SIC^2: Simulation and Integration of Control for Canals
User’s Guide
- Geometry mode
- Creating a network (nodes and reaches)
- Creation of section and description of cross sections
- Predefined profiles: managing a library of cross sections
- Import sections and cross profiles in text format
- Import geometry from Mascaret or HEC-RAS file
- Import geometry from Mike 11 file
- Import geometry from a DTM or a geometer reading
- Add/Change a background map
- Photos associated with network elements
- Description of a node and a pond
- Modification of network structure
- Network inconsistencies management
- Sections, branches and longitudinal profiles display.
- Mesh generation (Talweg)
- Compatibility with older version (.TAL geometry files)
- Export profiles of all sections with X, Y, Z format.
- Change of the bathymetry with an external file
- Hydraulic mode
- The project explorer
- Definition of the roughness (Manning)
- Definition of lateral flow (infiltration)
- Definition of the calculation mode at nodes
- Initialisation of the calculation at diffluences
- The boundary conditions
- Cross structures description
- Consistency of the hydraulic scenario
- Checking of initial discharges
- Time laws
- Management of variables (synthetic visualization)
- Scenario and variant: operating instructions
- Running a steady state calculation (FLUVIA)
- Running an unsteady-state calculation (SIRENE)
- Results mode
- Overview of results
- Longitudinal profiles of water elevation and discharge
- Data available in the results
- The results tables
- Results for objects of the same type
- Results time series for a selected object
- Advanced settings of results tables
- Color status used in results tables
- Flags meaning
- Create a video file from a graphic animation
- Regulation modules
- Regulation modules
- General parameters for U
- General parameters for Y
- Targeted values for Y
- General parameters for Z
- Specific Parameters
- Compilation
- Remarks on regulation modules
- The ATV method
- The ATVPID method
- The BIVAL method
- The BOLST method
- The BOMAT method
- The BOSCIL method
- The DIGEST method
- The DSS method
- The FILEX method (FILe EXchange)
- The LP method
- The MATLAB method
- The PLOT method
- The POMPES method
- The PRINT method
- The QSCP method
- The SCADA method
- The SCILAB method
- The STEPS method
- The STOP method
- The USER1 to USER9 methods
- The WDLANG method
- Control SIC from other programs (Batch mode)
- Introduction
- Import of .TAL and .FLU files in batch mode
- Import sections in text format
- EdiSIC macro mode : an alternative to the command line
- Importer une condition initiale pour une simulation en écoulement transitoire (Not available in English)
- Exécution de TALWEG, FLUVIA et SIRENE en ligne de commande (Not available in English)
- SicExport : utilitaire d’exportation des résultats au format texte (Not available in English)
- Appendix
- Appendix
- Supercritical discharge modelling
- Dry bed modelling
- Triangular weir modelling
- Equation and devices calibration (gates and weirs)
- Modeling of an in-line pump
- Abacus of the Gec-Alsthom gates
- Format du fichier TAL (SIC version 4.33) (Not available in English)
- Format du fichier FLU (SIC version 4.33) (Not available in English)
- Format du fichier SIR (SIC version 4.33) (Not available in English)
