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Natalya A. Danileva
Natalya A. Danileva
Associate Professor, Ph.D., Associate Professor
Empress Catherine II Saint Petersburg Mining University
Associate Professor, Ph.D., Associate Professor
Empress Catherine II Saint Petersburg Mining University
Saint Petersburg
Russia

Articles

Geotechnical Engineering and Engineering Geology
  • Date submitted
    2023-04-06
  • Date accepted
    2023-12-27
  • Online publication date
    2024-03-13
  • Date published
    2024-04-25

Localization of sites for the development of geomechanical processes in underground workings based on the results of the transformation and classification analysis of seismic data

Article preview

The paper considers an approach to localizing the intervals of development of geomechanical processes in underground structures based on the classification and transformation of seismic data. The proposed approach will make it possible to identify the intervals of fracturing, rock decompression, water inflow and other geomechanical processes when interpreting the results of seismic surveys. The technique provides for the formation of matrices of longitudinal (Vp), transverse (Vs) velocities and velocity ratios (Vs/Vp) along the research profile to perform sequential filtration. The filtration results serve as the basis for the formation of a bank of informative materials for further classification. Based on the domestic KOSKAD 3D software, four approaches have been implemented for a combined digital model of the Vp, Vs and Vs/Vp parameters. One of the key elements in the classification process is to combine grids to increase the probability of detecting intervals with heterogeneous identification features. The result of the application of this methodical approach is the construction of a comprehensive interpretative model, on which potential zones of geomechanical risks development are clearly manifested.

How to cite: Danilev S.M., Sekerina D.D., Danileva N.A. Localization of sites for the development of geomechanical processes in underground workings based on the results of the transformation and classification analysis of seismic data // Journal of Mining Institute. 2024. Vol. 266. p. 260-271. EDN IEWVBO
Geology
  • Date submitted
    2021-03-16
  • Date accepted
    2021-07-27
  • Date published
    2021-09-29

Allocation of a deep-lying brine aquifer in the rocks of a chemogenic section based on the data of geophysical well logging and 2D seismic exploration

Article preview

Advancement in the production of potassium fertilizers is an important strategic task of Russian agricultural industry. Given annually growing production rates, the reserves of discovered potassium-magnesium salt deposits are noticeably decreasing, which creates the need to ensure stable replenishment of the resource base through both the discovery of new deposits and the exploitation of deep-lying production horizons of the deposits that are already under development. In most cases, deposits of potassium-magnesium salts are developed by underground mining. The main problem for any salt deposit is water. Dry salt workings do not require any additional reinforcement and can easily withstand rock pressure, but with an inflow of water they begin to collapse intensively – hence, special attention is paid to mine waterproofing. Determination of spatial location, physical and mechanical properties of the aquifer and water-blocking stratum in the geological section represent an important stage in the exploration of a salt deposit. The results of these studies allow to validate an optimal system of deposit development that will minimize environmental and economic risks. On the territory of Russia, there is a deposit of potassium-magnesium salts with a unique geological structure – its production horizon lies at a considerable depth and is capped by a regional aquifer, which imposes significant limitations on the development process. To estimate parameters of the studied object, we analyzed the data from CDP seismic reflection survey and a suite of methods of radioactive and acoustic well logging, supplemented with high-frequency induction logging isoparametric sounding (VIKIZ) data. As a result of performed analysis, we identified location of the water-bearing stratum, estimated average thickness of the aquifers and possible water-blocking strata. Based on research results, we proposed methods for increasing operational reliability of the main shaft in the designed mine that will minimize the risks of water breakthrough into the mine shaft.

How to cite: Danileva N.A., Danilev S.M., Bolshakova N.V. Allocation of a deep-lying brine aquifer in the rocks of a chemogenic section based on the data of geophysical well logging and 2D seismic exploration // Journal of Mining Institute. 2021. Vol. 250. p. 501-511. DOI: 10.31897/PMI.2021.4.3