Comparative petrophysical characterization, BIB-SEM imaging and permeability models of tight carbonates: Case study Upper Jurassic (Malm ß), N Bavaria

Freitag, Simon; Klaver, Jop; Malai, Iulian S.; Urai, János; Stollhofen, Harald; Bauer, Wolfgang; Schmatz, Joyce

doi:10.21203/rs.3.rs-1679323/v1

Cited by 2 publications

(3 citation statements)

References 68 publications

(121 reference statements)

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“…In a DFN framework for geothermal energy production, all the rock discontinuities need to be represented in the 3D domain even though not all of them are hydraulically active. In fact, inactive fractures can represent either boundaries that can influence the flow, or surfaces of mechanical weakness that play a role in the development of EGS systems of igneous and metamorphic origin (Caulk and Tomac, 2017;Förster et al, 2018;Freitag et al, 2022). Reliable models of 3D networks of fractures are fundamental in EGS systems to predict the new framework of rock discontinuities after the injecting of fluids at high pressure.…”

Section: Seismic Attributesmentioning

confidence: 99%

“…These geomechanical parameters must be determined on both intact and fractured samples. An intensively fractured geothermal reservoir is assumed being characterized by geomechanical parameters closer to the fissured samples selected from the core cuts (Villeneuve et al, 2018;Rosberg and Erlström, 2021;Freitag et al, 2022).…”

Section: Geomechanical Characterizationmentioning

confidence: 99%

“…Indeed, more elevated angles between the direction of the σ 1 and the fractures provide lower values of mechanical apertures due to interplays of dilatational and shear forces (Bisdom et al, 2016;. This information on the mechanical aperture need to inform DFN models (Romano et al, 2020;Rosberg and Erlström, 2021;Freitag et al, 2022). Recent and promising research focuses on determining the Young's modulus value directly from the reservoir studying the acoustic impedance from ATV logs; this approach is either alternative or integrative to geomechanical testing in the laboratory of cored samples (Raef et al, 2015;Roshan et al, 2023).…”

Section: Geomechanical Characterizationmentioning

confidence: 99%

See 2 more Smart Citations

Review of discrete fracture network characterization for geothermal energy extraction

Medici,

Ling,

Shang

2023

Front. Earth Sci.

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Geothermal reservoirs are highly anisotropic and heterogeneous, and thus require a variety of structural geology, geomechanical, remote sensing, geophysical and hydraulic techniques to inform Discrete Fracture Network flow models. Following the Paris Agreement on reduction of carbon emissions, such reservoirs have received more attention and new techniques that support Discrete Fracture Network models were developed. A comprehensive review is therefore needed to merge innovative and traditional technical approaches into a coherent framework to enhance the extraction of geothermal energy from the deep subsurface. Traditionally, statistics extracted from structural scanlines and unmanned aerial vehicle surveys on analogues represent optimum ways to constrain the length of joints, bedding planes, and faults, thereby generating a model of the network of fractures. Combining borehole images with seismic attributes has also proven to be an excellent approach that supports the stochastic generation of Discrete Fracture Network models by detecting the orientation, density, and dominant trends of the fractures in the reservoirs. However, to move forward to flow modelling, computation of transmissivities from pumping tests, and the determination of hydraulically active fractures allow the computation of the hydraulic aperture in permeable sedimentary rocks. The latter parameter is fundamental to simulating flow in a network of discrete fractures. The mechanical aperture can also be estimated based on the characterization of geomechanical parameters (Poisson’s ratio, and Young’s modulus) in Hot Dry Rocks of igneous-metamorphic origin. Compared with previous review studies, this paper will be the first to describe all the geological and hydro-geophysical techniques that inform Discrete Fracture Network development in geothermal frameworks. We therefore envisage that this paper represents a useful and holistic guide for future projects on preparing DFN models.

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Section: Seismic Attributesmentioning

confidence: 99%

Section: Geomechanical Characterizationmentioning

confidence: 99%

Section: Geomechanical Characterizationmentioning

confidence: 99%

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Review of discrete fracture network characterization for geothermal energy extraction

Medici,

Ling,

Shang

2023

Front. Earth Sci.

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CFD estimation of gas production in tight carbonates using single and dual-porosity models

Khadri,

Hussein,

Sadooni

et al. 2023

Sci Rep

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Tight Carbonate reservoirs are regarded as one of the most complex reservoir formations due to the heterogeneity and complexity of their mineral composition, pore structure, and storage model. It is uncommon to study the implementation of a transport model appropriate for such formation. Recent studies focused on tight reservoirs and developed models for shale or coal bed methane reservoirs. This study proposes a single and dual-porosity transport model that solely considers the tight matrix and acidized region to shed light on the transport models for tight carbonates. The numerical model included the effect of transport mechanisms such as Knudsen diffusion, desorption, and viscous flow. The proposed transport model includes the apparent permeability model defining these transport mechanisms. Finite element method analysis was conducted on the numerical model using COMSOL Multiphysics. Due to the presence of nanopores in both shale and tight Carbonate, transport models proposed for the former can be utilized to determine the fluid flow behavior in the latter. The adsorption isotherm, rock density, pore structure, porosity, and permeability of the tight carbonate reservoir, which contrasted with the shale results, were the defining features of the reservoir used in the transport model. The dual-porosity model yielded a peak production of 104,000 m3/day, whereas the proposed model represents a shallow production rate from the single-porosity reservoir. The results were validated with an analytical solution proposed in the literature. Based on the literature findings and the production profile, the desorption did not play a significant role in the total production due to calcite’s low affinity towards CH4.

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Comparative petrophysical characterization, BIB-SEM imaging and permeability models of tight carbonates: Case study Upper Jurassic (Malm ß), N Bavaria

Cited by 2 publications

References 68 publications

Review of discrete fracture network characterization for geothermal energy extraction

Review of discrete fracture network characterization for geothermal energy extraction

CFD estimation of gas production in tight carbonates using single and dual-porosity models

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