| Code – Speciality |
7M07207 - Applied geomechanics |
| The aim of the educational program |
Training of highly qualified specialists in the field of geomechanics, capable of analyzing, modeling and predicting the mechanical behavior of rocks, soils and engineering structures
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| Graduate model |
| Graduate qualification |
Professional sphere:
The field of professional activity of graduates who have completed the program includes engineering support for human activities in the bowels of the Earth during operational exploration, extraction and processing of solid minerals, construction and operation of underground facilities for various purposes.Mining, construction, oil and gas industry, scientific research
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The object of professional occupation:
Coal mines, mines, quarries, underground structures of various functional purposes, enterprises related to the extraction and processing of minerals and man-made (man-made) raw materials, the creation and operation of underground space, mining on the surface of the Earth for hydraulic engineering, transport construction and other purposes, scientific research organizations |
Types of professional occupation:
Calculation and design, technical and economic;
Organizational and managerial;
Production, technological and operational;
Legal, expert and consulting |
Functions of professional occupation:
Conducting theoretical and applied research in the field of geomechanics, designing geomechanical monitoring systems in mining and construction facilities, implementing digital technologies and automated monitoring systems, managing projects related to geomechanical modeling and monitoring |
| Graduate competences map |
| Formed core competencies |
Program outcome |
| 1. Critical analysis, assessment and solution of professional tasks using communication skills, planning and organization of the management process. |
To solve organizational and managerial tasks taking into account the human factor in professional activity |
| Apply communication skills, strategies and tactics in solving professional tasks. |
| 2. The ability to use foreign languages fluently as a means of professional communication |
Apply professional terminology in a foreign language in communication and writing scientific papers, analyze and interpret scientific texts in the field of geomechanics |
| 3. Apply knowledge, understanding, and the ability to assess the stress-strain state of mountain ranges, predict geomechanical processes, and develop engineering solutions for safe mining. |
Be able to perform computational and analytical procedures for assessing and predicting the technical condition of technical devices. |
| 4. The use of digital technologies and software, knowledge of computer modeling methods of mechanical processes and the use of specialized software for calculating geomechanical processes |
Possess software tools for geomechanical calculations that provide highly accurate assessment of process parameters and stability of the array. |
| Be able to develop, configure, and use hardware systems to collect, process, and interpret monitoring data for geomechanical processes |
| 5. The ability to apply modern research methodologies in the field of geomechanics to analyze and predict the condition of a mountain range, the ability to develop and implement engineering solutions for monitoring and controlling geomechanical processes, the ability to analyze measurement results and draw informed conclusions |
To be familiar with modern methods and approaches used in scientific research in the field of geomechanics, including the basics of experimental and numerical methods |
| Know the rules of industrial safety for hazardous production facilities, the ability to apply current methods of monitoring the condition of the array |
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| Modular Curriculum |
| Base disciplines |
Profiling disciplines |
Additional types of study |
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