Broadband seismic source data acquisition and processing to delineate iron oxide deposits in the Blötberget mine‐central Sweden

Pertuz, Tatiana; Malehmir, Alireza; Bos, Jordan; Brodic, Bojan; Ding, Yinshuai; Kunder, Richard de; Marsden, P.

doi:10.1111/1365-2478.13159

Cited by 4 publications

(4 citation statements)

References 49 publications

(96 reference statements)

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“…In the 80s and 90s, the acquisition of sparse 2D seismic reflection data was the operative standard, and nowadays, many such datasets are released by industry for research purposes. Therefore, the reevaluation of these data can contribute to energy (geothermal) and mineral exploration research, as well as work on characterization of the subsurface for geological storage and seismotectonic studies (Malehmir et al, 2016;Schmelzbach et al, 2016;Ercoli et al, 2020;Malehmir et al, 2021;Pertuz et al, 2022), together with additional novel high-resolution data acquired using modern technologies FIGURE 2 CROP-04 normal incidence deep seismic reflection lines (stack) displayed over the entire length of the profile. The left (west) side, dominated by W-dipping reflections, is the central sector and focus of this work, characterized by investigation depth limited to ~6 s TWT; the right (east) side also exhibits steep W-dipping reflections.…”

Section: Background On Data Pre-conditioning Techniques and Seismic A...mentioning

confidence: 99%

Evidencing subtle faults in deep seismic reflection profiles: Data pre-conditioning and seismic attribute analysis of the legacy CROP-04 profile

et al. 2023

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Legacy seismic reflection data constitute infrastructure of tremendous value for basic research. This is especially relevant in seismically hazardous areas, as such datasets can significantly contribute to the seismotectonic characterization of the region. The quality of the data and the resulting image can be effectively improved by using modern tools, such as pre-conditioning techniques and seismic attributes. The latter are extensively used by the hydrocarbon exploration industry, but are still only poorly applied to the study of active faults. Pre-conditioning filters are effective in removing random noise, which hampers the detection of subtle geologic structures (i.e., normal faults). In this study, a workflow including pre-conditioning and extraction of seismic attributes is used to improve the quality of the CROP-04 deep seismic reflection profile. CROP-04 was acquired in the 1980s across the Southern Apennines mountain range, one of the most hazardous seismically active regions in Italy. The results show the capacity of this method to extract, from low-resolution legacy data, subtle seismic fabrics that correspond to a dense network of fault sets. These seismic signatures and the enhanced discontinuities disrupting the reflections, which were invisible in the original data, correlate well with the main regional normal faults outcropping at the surface. Moreover, the data reveal higher structural complexity, due to many secondary synthetic and antithetic structures, knowledge of which is useful in modeling of the local and regional distribution of the deformation and potentially in guiding future field mapping of active faults. This proposed approach and workflow can be extended to seismotectonic studies of other high-hazard regions worldwide, where seismic reflection data are available.

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Section: Background On Data Pre-conditioning Techniques and Seismic A...mentioning

confidence: 99%

Evidencing subtle faults in deep seismic reflection profiles: Data pre-conditioning and seismic attribute analysis of the legacy CROP-04 profile

et al. 2023

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“…Hematite deposits are less massive and their skarn host rock contains more quartz and feldspar. The mineralized bodies are intersected by mafic dikes and subvolcanic intrusions (Pertuz et al, 2021),…”

Section: Geologymentioning

confidence: 99%

Three-dimensional reflection seismic imaging of the iron oxide deposits in the Ludvika mining area, Sweden, using Fresnel volume migration

et al. 2022

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Abstract. We present pre-stack depth-imaging results for a case study of 3D reflection seismic exploration at the Blötberget iron oxide mining site belonging to the Bergslagen mineral district in central Sweden. The goal of the study is to directly image the ore-bearing horizons and to delineate their possible depth extension below depths known from existing boreholes. For this purpose, we applied a tailored pre-processing workflow and two different seismic imaging approaches, Kirchhoff pre-stack depth migration (KPSDM) and Fresnel volume migration (FVM). Both imaging techniques deliver a well-resolved 3D image of the deposit and its host rock, where the FVM image yields a significantly better image quality compared to the KPSDM image. We were able to unravel distinct horizons, which are linked to known mineralization and provide insights on their possible lateral and depth extent. Comparison of the known mineralization with the final FVM reflection volume suggests a good agreement of the position and the shape of the imaged reflectors caused by the mineralization. Furthermore, the images show additional reflectors below the mineralization and reflectors with opposite dips. One of these reflectors is interpreted to be a fault intersecting the mineralization, which can be traced to the surface and linked to a fault trace in the geological map. The depth-imaging results can serve as the basis for further investigations, drilling, and follow-up mine planning at the Blötberget mining site..

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“…Electromagnetic vibroseis is a kind of vibroseis driven by electromagnetic force. Land electromagnetic vibroseis is mainly used for high-resolution seismic exploration, including tunnel detection, mineral exploration, and detection of urban underground active structures [4][5][6]. Much research effort has been applied to the design of land electromagnetic vibroseis prototype.…”

Section: Introductionmentioning

confidence: 99%

Electromagnetic-mechanical coupling analysis and optimization method of electromagnetic vibroseis

Chen

Xing

Sun

et al. 2023

Meas. Sci. Technol.

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Electromagnetic vibroseis is an important seismic wave excitation device. At present, the research of electromagnetic vibroseis mainly focuses on application and prototype design, lacking research on electromagnetic-mechanical coupling. Analyzing the electromagnetic-mechanical coupling and optimizing the air gap magnetic field is of great significance to improve the excitation quality of low-frequency seismic waves. In this paper, the electromagnetic-mechanical coupling is analyzed by studying the parameter force factor, and two novel optimal designs of the air gap magnetic field are proposed. Firstly, the finite element model of the air gap magnetic field is established, and the influence of the force factor distribution curve on the vibration signal is analyzed by using the Gaussian function and parameter spline difference (PSD) method. Further, an asymmetrical axial dual-magnet design is proposed to enhance the radial magnetic induction intensity Βr in the air gap. The design of adding a radial magnet to the outer yoke is proposed to compensate for the nonlinearity of the Βr in the air gap. The simulation results show that the asymmetric axial dual-magnet structure increases the Βr by 22.2% compared with the axial single-magnet structure. Adding a radial magnet to the outer yoke reduces the amplitude ratio of the third harmonic to the fundamental wave from 23.24% to 4.66%. It is necessary to consider the influence of the height of the driving coils on the maximum displacement, force factor distribution curve, and harmonic distortion.

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Broadband seismic source data acquisition and processing to delineate iron oxide deposits in the Blötberget mine‐central Sweden

Cited by 4 publications

References 49 publications

Evidencing subtle faults in deep seismic reflection profiles: Data pre-conditioning and seismic attribute analysis of the legacy CROP-04 profile

Evidencing subtle faults in deep seismic reflection profiles: Data pre-conditioning and seismic attribute analysis of the legacy CROP-04 profile

Three-dimensional reflection seismic imaging of the iron oxide deposits in the Ludvika mining area, Sweden, using Fresnel volume migration

Electromagnetic-mechanical coupling analysis and optimization method of electromagnetic vibroseis

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