B622 – Engineering Hydrology (Floods and Droughts)

Modul
Engineering Hydrology (Floods and Droughts)
Engineering Hydrology (Floods and Droughts)
Modulnummer
B622
Version: 1
Fakultät
Bauingenieurwesen
Niveau
Master
Dauer
1 Semester
Turnus
Sommersemester
Modulverantwortliche/-r

Prof. Dr. rer. nat. Ulrike Feistel
ulrike.feistel(at)htw-dresden.de
Dozent/-in(nen)

Prof. Dr.-Ing. Thomas Grischek
thomas.grischek(at)htw-dresden.de
Dozent/-in in: "Engineering Hydrology (Floods and Droughts)"

Prof. Dr. rer. nat. Ulrike Feistel
ulrike.feistel(at)htw-dresden.de
Dozent/-in in: "Engineering Hydrology (Floods and Droughts)"
Lehrsprache(n)

Englisch
in "Engineering Hydrology (Floods and Droughts)"
ECTS-Credits

6.00 Credits

Workload

180 Stunden

Lehrveranstaltungen

5.00 SWS (2.00 SWS Vorlesung | 2.00 SWS Übung | 1.00 SWS Praktikum)
Selbststudienzeit

120.00 Stunden

Prüfungsvorleistung(en)

Beleg
in "Engineering Hydrology (Floods and Droughts)"

Protokolle
in "Engineering Hydrology (Floods and Droughts)"
Prüfungsleistung(en)

Schriftliche Prüfungsleistung
Modulprüfung | Prüfungsdauer: 90 min | Wichtung: 100% | wird in englischer Sprache abgenommen
in "Engineering Hydrology (Floods and Droughts)"
Lehrform

Lectures, seminars, practical, excursions
Medienform
Keine Angabe
Lehrinhalte/Gliederung

Lecture:

  • Hydraulic structures dimensioning
  • Design and construction of weirs, dykes, dams, reservoirs, retention basins and infiltration facilities
  • Restoration of streams
  • Hydrological modeling
  • Flood estimation and flood forecasting
  • Permanent and operational flood protection
  • Droughts
  • Irrigation and drainage

Seminar:

  • Hydrographers tasks
  • Calculation of hydrostatic/hydrodynamic forces, erosion and shear stress
  • Calculation of Irrigation schemes
  • Bank reinforcement tasks
  • Calculaton of seepage/infiltration rates

Practical:

  • Guelph permeameter test
  • Seepage line in dykes
  • Flow beneath hydraulic structures
Qualifikationsziele

Students will be familiar with checking and processing of hydrometrical data and learn basics of hydrological modeling. Students will understand the development of floods, flood forecasting and flood protection. They will know how to produce a flood map using GIS. They will also develop an understand the development and the impact of droughts. They will be able to apply recent procedures to evaluate hydraulic structures and to design basic irrigation and infiltration schemes.
Sozial- und Selbstkompetenzen
Keine Angabe
Besondere Zulassungsvoraussetzung
Keine Angabe
Empfohlene Voraussetzungen
Keine Angabe
Fortsetzungsmöglichkeiten
Keine Angabe
Literatur

Script
Aktuelle Lehrressourcen

Script
Hinweise
Keine Angabe
Link zu Kurs/Lernressourcen im OPAL
https://bildungsportal.sachsen.de/opal/auth/RepositoryEntry/29012951040
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