Difference between revisions of "Sediment simulation in intakes with Multiblock option (SSIIM)"

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=Other information=
 
=Other information=
Several companies commercialise these technologies.
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The numerical model can be download free of charge at the webpage listed below. There is a large user group and information is available at many places.  
 
 
At the French Test Cases an electromagnetic flow meter Marsh McBirney, FLO-MATE 2000 is used.
 
  
 
=Relevant literature=
 
=Relevant literature=
  
*Aurélien Despax, 2016, Incertitude des mesures de débit des cours d’eau au courantomètre, Amélioration desméthodes analytiques et apports des essais interlaboratoires, Ingénierie de l’environnement, UniversitéGrenoble Alpes, 2016
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*Olsen, N.R.B. (2018), SSIIM user manual (http://folk.ntnu.no/nilsol/ssiim/manual5.pdf)
 
 
*Manon Dewitte, Dominique Courret, Fatma Lemkecher, Laurent David, 2019, Presentation of Las Rives Test Case, FIThydro
 
  
 
=Contact information=
 
=Contact information=
 
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http://folk.ntnu.no/nilsol/ssiim/
  
 
[[Category:Devices]]
 
[[Category:Devices]]

Revision as of 11:23, 20 June 2019

Quick summary

Figure 1: Current meter: a) mechanic, b) electro-magnetic, c) acoustic. Sources: SEBA hydrométrie, OTT, Sontek.
Figure 2: Cutting of a section during the measurement by a flow meter, in red the verticals, the black dots correspond to the measurement points.
Figure 3: Operator in the downstream migration channel for measurements with a current meter.

Developed by: NTNU

Date:

Type: Tool

Suitable for the following [[::Category:Measures|measures]]:

Introduction

SSIIM is a numerical model to simulate the hydraulics and sediment transport including bed changes as well as various other parameters related to water quality in fluvial environment. It solves the Reynolds-averaged Navier-Stokes equations in all three directions and calculates the turbulent kinetic energy and dissipation through the standard k- model. The calculated bed changes are directly coupled to the time steps in the hydraulic computations. SSIIM can use both, an unstructured and a structured grid to discretize the domain of interest.

Application

After downloading the SSIIM executable from the webpage mentioned below, the text files "control" and "koordina" have to be established. The control file lists all the control parameter which SSIIM is supposed to execute. There are various parameters depending on the results the user wants to achieve. The koordina file is used to describe the geometry of interest.

Figure 84 shows the flow chart in which way SSIIM is working.

The application of the user does not require any coding, however, the user has to specify certain parameters and the geometry as text in the above mentioned files. These files are generated with any text editor and linked to the main executable. A detailed description can be taken from the manual (Olsen, 2018). The application varies from the most basic simulation of a steady state hydraulic computation to the most complex one, when combining unsteady flow with multiple sediment sizes and wetting and drying of parts of the geometry.

INPUT: To start a most basic version of a time dependent sediment transport model of a river reach you have to have the geometry in terms of a point cloud file, the discharge Qin=out, the waterlevel height at the downstream end of the reach and the prevailing sediment grain size distribution at the river bed.

OUTPUT: All the available output parameters can be displayed in the graphical user interface and copied into the clipboard (Figure 85). In addition, it is possible to use a separate post processing toll, like freeware Paraview (https://en.wikipedia.org/wiki/ParaView) or commercialized Tecplot (https://en.wikipedia.org/wiki/Tecplot).

Other information

The numerical model can be download free of charge at the webpage listed below. There is a large user group and information is available at many places.

Relevant literature

Contact information

http://folk.ntnu.no/nilsol/ssiim/