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(MOHID RIVER NETWORK)
(MOHID RIVER NETWORK)
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1 - Have to activate module discharges so that Discharges_X.dat in input data file appears in the simulation (in Simulation Properties add the model if not present)
 
1 - Have to activate module discharges so that Discharges_X.dat in input data file appears in the simulation (in Simulation Properties add the model if not present)
  
2 - The block <begindischarge> <enddischarge> has to appear in Discharges_X.dat and can add the number of discharge properties that you want (or none, if only water discharged)
+
2 - The block <begindischarge> <enddischarge> has to appear in Discharges_X.dat and can add the number of discharge properties that you want (or none, if only water discharged).
  
 
  <begindischarge>
 
  <begindischarge>
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  ...
 
  ...
 
  <enddischarge>
 
  <enddischarge>
 +
 +
To know the node ID of your discharge, do a query on the GIS, on top of the drainage network in the point required. The query result (if pointing to a river section) will say the node ID.
 +
 +
DATA_BASE_FILE is the file that was prepared with at least time and flow. If giving also property timeserie (e.g nitrate) also need a column to nitrate in the file. FLOW_COLUMN is the column with flow and TIME_SERIE_COLUMN is the column with the property time serie.
 +
  
 
3 - have to activate discharges (DISCHARGES : 1) in DrainageNetwork_X.dat
 
3 - have to activate discharges (DISCHARGES : 1) in DrainageNetwork_X.dat

Revision as of 11:57, 11 July 2011

Overview

Module Discharges handles all the point discharges in Mohid Water Modelling System. These discharges can be simple water discharges but can also have properties such as substances concentration (temperature, salinity, nutrients, contaminants, etc) and/or momentum.

Main features

ID

Location

Database file

Properties

User manual

Sample discharge

MOHID WATER

Here's what a configuration file of the Module Discharges should look like for a single river run-off. Note that you are previously required to build a time serie .srw with the flow, the temperature and the salinity in order to correctly implement the discharge.

<begindischarge>
NAME                    : Loire
DESCRIPTION             : Daily timeserie for the year 2004
I_CELL                  : 144
J_CELL                  : 220
DEPTHBYGRID             : 1
K_CELL                  : 38
DEFAULT_FLOW_VALUE      : 300
DATA_BASE_FILE          : M:\Biscay\GeneralData\Level2\rivers\Loire.srw
FLOW_COLUMN             : 2
TIME_SERIE_COLUMN       : 1
DISCHARGE_UNIFORM       : 1

<<beginproperty>>
NAME                    : temperature
UNITS                   : celcius
DESCRIPTION             : temperature in the tagus river
CONSTANT_CONC           : 0
DEFAULTVALUE            : 19.9
TIME_SERIE_COLUMN       : 3
<<endproperty>>

<<beginproperty>>
NAME                    : salinity
UNITS                   : psu
DESCRIPTION            : salinity in the tagus river
CONSTANT_CONC          : 1
DEFAULTVALUE           : 0.01
<<endproperty>>

<enddischarge>

MOHID RIVER NETWORK

For Mohid River Network discharges can be made on nodes. As so, you will need to check within the drainage network difinition in which node to discharge. Here's what a configuration file should look like for a single discharge. Note that you are previously required to build a time serie with the flow, and any other property in order to correctly implement the discharge.

Discharges into MOHID River Network can be automatically linked to SWAT model discharges; see description in SWATLink download package in www.mohid.com

Steps after creating the discharge time serie (with time and flow as minimum):

1 - Have to activate module discharges so that Discharges_X.dat in input data file appears in the simulation (in Simulation Properties add the model if not present)

2 - The block <begindischarge> <enddischarge> has to appear in Discharges_X.dat and can add the number of discharge properties that you want (or none, if only water discharged).

<begindischarge>
NAME                          : NODE_19
DESCRIPTION                   : Not given
NODE_ID                       :  19
DATA_BASE_FILE                : ..\..\GeneralData\Discharge.dat
FLOW_COLUMN                   :  2
<<beginproperty>>
NAME                          : nitrate
UNITS                         : mg N/l
DESCRIPTION                   : nitrate
TIME_SERIE_COLUMN             : 3
<<endproperty>>
...
<enddischarge>

To know the node ID of your discharge, do a query on the GIS, on top of the drainage network in the point required. The query result (if pointing to a river section) will say the node ID.

DATA_BASE_FILE is the file that was prepared with at least time and flow. If giving also property timeserie (e.g nitrate) also need a column to nitrate in the file. FLOW_COLUMN is the column with flow and TIME_SERIE_COLUMN is the column with the property time serie.


3 - have to activate discharges (DISCHARGES : 1) in DrainageNetwork_X.dat

4 - run the simulation and compare flow results in HDF or in node timeseries between a simulation with the discharge and without it (the discharge will only appear in the node timeseries results that are downstream of the inputed discharge).

References