Results suggest that hidden FZ can increase PI significantly, while a hydraulically active FZ thickness of ≥ 100 m is unlikely for the Upper Jurassic aquifer.

AB - Fault zones (FZ) are major components of geothermal exploration concepts for the Southern German Upper Jurassic aquifer (UJA). Because these sections of possibly favorable hydraulic properties can be hidden in pumping test data, their explorational importance with respect to well productivity is still debated. In this work, the effect of hydraulically active FZ on the well-productivity-index (PI) is quantified in dependency of the UJA parameter space using numerical modeling and the Reduced Basis method. Results suggest that hidden FZ can increase PI significantly, while a hydraulically active FZ thickness of ≥ 100 m is unlikely for the Upper Jurassic aquifer.

KW - Fault zone

KW - Geothermal energy

KW - Malm

KW - Molasse basin

KW - Numerical simulation

KW - Parametric study

KW - Pressure transient analysis

KW - Productivity index

KW - Reduced basis method

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VL - 95

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ER -

Productivity enhancement of geothermal wells through fault zones: Efficient numerical evaluation of a parameter space for the Upper Jurassic aquifer of the North Alpine Foreland Basin

Abstract

Keywords

UN SDGs

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