Numerical Modelling in Fluvial, Coastal, Estuarine and Marine Environment

Course content

Using practical PC-based exercises, this course aims to provide students with a theoretical knowledge on detailed hydrodynamic and geomorphic processes related to the transport of sediment in fluvial and coastal environments. The course consists of two main parts: 1) Calculation and numerical modelling of water flow, sediment transport and morphological change in fluvial and estuarine environments using the DHI-MIKE HYDRO model complex; 2) Calculation and numerical modeling of wave-driven flows, sediment transport, shoreline erosion and cross-shore profile development in coastal environments, using the DHI-LITPACK model complex.

Education

MSc Programme in Geography and Geoinformatics
MSc Programme in Geography and Geoinformatics with a Minor Subject
MSc Programme in Geology-Geoscience

Learning outcome

Knowledge:

Waves and currents in coastal environments, wave theories, unidirectional currents and discharge in rivers, sediment dynamics and sediment transport in coastal and fluvial environments, relationship between sediment transport gradients and morphological change.

Skills:
 

  • use numerical modelling to simulate hydrodynamics and sediment transport using the DHI modelling tools MIKE HYDRO and LITPACK.
  • delimit, prepare and accomplish solutions of fluvial problem complexes using MIKE HYDRO
  • account for the principles behind nearshore wave transformation and ability to calculate those transformations using MATLAB
  • account for nearshore processes derived from wave transformations
  • delimit, prepare and accomplish solutions of coastal and marine problem complexes using LITPACK
  • critical model evaluation
  • necessary basic skills to use other models within the DHI model complex such as MIKE FLOOD and MIKE21
     

Competences:

Analyse, assess and apply results, methods, theory and data in connection with numerical modelling in the fluvial, coastal, estuarine and marine environments.

The form of teaching is exercises combined with ad hoc lectures. For the teaching plan, please see Absalon.

Please see Absalon course page.

BSc in Geography and Geoinformatics or equivalent is resommended

ECTS
7,5 ECTS
Type of assessment
Written assignment, during course
Oral examination, 20 minutes
The written assignment is prepared during the course and must be handed in prior to the exam week. The oral exam uses the written assignment as its point of departure. It includes the titles listed in the officially approved reading list. A combined grade is given after the oral exam.
Aid
Without aids
Marking scale
7-point grading scale
Censorship form
No external censorship
Several internal examiners
Criteria for exam assessment

Please see learning outcomes.

Single subject courses (day)

  • Category
  • Hours
  • Theory exercises
  • 35
  • Project work
  • 35
  • Preparation
  • 136
  • English
  • 206