Hydrological processes and phenomena 1300-OPZH-GGG

The lecture is intended to familiarize students with such issues as:
- Hydrological cycle and elements of water balance in environment,
- Laws and processes governing the flow of liquids - properties of liquids determining the type of flow, flow in open and closed channels, flow regime according to Reynolds and Froud criteria, laminar and turbulent flow, rapid (supercritical) and calm (subcritical) flow, Bernoulli's equation for an ideal and real fluid.
- Hydrodynamic and hydrochemical processes occurring in surface waters and in the zone of their contact with groundwater, the role of the hyporheic zone,
- The nature of hydraulic contacts within various hydrological objects: rivers, lakes and wetlands (groundwater-dependent ecosystems).
- Types of surface and groundwater interactions in various geomorphological and climatic conditions: river valleys, mountain areas, coastal zones of seas and oceans, karst, desert and dune areas.
- Seasonal variability of hydrological processes in temperate climate conditions and in the light of progressing climate changes (droughts and floods).
- The river basin as a system and as an elementary unit of hydrological research.
- Methods of field and laboratory measurements and calculations of the magnitude of processes such as: precipitation, infiltration, runoff, evapotranspiration, evaporation, retention.
- Human impact on water relations - the role of agriculture, melioration, urbanization (urban and industrial areas), hydrotechnical and flood protection structures and mining in transforming the quantity and quality of surface and underground waters and their natural relationships.

Classes are dedicated to the practical application of field, laboratory and digital methods for the quantitative assessment of selected elements of the catchment water balance.
- Application of graphical (GIS) and calculation methods to assess the amount of average annual precipitation in the catchment area (Thiessen method, isohet method),
- Determination of the amount of effective infiltration using the indicator method (GIS) and the groundwater table fluctuation method (field experiment at the WG station),
- Quantity assessment of underground runoff from the catchment area - hydrograph analysis method (BFI+, FlowComp programs), Kille method, Wundt method,
- Environmental flow assessment according to the hydrobiological criterion - Kostrzewa's method,
- Evaluation of field evaporation - methods of Konstantinow, Thornthwait, Turec,
- Hydrogeological laboratory - Reynolds experiment to assess the flow regime,
- Fieldwork in the Warsaw area (depending on organizational and technical capabilities) - flow rate measurements in the small river, assessment of the functionality of retention devices in the urban area.