Petrophysical characterization, BIB-SEM imaging, and permeability models of tight carbonates from the Upper Jurassic (Malm ß), SE Germany

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

doi:10.1186/s40517-022-00239-x

Cited by 3 publications

(1 citation statement)

References 117 publications

(186 reference statements)

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“…SEM is commonly used to study the coal sample surface morphology and structure. An electron gun scans the surface with high-energy electrons, stimulating signal emissions such as secondary electrons . These signals, received by a photoelectric tube, are converted into visible light, forming the coal surface topography image. , A conductive metal powder layer is applied to enhance sample conductivity.…”

Section: Methodsmentioning

confidence: 99%

Quantitative Analysis of the Effect of NaClO Stimulation in Anthracite and Bituminous Coal with FTIR and LF-NMR

Chen,

Zhai,

et al. 2024

Energy Fuels

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Oxidant stimulation is increasingly used to enhance gas and oil production. Unlike acid stimulation, which dissolves minerals, oxidant stimulation modifies coal microstructures through reactions with the coal matrix. However, the stimulating effect of oxidation on coal lacks quantitative characterization. This study investigates the effects of NaClO stimulation on anthracite and bituminous coal microstructures. Various measurements, including LF-NMR, FTIR, SEM, and 3D-XRM, assess the physical and chemical changes in coal. Results indicate that NaClO stimulation significantly alters coal's molecular and porous structures. FTIR reveals notable changes in coal's chemical composition, such as increased hydroxyl groups, aromatic hydrocarbons, and oxygen functional groups with rising NaClO concentration, while aliphatic hydrocarbons decrease. Coal hydrophilicity and aromaticity gradually increase due to enhanced hydrogen bonds and aromatic structures. Four indexes (I, DOC, H al /H, and A(CH 2 )/A(CH 3 )) quantitatively characterize modifications in the four typical functional groups. LF-NMR T 2 spectra show an increase of over 50% in mesopore and macropore volume after 10% NaClO stimulation. Multiscale-fractal analysis yields fractal dimensions for adsorption pores, seepage pores, and microfractures. The fractal dimension of seepage pores decreases with rising NaClO concentration, while adsorption pores and microfractures do not exhibit fractal characteristics. Findings indicate that bituminous coal is more suitable than anthracite for NaClO oxidation stimulation to enhance permeability.

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Section: Methodsmentioning

confidence: 99%

Quantitative Analysis of the Effect of NaClO Stimulation in Anthracite and Bituminous Coal with FTIR and LF-NMR

Chen,

Zhai,

et al. 2024

Energy Fuels

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Fracturing and widening of grain boundary networks in quartz, plagioclase and olivine crystal aggregates during exhumation at low P-T conditions

Kruhl,

Griesshaber,

Schmahl

et al. 2024

Journal of Structural Geology

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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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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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Petrophysical characterization, BIB-SEM imaging, and permeability models of tight carbonates from the Upper Jurassic (Malm ß), SE Germany

Cited by 3 publications

References 117 publications

Quantitative Analysis of the Effect of NaClO Stimulation in Anthracite and Bituminous Coal with FTIR and LF-NMR

Quantitative Analysis of the Effect of NaClO Stimulation in Anthracite and Bituminous Coal with FTIR and LF-NMR

Fracturing and widening of grain boundary networks in quartz, plagioclase and olivine crystal aggregates during exhumation at low P-T conditions

Review of discrete fracture network characterization for geothermal energy extraction

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