AP23489269 "Geotechnical monitoring of the geodynamic state of the geological and structural environment of a rock mass during subsurface development to ensure industrial reliability"

Relevance

An effective method of monitoring the condition of the mountain range and the OPP for assessing and predicting deformation processes during subsurface development based on integrative research and modeling of the VAT of the rock mass, which will significantly affect the adoption of operational and managerial decisions and measures for industrial reliability in the development of deposits

Purpose

Development of a comprehensive geomechanical monitoring methodology that will effectively monitor the geotechnical condition of the mountain range and predict deformation processes during development.

Expected and achieved results

Integrated monitoring of geotechnical and geodynamic processes, the condition of the rock mass, and surface subsidence, the methodology of modeling, and its effectiveness in evaluating and predicting industrial reliability during field development. Effective management and control over the development of geotechnical processes at the mineral deposit, aimed at improving safety levels during resource exploitation based on integrated research methods and tools. The scientific novelty of the project lies in the development of an integrated method that will allow for effective control over the stability of mining workings and enhance the safety level of resource extraction.

Research team members with their identifiers (Scopus Author ID, Researcher ID, ORCID, if available) and links to relevant profiles