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Shallow dead zone dynamics: Experimental description and analysis of the three-dimensional flow structure of single dead zones and dead zone sequences, with special focus on their turbulent characteristics, coherent structures and water surface oscillations.

Subject Area Hydrogeology, Hydrology, Limnology, Urban Water Management, Water Chemistry, Integrated Water Resources Management
Term from 2008 to 2011
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 88388957
 
Shallow flows are not simple, they contain important morphological inhomogeneities that lead to complex flow structures. In case of considerable lateral changes of the flow cross-section, large and slow recirculating volumes of fluid can be formed: the shallow dead zones. These zones have major effects on the mass transport of dissolved substances and on sediment transport. In addition, their flow structure has proven to be an important factor for stimulating the growth of the aquatic species, hence they are artificially created for river restoration purposes. Currently, their flow structure and the effects on mass transport cannot be totally predicted, due to the lack of knowledge of their flow dynamics, and their dependency on the local geometry and incoming flow characteristics. This work aims to improve the understanding of the three-dimensional flow dynamics of shallow dead zones, including the spatio-temporal characterization of turbulence, coherent structures and water surface oscillations. The goals will be achieved by a series of schematic laboratory experiments focusing on simple dead zones (harbor-like) and dead zone sequences (e.g. river groynes) for both the emerged and the submerged conditions. The experiments will be conducted using an advanced Stereo Particle Tracking Velocimetry technique, together with synchronous pressure and water level sensors. It is expected that this work will create one of the first experimental three-dimensional descriptions of the flow structure in shallow dead zones, and form the basis for improved hydrodynamics models dealing of their flow dynamics.
DFG Programme Research Grants
 
 

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