Research methods in hydrology II 1900-3-MH2-HK
Lectures are dedicated to shoe various methods of calculation in hydrology
The introduction presents a complex pattern of water circulation in the catchment with different characteristics. Characteristic discharge, the pattern of the river network, and different physiographic charatersitcs are worked out.
Statistical methods with probability include Maximum reliable flood. Extension of hydrological series. Relationship between hydrological variables. Stochastic methods used for short time forecast.
Excercises are divided in the parts:
Analysis of cartographic sources and importance for results accuracy. On example of Horton laws for river network and forecast of the maximum discharge. Dat include DEM from lidar technology, topographic maps of 1:10K scale and hydrographic digital map of Poland. Results are prepared as an essay.
The second part covers long-term changes, an extension of the time series, Calculation of the discharge of a given probability of exceedance. Exercises with the use of digital data are done on ArcGIS on a basic level. Instructions are available on Kampus-2 platform
Effort of student
Lectures 20 %
Spatial data analysis in ArcGIS software 30 %
Calculations and graphs 20 %
Text description 10 %
Literature reading 5 %
Main fields of studies for MISMaP
environmental protection
Type of course
Mode
Prerequisites (description)
Course coordinators
Learning outcomes
K_W07, K_W09, K_W10, K_U02, K_U04, K_K01, K_K04
S4_W09, S4_W10, S4_U08, S4_U11, S4_K11
The student is familiar with
- hydrological terminology
- knows where to look for the data
- knows the sources of the errors due to a selection of the method and source data
- can evaluate the worth of the source data
- is able to interpret the calculation results
- has the knowledge on hydrological procedures necessary in preparation of reports.
Attitude
- it is necessary to follow procedures in experiments
- is able to evaluate the method and sources of the data
- is aware of limitations of computer models of the environment.
Assessment criteria
Requirements
- presence at the classes 20 % and final exam 80 %
the exam is oral at the end of classes nt later than the end of the semester
- exercises - continuous checking of presence and preparedness for the class 30 % and exercise marks 70 %
- it is possible to be 2 times absent without explanation. In case of more absences with an explained reason, it is possible to arrange the form of evaluation with the teacher. Exercises should be completed one week before the end of the semester. The final mark is average from exercises and essays.
Bibliography
Byczkowski A., 1996, Hydrologia, t. II, Wyd. SGGW Warszawa.
Ozga-Zielińska M., Brzeziński J., 1994, Hydrologia stosowana. Wyd. Nauk. PWN, Warszawa
Zlewnia właściwości i procesy, 2003,. (red.) J. Pociask-Karteczka, Wyd. IG iGP UJ, Kraków
Predykcja opadów i wezbrań o zadanym czasie powtarzalności, 1997, (red. U. Soczyńska) Wyd. WGSR UW, Warszawa
Rola retencji w kształtowaniu wezbrań opadowych,2003, (red.) M. Gutry-Korycka, B. Nowicka, U. Soczyńska, Wyd. UW, Warszawa
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
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