Groundwater dynamics
Description: The discipline is devoted to the study of the basic forms and patterns of groundwater movement in the Earth's crust, mastering methods for assessing hydrogeological parameters, resources and operational reserves of groundwater. This discipline should be the theoretical and methodological basis of hydrogeological calculations necessary to solve engineering problems of water use, drainage of solid mineral deposits, environmental protection.
Amount of credits: 5
Course Workload:
Types of classes | hours |
---|---|
Lectures | 15 |
Practical works | 30 |
Laboratory works | |
SAWTG (Student Autonomous Work under Teacher Guidance) | 30 |
SAW (Student autonomous work) | 75 |
Form of final control | Exam |
Final assessment method |
Component: Component by selection
Cycle: Profiling disciplines
Goal
- The discipline is a theoretical and methodological basis for hydrogeological calculations necessary to solve engineering problems of water use, drainage of solid mineral deposits, environmental protection.
Objective
- to learn the relationship of geological, hydrogeological, hydrodynamic and technogenic factors in the study of groundwater movement.
Learning outcome: knowledge and understanding
- Hydrogeological, physical and hydrodynamic foundations of groundwater movement
- methods of prospecting, exploration and evaluation of reserves of various types of groundwater;
Learning outcome: applying knowledge and understanding
- be able to carry out technical calculations on projects, technical-economic and functional-cost analysis of the effectiveness of projects
Learning outcome: formation of judgments
- to predict changes in hydrogeological and engineering-geological conditions under the influence of natural and man-made processes.
Learning outcome: communicative abilities
- possess methods of processing and synthesis of field and laboratory hydrogeological and engineering-geological information.
Learning outcome: learning skills or learning abilities
- To improve existing and introduce new technologies (specialized computer programs) for mastering the discipline.
Key reading
- Гавич И.К. Гидрогеодинамика. Учебник для ВУЗов. – М.: Недра, 1998. – 349 с.
- Климетов П.П., Кононов В.М. Динамика подземных вод. – М.: Высшая школа, 1985. – 384 с.
- Шестаков В.М., Кравченко В.П., Штенгелов Р.С. Практикум по динамике подзмных вод. – М.: изд-во МГУ, 1987. – 223 с.
- Бэр Я., Заславски Д., Ирмей С. Физико-математические основы фильтрации воды. – М.: Недра, 973. – 452 с.
- Ленченко Н.Н. Динамика подземных вод (теоретический курс). – М.: изд-во МГГУ, 2004. – 209 с.
Further reading
- Васильченко В.А., Масловская Е.Г. Методические указания к лабораторным работам по дисциплине «Динамика подземных вод». – Новочеркасск: изд-во ЮРГТУ, 2003. – 32 с
- https://davaiknam.ru/text/rabochaya-programma-po-kursu-dinamika-podzemnih-vod