Christian Doppler Labor: Innovative Methoden in Fließgewässermonitoring, Modellierung und Flussbau
- Wasser - Atmosphäre - Umwelt
- Forschungscluster "Landschaft & Entwicklung"
- Forschungscluster "Nachhaltigkeit"
Abstract
The Christian Doppler Laboratory for Advanced methods in river monitoring, modelling and engineering aims to improve the understanding of processes in rivers, to design mathematical models for simulating river processes and to predict the consequences of engineering measures as well as to develop river engineering methods for improving navigation, ecology and flood protection. The work is conducted in three modules: Module I: River Monitoring: New monitoring methods such as Acoustic Doppler Velocimetry, Radiotracer, Multibeam Echosounder and shear stress plates will be combined, further developed and applied, in order to improve the understanding of river processes, the calibration and validation of mathematical models and monitoring programs and the optimisation for practical usage by UWITEC and via donau. Module II: River Modelling: Multidimensional mathematical models will be planned and designed for simulating hydrodynamics, sediment transport, river morphodynamics as well as ecological processes through habitat modelling for later use in river engineering projects by via donau. Thereby data from Module 1 form the basis for model calibration and validation and the results enter Module III. Module III: River Engineerung and management: The development and implementation of innovative river engineering measures are based on monitoring (Module I) and modelling (Module II) results and rely on an improved process understanding. By the realization of the optimized measures via donau will be contributing significantly to the economic development along the Danube river as international waterway as well as to the improvement of the ecological status. Building on existing monitoring equipment, models and experiences with the implementation of river engineering measures cutting-edge research can be performed both to advance the current state of knowledge on river monitoring and modelling and to foster the collaboration with the industrial partners on modern applied river engineering and management.
Publications
Innovative Methoden zum Geschiebemonitoring am Beispiel der Donau
Autoren: Liedermann, M; Gmeiner, P; Niederreiter, R; Tritthart, M; Habersack, H Jahr: 2012
Journal articles
Innovationen in der Modellierung von Sedimenttransport und Morphodynamik basierend auf dem Simulationsmodell iSed
Autoren: Tritthart, M; Liedermann, M; Klösch, M; Habersack, H Jahr: 2012
Journal articles
Optimierung der Habitatmodellierung an großen Fließgewässern unter Berücksichtigung von flussmorphologischen Prozessen auf unterschiedlichen Skalen
Autoren: Hauer, C; Keckeis, H; Tritthart, M; Liedermann, M; Habersack, H Jahr: 2012
Journal articles
Channel incision at the Danube River east of Vienna: verifying bed-load transport rates by different methods
Autoren: Tritthart, M., Liedermann, M., Habersack, H. Jahr: 2012
Conference & Workshop proceedings, paper, abstract
external links and characteristics of the publication:
Project staff
Helmut Habersack
Univ.Prof. Dipl.-Ing. Dr.nat.techn. Dr.h.c. Helmut Habersack
helmut.habersack@boku.ac.at
Tel: +43 1 47654-81901, 81911
Project Leader
01.05.2010 - 30.04.2017
Marlene Haimann
Dipl.-Ing. Marlene Haimann
marlene.haimann@boku.ac.at
Tel: +43 1 47654-81936
Project Staff
01.05.2010 - 30.04.2017
Christoph Hauer
Priv.Doz.DI Dr.nat.techn. Christoph Hauer
christoph.hauer@boku.ac.at
Tel: +43 1 47654-81912
Project Staff
01.05.2010 - 30.04.2017
Andrea Lammer
Dipl.-Ing. Andrea Lammer
andrea.lammer@boku.ac.at
Tel: +43 1 47654-81930
Project Staff
01.05.2010 - 30.04.2017
Marcel Georg Liedermann
Dipl.-Ing.Dr.nat.techn. Marcel Georg Liedermann
marcel.liedermann@boku.ac.at
Tel: +43 1 47654-81914
Project Staff
01.05.2010 - 30.04.2017
Michael Tritthart
Assoc. Prof. Priv.-Doz.DI. Dr.techn. Michael Tritthart
michael.tritthart@boku.ac.at
Tel: +43 1 47654-81910
Project Staff
01.05.2010 - 30.04.2017