Chapter 7: Surface water
Contents
1. Parameter S bedfriction MF GA bedFriciton MTCPVALUE River GA bedFriciton_MRCPYSLUE River GA inikialbranch TY River GA initialbranch LYLLvALUE River boundary Tr Boundary point boundary FORM Boundary point boundary TD Boundary point GA boundary _hgtables Boundary point GA profile Ty Profile profyz hM Profile GA profyz tables Profile GA weir NN Weit GA weir OL Weit GA Weit Cu Weit GA weir RT Wer GA later alflbr TD Lateral discharge point GA lateralflbr DCL Lateral discharge point GA lateralfbr tables Lateral discharge point The parameters are automatically sorted per type see figure below It is possible to select only the parameters defining a special type by clicking on the tab of for example River In the tab Parameters all parameters of the dataset are listed like figure above The tab Inherited shows all listed parameters that are inherited from a parent dataset This dataset has been set up without a parent dataset so the list of inherited parameters is empty Inherited Parameters River Boundary point Profile Weir Lateral discharge point 7 4 3 Input of parameters Profile type In this paragraph we define the parameters for the profile points Three parameters have been added to the dataset profile TY profyz_NM and profyz_tables These parameters describe the SOBEK CF profile point with a y z cross section definition With the parameter prof_TY one can defi2. Windows Wei Wei Help Wei Ci Aer Ce Vector map Vector map weir mei CRESTLEVEL CRESTUAD IH Sobado Sobado Triwaco User s Manual Designs Desnigns w iateralibr JD Lateral d r Jateralibr_ JD Vector map laterais ID SOBEX Sobado Designi Q tera DELI Lateral disc w iateralibr table Lateral disc iateralibr DC P Constant Constant g e w wei RT Wer mei RT constant 0 constant 8 Designs Q I Desngnt g iateraiibr tables Fable Tutorials BEE Sob Fab Designs inherited Parameters River Boundary point Profile Weir Lateral discharge point In the parameter tab new parameters have been added to the dataset For the Tutorial model we do not need these new parameters so select all and Delete them 7 Surface water 43 Royal Haskoning Triwaco User s Manual EE Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim reference od File Edit view Dataset Parameter Tools Windows Help D id 29 Tutorial SOBEKCF Tutorial Regional E V Parameter fg Discr regional D e Design1 7 Tutorial Local Ea Discr reference boundary VAL Edit boundary TF boundary TP A oundar Cir View ban Sim reference Explore es edrriction_ LU edrriction Clean bedfriction SF Allocate Build Modify edFriction 5 bet riction_S UI TE Cut Eee 3 Copy us dad tJ Delete Ctrl Del Same 4 Paste structure DD Rename Tutori
3. Description Input value Field Allocator Default Dataset profile Ty Profile profile Ty Constant 10 Constant 10 Design1 Profile profyz NM Vector map profile points HE Parameter Properties E General Input ID SOBEK Profile profyz tables profyz tables Type of Input Table D Provider Microsoft Excel e Datasource D Projecten 9T1961_Triwaco2008 Tutorial T utorialSOBEKCFAT utori Tale Je jie zl Je Ids Sh Table Values profyz tabes e sl Refresh Filter Sobado Constant Close 0 Designi C EE Microsoft Excel Connection Workbook D Projecten T1961_Triwaco2008 T utorial Geodata profile Password Connection String Driver Microsoft Excel Driver sls dbg D Projecten 9T 1961_Triwaco200 OK Cancel N Tutorial Regional Designl Of A ao Parameter Type Description Input Value Field allocator Default Dataset GA profile TY Profile profile TY Constant 10 Constant 10 Design GA profyz NM Profile profyz NM vector map profile points ID_SOBEK Sobada D Design profyz tables Profile profyz tables profyz tables EE Parameter Properties General Input Type of Input Provider Table Tutorialf ke Sheets Sheets Tutorialt Values Tr 3 Filter profyz tables Constant Design Table Microsoft Excel M Datasource D Virotechen DT 1961_ Trwaco2006 Tutorial eodataprotile yz xls Connect MM Join Sho
4. Field Allocator Default Dataset q profile Tv Profile profile Tr Constant 10 Constant 10 Design Q profyz NM Profile profyz NM vector map profile points ID_SOBEK Sobado D Designl gt profyz tables Profile profyz tables Table Tutorial J SobT ab Design 7 4 4 Input of remaining parameters We show you how to change the input settings of parameters From now on we expect you are able to change the input of the parameters yourself Weirs in the Tutorial model will be defined by four parameters weir NM wer CL wer CW and weir_RT The first three parameters should be linked to the shapefile XXX weirs shp The parameter weir_NM should be linked to ID SOBEK ID of weir wer CL must link tot the attribue CRESTLEVEL and weir_CW to CRESTWIDTH The parameter weir_RT defines the flow direction and the value of 0 represents flow possible in both directions Make sure all parameters are define as shown in the figure below Tutorial Regional Designi OF A am o Parameter Type Description mot vele Pe lbeato Defaut Dataset GA weir MM Weit weir MM vector map Weir ID SOBEK Sobado D Designl GA weir CL Weir weir CL Vector map Weir CRESTLEVEL Sobado U Design GA welt CA Weit weit CH vector map Weir CRESTWIDTH Sobado Designl The parameters that define river properties represent friction of the riverbed and initial water depths Dimensions of the river have already been defined by the profile point parameters Information ab
5. The lateral discharge points need three parameters in this Tutorial model The discharge time depended is in an excel spreadsheet Tutorial Regional Designl QUIS Za lo Parameter GA lateralflbr_ID GA lateralflbr_OCLT Lateral disc lateralflbr_tablel Lateral disc 7 4 5 Overview of all parameters Tutorial model Type Lateral disc Description lateralFlbr_ID lateralFlbr_OCLT lateralflbr tables Input vector map Constant Value laterals 1 Field ID_SOBEK D T Q Allacator Sobada Constant Default 0 Dataset Design Design All parameters of the Tutorial model have been defined The list window tab Parameters should be look like the figure below Check all settings of the parameters to make sure the design dataset is without errors Tutorial Regional Designl Otis oa o Parameter Gi bedFriction MF bedfriciton_MTCPVALUE bedfriciton_MRCPYALUE GA initialbranch Ty GA initialbranch_LYLLYALUE O boundary Ty GA boundary FORM 7 boundary TD O boundary hotables O profile Ty GA profyz NM GA profyz tables GA wer NM GA weir CL GA weir CW GA weir RT GA lateralflbr ID Q lateralflbr DCLT GA lateralflbr tables Type River River River River River Boundary point Boundary point Boundary point Boundary point Profile Profile Profile Wer Weir Weir Weir Lateral discharge point Lateral discharge point Later
6. Discr regional Clean Discr regional Allocate ile point Vector map PROFPNT PROFPHT Mone or conne vector map HHCONNECTIO RRCONNECTIO None or conne vector map RRCONNECTIO RRCONNECTIO None dary Node vector map BOUNDARY PAT BOUNDARY PAT Mone Discr regional Build Discr regional Discr regional Cbr Discr regional 2 aAa A j A A A A A A AQA A A A A Ctrl C vector map WEIR WEIR Mone Discr regional Ctrl Del ert Vector map CULVERT CULVERT Mone Discr regional Ctrl F Vector map PUMP PUMP Hone Discr regional Rename FZ vector map UMIVERSALIVEIR UNIVERSALWEIR Mone Discr regional Select Al Ctrl E E BRIDGE None Discr regional Gi Refresh F5 vector map ORIFICE ORIFICE None Discr regional Properties 4lk Enter Parameter Properties General Input Mame END Tupe Grid Description boundary polygon at which model is clipped Input Vector Map M value BNC Allocator None bd Uptions Modified 0871 2 2008 14 55 50 Status The File DeNProjecten lt 9T 1961 TemmacoZ0DEs Tutorials Tutorial S OBERST utorial FegionaliDis Close 7 Surface water 12 Royal Haskoning Triwaco User s Manual Select the tab Input and in the Type of Input pull down menu choose Vector Man for defining a shape file Then use the Browse button to select the boundary of the regional model bound regional shp in the directory My models TutorialData Modeldata After selecting the right shape fil
7. The conceptual model is defined in the Design data set This data set contains the input parameters needed to run the model The data in this data set is independent from the grid and consists of data like vector maps ArcGIS mapinfo raster files excel sheets etc The characteristics of each parameter are entered using maps which may contain point values polygons lines or constants or a combination The parameters may also depend on each other using expressions The default length and time units are meters and days 7 4 1 Creating a Design data set Go back a higher level to the level of the model Tutorial Regional This can be achieved by double clicking on it in the project tree or by opening the context menu of the model Tutorial Regional and selecting Open The Design data set is created by Dataset Add Dataset or selecting Add Dataset from the context menu right click in the project tree A pop up window will appear the same as when we created the discretisation data set Again in the first window select next to continue In the second window one can choose the type of dataset This time we select Design name it Design1 default name and select Next HEI Triwaco Integrated Modelling Environment Dataset Tutorial Regional Discr regional a File Edit View Dataset Parameter Tools Windows Help hea Project a Tutorial Regional Discr reaional E q Tutorial SOBEKCF EES GJ Tutorial Regional Des
8. Vector map bedfriction SF bedfriction SF Sobado 3 Design1 w Ge a River Grid data const vector map bedfriction STC bedfriction STC Sobado 50 Design1 w om Ueeeeg River Grid data const Vector map bedfriction SRC bedfriction SRC Sobado 50 Design1 w initialbranch NM River Grid data name Vector map initialbranch MM initialbranch NM Sobado 0 Design1 w initialbranch CI River Grid data carrie Vector map initialbranch CI initialbranch CI Sobado 0 Design1 w FS River Grid data value Vector map initialbranch Q initialbranch oO Sobado 0 Design1 w initialbranch Tv River Grid data type Vector map initialbranch Ty initialbranch Ty Sobado 0 Designl w E River Grid data value Vector map initialbranch Lut initialbranch_LVL Sobado 0 Design wW structure NM Structure Grid data name Vector map structure NM structure NM Sobado 0 Designl w structure DD Structure Grid data id of t Vector map structure DD structure DD Sobado 0 Design w structure CA Structure Grid data indica Vector map structure CA structure CA Sobado 1 Design w structure CJ Structure Grid data contr Vector map structure CJ structure CJ Sobado 1 Design w controltime NM Structure Def data name Vector map controltime NM controltime NM SobDef 0 Design1 w controltime AC Structure Def data Contr vector map controltime AC controltime AC SobDef 0 Design1 w controltime CA Structure Def data contr vector map controltime CA controltime CA SobDef 0
9. 4llocator constant Type River Allocator constant zl Input constant Value DP Input constant Value Mo Back net gt Cancel Back Next gt Cancel RI Triwaco Integrated Modelling Environment Dataset Tutorial Regional Design1 a File Edit View Dataset Parameter Tools windows Help Oa a Tutorial Regional Designi QS Tutorial SOBEKCF flkaal 2 Tutorial Regional Parameter Type Description Input Allocator Default Dataset fg Discr regional e S E E z V bedfriction MF River bedfriction MF Constant D Constant 0 Design Design1 For the Tutorial model we will use a total of 19 parameters see below bedfriction MF type river bedfriction MTCPVALUE type river bedfriction MRCPVALUE type river initialbranch TY type river initialbranch LVLLVALUE type river boundary TY type boundary point boundary FORM type boundary point boundary ID type boundary point boundary_hqtables type boundary point profile TY type profile profyz NM type profile profyz tables type profile weir NM type weir weir CL type weir weir CW type weir weir RT type weir lateralflbr ID type lateral lateralflor DCLT type lateral lateralflbr tables type lateral Add these parameters to the design dataset and make sure that he name and type of the parameter is defined 7 Surface water 21 Royal Haskoning Triwaco User s Manual Tutorial Regional Designi GF A oam D
10. In the second window one can choose the type of dataset Select Discretisation and name it Discr scenario and select Next In the following window that appears select Tutorial Regional Discr regional as the Parent dataset 7 Surface water 47 Royal Haskoning Triwaco User s Manual New Dataset Associated Datasets The Following dataset are related Parent Dataset Tutorial Regional Discr regional E none gt Discretization Dataset leo e nor Aem a es Tutorial Regional Design Tukorial Local Discr reference Dataset is time dependent Time discretisation is inherited From parent dataset lt Back Next gt Cancel Select next and find yourself in the same properties window when defining the other discretisation datasets Leave everything as it is All information was inherited from the Simulation dataset Select next and finish HE Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr scenario oJ File Edit view Dataset Parameter Tools Windows Help OG Tutorial Local Discr scenario E e Tutorial SOBEKCF EENEG ES Tutorial Regional Parameter Type Description Input Value Field Allocator Default END boundary polyg Vector map I Dataset Discr scenario Discr scenario 7 Tutorial Local fg Discr reference Q WER Grid CF weir vector map Two parameters in the discretisation dataset have to be modified The boundary has to be defined
11. Mone Mone Mone None Mone Aone Aone Aone Dircr regional Biscr regional BDiscr regional Discr regional Discr regional ORIFICE Grid Inherited Parameters Grid Grid Inherited EE Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference oJ File Edit view Dataset WI Windows Help Parameter Tools Tutorial Local Discr reference 92 4 Za o E G Tutorial SOBEKCF S F Tutorial Regional Parameter Type Description Ing Value Field Allocator Default Dataset fg Discr regional Eee i BAP orig boundary poiva Vector map Pound regional ID Aone a Discr regiona fu Design1 Ect El Tutorial Local l Vector map river ID SOBEX Mone O Biscr regional utorial Local f Add Parameter Aone Aone Aone 0 Discr regionat Baw Discr reference View Vector map catpoints ID SOBEK None o Discr regiona Explore Vector map laterals ID SOEN None 0 Discr regional Clean Aone Mane None 0 BDircr regional Allocate Vector map profile points ID SOBEX None d BDiscr regional Build Mone Mone Mone 0 BDircr regional OCAVORE None None None 0 Discr regiona BOLMDAR CHA e Vector map bacpoints JO SOBEX Aone 0 BDiscr regional Q wer Gane pare Vector map weir JD SOBEK None 9 Discr regional Delete Ctrl Del None None 0 Discr regional peeks CHdN fone fone Aone d Discr regional Rename F2 Aone Aone Aone o Biscr
12. model parameter input is usually in the triwaco file format ado or adx The reason for using this standard file format is that data can easily be exchanged between models all tools and processors can access it automatic calibration tools will always work with any model etc Also very important is that all transformed input data can be visualised with the built in viewers 7 Surface water 24 Royal Haskoning Triwaco User s Manual Close the input window en use the Allocator column in the List window Make sure you set the allocator of the parameter profyz tables to SobTab Tutorial Regional Designl f 4 am o Parameter Type Description Input Value Field Allocator Default Dataset GA profile Ty Profile profile Tv Constant 10 Constant 10 Designl GA profyz NM Profile profyz NM vector map profile points ID_SOBEK Sobado a Designl profyz tables Constant S Parameter Properties profyz_tables General Input Type of Input Constant 4 Expression Provider None Rast E Datasource D di SE Connect Join si Show Table Filter Values profa tables r Refresh 7 Surface water 25 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl EAR Parameter Type Description Input value Field allocator Default Dataset Q profile Tv Profile profile Ty Constant 10 Constant 10 Designl O profyz NM Profile profyz MM vector map profile poinks ID_SOBEK Sobado 0 D
13. of all sorts of data file formats that can directly can be read by the modelling environment It can handle almost all Known GIS formats and the Dutch standards like Aquo INTWIS and IRIS The list of supported formats is ever growing a selection Data files in one of these formats can be used as model input without any conversion prior to use in the modelling environment The modelling environment also supports the conversion of model results to several data file formats Select the parameter BND model boundary and open a context menu right click mouse and select Properties The parameter properties window has two tabs General and Input The General tab gives general information which is also shown in the dataset For now you can leave this tab as it is Note that the Status of the parameters says the parameter does not exist 7 Surface water 11 Royal Haskoning Triwaco User s Manual Tutorial Regional Discr regional IK Glo Parameter Type Description Input Value Field Allocator Default Dataset fai snes polg Vector map BMD BMD None 0 Discr regional h vector map REACH REACH Mone lation p vector map CALCPHTDENS CALCPHTDENS Mone d calculat vector map FISEDCALCPNT FISEDCALCPNT Mone al discha vector map LATODISPNT LATOISPNT None suremen vector map MEASPHT MEASPHT Mone Edit E Add Parameter Ins Discr regional Discr regional View Discr regional Explore l
14. on a local scale and the weirs need to be filtered for the scenario discretisation as we have seen in chapter XXX 7 Surface water 48 Royal Haskoning Triwaco User s Manual E Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr scenario R loj x oJ File Edit View Dataset Parameter Tools windows Help EX D GF i Tutorial Local Discr scenario E Bp Tutorial SOBEKCF Oz am o E B Tutorial Regional L Discr regional f Design1 GT Tutorial Local fg Discr reference d Sim reference d Discr scenario General Input Type of Input vector map DI Filename JD Projecten 9T1961_Triwaco2008 Tutoria Geodata weirshp Browse Datasource D Projectent3T 1351 Trimaco200BNTutoriaNGeodatameishp Join Layer pa Beie Ids osoek A Show table osoek A modse Inherited Parameters Grid Gi LESSER 0 RRRoutingnetworkpolylines gensoni exe C Program Files R DiiProjectent Comple 16 05 0 390s 16 05 SonetCF C Program FilestR Comple 16 05 0 281s 16 05 Sobek RR part done Done A start O amp O nbox microsoft Outlook 2 DitProjectenjgr1961 Tri el 2008 12 08_164344 png Il al Triwaco Integrated M E Uren_reg xls Ojo Bsa 16 06 7 7 2 The discretisation of the scenario model Build and Generate the network and look at the the result Dataset View output Notice that a new weir has been added to the network Now we will create a new simulation data
15. regional BRIDGE None None Mone O Biscr regional Select All Ctrl 4 ORIEL None None Aone oO Biscr regional FS Alt Enter G Refresh Properties 7 Surface water 36 Royal Haskoning Triwaco User s Manual F Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference a File Edit D GSM view Dataset E E Tutorial SOBEKCF E 2 Tutorial Regional Discr regional e Designi ol Tutorial Local E Discr reference Parameter Tools Windows Help Tutorial Local Discr reference GTA Za lo Parameter Type Description Input Value Field Allocator Default Dataset REACH Grid CF reach Vector map river ID SOBEK Aone d Biscr regional CAL CENTOS Grid CF calculation p None Aone Aone d Biscr regional FIXERCALCENT Grid CF fixed calculat Vector map catpaints ID SOSEX Aone d Biscr regional LA TDISPANT Gnid GF lateral decha Vector map laterais JO SOBEX Aone e Discr regional MEASPAT wid Cf measruwremen NONE Mone Mone 0 BDiscr regional PROUT Grid CF profile point Vector map profile poin s ID SOBEK fone 0 Biscr regional EEN cl Moder conne ci ei fone d Zeg s dica OCAVODE Grid Nodes for conne None Mone Aone d BDircr regional SOLDAR YPAT Grid CF Boundary Node Vector map od oos JO SOBEX Aone d Biscr regional ert Edit 2 wer Oiscr regionar vector map CLA VERT Aone Aone Aone 0 Bi
16. shape file Now there is a link between the ID of the profile point at the network discritsation dataset and the name ID of the cross section definition Click on Close to exit the input screen The final step in defining this parameter is to change its allocator This should be done in the column Allocator of the parameter in the list window Use the allocator Sobado which is being used for shape files and vector maps 7 Surface water 23 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl Kai ETA ao Parameter Type Description Input value Field Allocator Default Dataset GA profile Tv Profile profile Ty Constant 10 Constant 10 Design vw profyz NM profyz MM Constant Geh centos bebe enti ed ers ae FAAEE o Constant T Design1 Parameter Properties General Input Type of Input Vector map MM Filename D 4ProjectenA9T 1961 Triwaco20084T utora Geodatasprofile points Browse Datasource D Projecten 9T1961_Triwaco2008 Tutorial Geodata profile points Join Layer profile points e sl Refresh Ids ID SOBEK Y Show table Values IDSOBERR e sl Filter po Close EA Cam o Parameter Type Description Input Value Field Allocator DeFault Dataset 7 profile Ty Profile profile Ty Constant 10 Constant 10 Design profyz NM profyz MM vector map profile points ID_SOBEK Constant Do GA profyz tables Profile profyz tables Constant Design Now we have define t
17. the Tutorial For now select Discretisation and use the name Discr regional for the dataset Then select Next 7 Surface water 8 Royal Haskoning Triwaco User s Manual FE New Dataset II x Ney Dataset ar Select type of dataset and enter a name PS Installed Dataset Types WC WW E Design Discretisation Simulation Scenario Dataset name Discr regional Location D Projecten 971961_ Trivwaco2008 Tutorial Tutorial SOBEK CF Tutorial Regiona lt Back Next Cancel In the next window one may want to select a parent dataset This is only of importance when a new grid is created based on an existing discretisation dataset like a sub model or scenario The nice thing about this option is that a new model can be creating based on an existing conceptual model We will show how this works for a local study area in the XXX part of this Tutortial For now we are defining a regional discretisation dataset and will not use a parent dataset select Next BEE Associated Datasets The Following dataset are related PS Parent Dataset None gt Discretization Dataset k Dataset is time dependent Time discretisation is inherited From parent dataset lt Back Next gt Cancel In the following window it is possible to change the appearing program options These options describe for example snapping distances for merging rivers and model attributes In this Tutorial we will only use the defau
18. up a Scenario scenario situation In most cases a surface water model or any other model is used to predict consequences of changes made to the water system These changes usually concern only a few model parameters Scenario s in surface water model result often in a change in network and therefore a new discretisation must be set up Consequently when a new discretisation is set up a new simulation dataset has to be defined In TRIWACO it is not possible to define a scenario dataset without defining a simulation dataset first Therefore in surface water modellering we choose to use a new discretisation dataset combined with a simulation dataset to define a scenario model In this paragraph we show how to add a new weir to the schematisation 7 7 1 Creating a scenario dataset Go back a higher level to the level of the model Tutorial Local This can be achieved by double clicking on it in the project tree or by opening the context menu of the model Tutorial Local and selecting Coen New Dataset JD x New Dataset dh Select type of dataset and enter a name PS Installed Dataset Types Dataset name Discr scenario Location Ce Projecten 71961 TrimacoZ00 Tutorial Tutorial SOBER CF Tutorial Locall Di lt Back Next gt Cancel The new discretisation data set is created by Dataset Add Dataset A pop up window will appear the same as when we created the other datasets Again in the first window select next to continue
19. 7 Surface water 008 ROYAL HASKONING Chapter 7 Surface water O1 SUpporied MOG E 2 3 6 2 The SOBEK CF Tutorial defining a Triwaco project eee errar rena 2 4 6 25 e dr ee Re EE 2 4 6 2 2 The SOBEK GF Tutorial marenea a a a a SED DR AD 2 4 6 2 3 Definition of a RN E ee Proe EE 2 4 6 24 Seiing p a SOBEK CF ele E EE 2 5 6 3 Setting up a discretisation dataset regional A 2 8 6 3 1 Step 1 Creating a discretisation dataset eee een era renan ere nana 2 8 6 3 2 Step 2 Defining the model boundary define a vector map 2 11 6 3 3 Step 3 definition of the model attributes grid parameters era 2 14 6 3 4 Generating the calculation grid river pnehwork 2 15 6 4 Setting up design dataset the conceptual model set up 2 17 641 Creating a DESIGN Be EE 2 17 6 4 2 Adding the parameters of the Tutorial model to the design dataset 0 nn00nnn0nnnnnnnnnnnnennnnni 2 20 6 4 3 Input of parameters Profile Ivpe eee eee aerea ee aerea er encrenca nana nad 2 22 6 4 4 Input of remaining Da rameters eee rare erre re ne rne era mea ans re acena arena 2 30 6 4 5 Overview of all parameters Tutorial model eee eereerer rare reraaad 2 31 6 5 Setting up a local model for the smulaton eee eeere erre ee ea erena er eanna 2 33 6 6 Setting up a simulation data set reference siluaton eres rena 2 41 6 6 1 Creating a simulation data set for the reference situation 2 41 6 6 2 Allocating the en
20. Code SobekCr utorial Regi Tutorial Regional lt Back Next Cancel GE Triwaco Integrated Modelling Environment Project Tutorial SOBEKCF oJ File Edit view Project Model Tools Windows Help 2 DES H Tutorial SOBEKCF E a Tutorial SOBEKCF O A Ba A Refresh 2 Tutorial Regional Modal Code Griddes Type Description Parent Modified EM Tutorial Regional SobekCF SonetCF Surface water model 08 12 2008 16 19 E Tutorial Local SobekCF Surface water model TutoriakRegional 08 12 2008 16 26 Design1 Tutorial Local After adding the model Tutorial Local to the project tree a new discretisation dataset should be added to the model name it Discr reference Click Next and in the Associated datasets window select Tutorial Regional Discr Regional as parent dataset All parameters and its definitions will be inherited in the local discretisation All other properties and settings remain the same as the default so click Next until the dataset is added to the model Tutorial Local Now check the tabs Parameters and Inherited and one will notice that the inherited parameters are the same as defined in the Reigonal discretisation dataset In the Parameter tab some new parameters are listed but we do not need these so remove them We want to make two changes in the local schematization in comparison to the Regional dataset namely a different boundary and a difference in weir
21. Design1 w controltime CF Structure Def data contr Vector map controltime CF controltime CF SobDef 1 Design1 w controltime BL Structure Def data interp vector map controltime BL controltime BL SobDef 0 Design1 ES Structure Def data table Table controletime ta controletime ta SobTab 0 Design1 T Structure Def data name Vector map controlhydraulic controlhydraulic SobDef 0 Design1 oe ed Structure Def data contr Vector map controlhydraulic controlhydraulic SobDef 0 Design1 ed Structure Def data contr Vector map controlhydraulic controlhydraulic SobDef 0 Design controlhydraulic a LASS are PE Lie Dee Inherited Parameters Boundary River Structure Weir Orifice Pump Culvert Universal weir Bridge Lateral discharge point Profile Connection point The design data set Design1 is now created and filled with the parameters see figure above Each SOBEK CF model is different and uses different kinds of river boundary and structure definitions Therefore different TRIWACO parameters are needed to define the model For this Tutorial model it is already know which parameters should be used and which can be deleted We will define them step by step in the following paragrapahs but for now we need to delete all parameters Select all open the context menu right click and select Delete and in the pop up window Remove 7 Surface water 18 Royal Haskoning EE Triwaco Integrated Modelling Environ
22. Discr reference Pry Deco MRC Vector map river FRIC Go Sobado 30 Designi v a i Sim reference ati branch Fr River invbiatbranch TY constant o constant 0 Designs invtiabranc LA q Sege TPF es Rr ramo e SE E a Discr scenario gi isc ier iniiiaibranch_f vi Vector map niver ME ADEPT Sobado d Design LUL Sim scenario boundary_TY Soundary p Doundary_TY constant a constant Dez boundary FOR Boundary D boundary FORMS Constant 4 Constant 4 Designs boundary ID Boundary p boundary JO Vector map bnad points JP SOBEX Sobado d Designs boundary_Agtal Soundary p boundary_Agtab Table Tutorials AQ Sob Tab d Designs profile PY Profile profile PY Constant id Constant id Dean profyz AM Profile profyz A vector map profile points JD SOSEX Sobado d Dean profyz tables Profile profyz tables Table Tutorials Led Sob Fab d Designs Arer A War Arer A Vector map Arer JD SOBEX Sobado d Denigns wew CL Wer Wei CL Vector map mes CRESTLEVEL Sobado d Degni O ser cw Weir wei Chr Vector map weir CRESTUSID IH Sobado aj Design mer RT Wer mer RT constant OG Constant d Design Jateralibry ID Lateral disc fateralibr JD vector map laterais 3 SOBEX Sobado 0 Designs iateralibr DCL Lateral disc fateralfibr DGT Constant i Constant i Designs ateralibr tabia Lateral disc fateralfibr_tabler Table Tutorials BEO Sob Fab d Designs Inherited Parameters River Boundary point
23. Discr reference dataset as the Discretisation dataset Note that this means you can easily create an alternative grid and create a new simulation dataset thus a model based upon the same conceptual model and visa versa e Note that the datasets are defined as Model name Dataset name so here for the Parent Dataset Tutorial Regional Design 1 Select next and find yourself in the same properties window when defining the design dataset Leave everything as it is All information was inherited from the Design dataset Select the Next button and Finish the dataset wizard BER Associated Datasets Ki The Following dataset are related PS Parent Dataset Tutorial Regional Designl bd Discretization Dataset Tutorial Local Discr reference w Tutorial Regional Discr regional Tutorial Local Discr reference Dataset is time depender Time discretisation is inherited From parent dataset lt Back Nexk Cancel You are now back in the list of datasets in the model Tutorial Local Note that the dataset Simulation has a red status indicator Open the dataset Sim reference You will automatically will be directed in the Inherited tab Since the parameters are shown in a a different font italic than what you have seen before The reason for this is that it is immediately clear that you are dealing with inherited parameters Also notice that all status indicators are red which means they either need to be updated or allo
24. File Edit View Dataset Parameter Tools Windows Help oa a ii Tutorial Local Discr reference Go Tutorial SOBEKCF AFLBAIS a Tutorial Regional RE Parameter Type Description Input d r E pes w DND Grid boundary polg Vector map fe Design TEE GA WEI Grid CF weir vector map SE Tutorial Loca d r Discr rel Sek ou Add Dataset Properties Alt Enter A pop up window will appear the same as when we created the discretisation data set Again in the first window select next to continue In the second window one can choose the type of dataset Select Simulation and change the name to Sim reference and select Next EE New Dataset DI New Dataset 8 Select type of dataset and enter a name Installed Dataset Types Design Discretisation Simulation Scenario Dataset name Sim reference Location Ds Projecten 97T1961_ Triwaco2008 Tutorial Tutorial SOBER CF Tutorial Locali Sir lt Back Next gt Cancel 7 Surface water 41 Royal Haskoning Triwaco User s Manual The Simulation set combines the conceptual model Design dataset with a calculation grid of the local schematization Discretisation Local dataset to create a local model Simulation Local dataset to run with the specified model code In the following window that appears the conceptual model Design dataset is selected as the Parent dataset as well as the calculation grid of the reference discretisaton
25. Local Discr reference E 29 Tutorial SOBEKCF Oz am o ob Tutorial Regional SR a Parameter Type Description Inp Value Field Allocator Default Dataset f6 Discr regiona a E BND Grid boundary polyg vector map bound local ID None 0 Discr refere BB Design V WEIR Grid vector map ID_SOBEK None Discr refere RE Tutorial Local emm dr Discr reference Triplot D Projecten 9T1961_Triwaco2008 Tutorial Tutorial SOBEKCF Tutorial Local Discr reference grid teo X Fie view Param Time Window Help SIS BJORK EE a4 Pa 69 A Boundary EE Rivers Weirs A Fixed calculation p e Lateral discharge Profile points Yy Boundary points E 7 Surface water 40 Royal Haskoning Triwaco User s Manual 7 6 Setting up a simulation data set reference situation Up to now the parameter values are stored independently of the calculation grid in tables and maps The advantage is that the grid can be changed without a change of the original input The original input is linked allocated to the grid in a separate data set the simulation dataset This is done only for the conceptual model design dataset 7 6 1 Creating a simulation data set for the reference situation Open the context menu for the sub model Tutorial Local by right clicking on it in the project tree and select Add Dataset Trimaco Integrated Modelling Environment Dataset Tutorial Local Discr reference a
26. Profile Weir Lateral discharge point All parameters are ready because they have already been defined in the design dataset Build and generate the simulation dataset and the model is ready to run To run the simulation choose Dataset Run A simulation window is opened showing the link to the SOBEK model Make sure that the SOBEK model is already on your hard disk The SOBEK model need to be ready up until schematisaion its colour should be yellow Select the right case Tutorial scenario and choose Hun All files are being copied to the SOBEK case and now you can open the model with the SOBEK interface and run the simulation Transfer Sobek network data files Caze Tutorial reference Tutorial scenaro ADiscr scenario 7 Surface water 52 Royal Haskoning Triwaco User s Manual 7 Surface water 53
27. ULVERT CULVERT None D Discr regional wi PUMP Grid CF pump vector map PUMP PUMP None D Discr regional wi UNIVERSAL WEI Grid CF Universal weir vector map UNIVERSAL YEIR UNIVERSSL WEIR None D Discr regional wi BRIDGE Grid CF Bridge vector map BRIDGE BRIDGE None D Discr regional wl ORIFICE Grid CF Orifice vector map ORIFICE ORIFICE None O Discr regional 7 3 2 Step 2 Defining the model boundary define a vector map A boundary or any map rivers weirs etc can directly be defined in Triwaco from several file formats see text box like a shape file set up in ArcView or ArcGIS MapInfo or any other GIS software For the model boundary we use a shape file generated in ArcView How to define parameters directly from the different file formats will be explained in other steps of creating the calculation grid and design dataset for the model OpenGIS in Triwaco For definition of parameter the modelling environment follows the specifications provided by the Open GIS Consortium OpenGIS or Open GeoSpatial using the Open Source Geospatioal Data Abstraction Library GDAL Raster maps over 64 formats Idrisi ESRI grids Erdas Vector maps over 16 format ESRI shape MapInfo AutoCAD Data bases such as Oracle MySQL en Access Other well Known formats such as Excel txt en csv Data processing in the modelling environment using expressions and Spatial Queries The implementation of GDAL into our software opens the world
28. al Local Sim reference OK ao Type Description Add Parameter Ins Chr Ctrl C Ctrl F2 structure C Select All G Refresh Properties controltime At Structure structure CJ controltime CA Structure controltime CF Structure controltime BL Structure controletime tal 3 Structure Structure Structure Structure Structure Structure Structure Structure T OG OG OG controltime NI OG OG OG T Structure Structure fontroInydraulcl T moe EEN Stricture Inherited Parameters Boundary River Structure Ctrl 4 IS alt Enter Uer data CON Def data contr Def data contr interp table Def data name Def data contr Masi es contr Def data Def data time Def data Interp vid for branc Nef data Fahle Input vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map Vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map Vector man Value boundary VALUE Field boundary VALUE Allocator Default Dataset Sobado 0 Sim referenc
29. al discharge point Description bedFriction MF bedFriciton MTC bedFriciton MBC initialbranch_TY initialbranch Lvl boundary Ty boundary FORM boundary TD boundary hotab profile TY profyz MM profyz tables weir NM weir CL weir CW weir RT lateralflbr TD lateralflbr_DCLT lateralflbr tables Input Constant vector map vector map Constant vector map Constant Constant vector map Table Constant vector map Table vector map vector map vector map Constant vector map Constant Table Value river river river 1 4 bnd points Tutorial 10 profile points Tutorial weir weir weir DU laterals 1 Tutorial Field FRIC BE FRIC BE INI AV DEFTH ID SOBEK hQ ID_SOBEK YZ ID_SOBEK CRESTLEVEL CRESTWIDTH ID_SOBEE DTO allocator Constant Sobado Sobado Constant Sobado Constant Constant Sobado SobTab Constant Sobado SobTab Sobado Sobado Sobado Constant Sobado Constant SobTab Default 7 U U U U o O Dataset Design Designl Designl Designl Designl Design Design Designl Designl Designl Designl Designi Designi Designl Designl Designl Designl Designl Designl 7 Surface water 31 Royal Haskoning Triwaco User s Manual 7 Surface water 32 Royal Haskoning Triwaco User s Manual 7 5 Setting up a local model for the simulation We have defined a regional discretisation set because database are often co
30. all parameters are allocated to the calculation grid and checked the model is ready for the first simulation run The first thing that has to be done is to convert all parameters now in the standard Triwaco file format into modelinput files for the model code as well as creating other input files to run the simulation with the specified modelcode in this case SOBEK CF K Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim reference ad File Edit view Dataset Parameter Tools Windows Do i Build Project E od Tutorial SOBEKCF Go Tutorial Region CN Ji Discr regio E mi Design ob Tutorial Loc Type ker k Arr GA Ahaba JF degt AU IC Li ALLE River Ferrer GA Poundarp Oa Foundarp D GA Dowda JO OUNGAN D Gei Aasndar hatal Gasanedtaew nm Help GA Dowda ZF Souler D Genere AE Description Dechoctine Mac becdirk on MTC Decision MTC dvbiadbran TF Ztabu ach Cbr Poundare Pr boundary DORM boundary Ji hannar Arar In the Simulation dataset select Dataset Generate which creates the input files for the SOBEK CF model code based on the parameters defined in the dataset 7 Surface water 45 Royal Haskoning Triwaco User s Manual 7 6 4 Copy SOBEK files for simulation Run To start the simulation first the created SOBEK files must be copied to the designated SOBEK project and case This is done by
31. ating the calculation grid river network Now all data is entered all status bullets are green the grid can be generated This is done in two steps First the grid input file is generated after which the grid is created To generate the grid input file Dataset Generate This will create the input file for the grid generator Triwaco will show in the Jobs pane if not available do so by View Jobs the progress of generating the grid input file In the Output pane the log of the grind generator is shown po Triwaco Integrated Modelling Environment Dataset Tutorial Regional Discr regional Tools Windows Help Dataset Parameter Build aH File Edit View DBH Project Generate e aminnal Discr regional Generate the input For the model code P p 1 T G Tutorial SOBEKCF Explore ob Tutorial Region q Dun d r Discr regior Viet Description Input Type Grid boundary polg vecta alt Enter Grid CF reach Vector Properties C CALCPNTDENS Grid CF calculation pp Mone FISEDCALCPNT Grid CF fixed calculat Vector LATDISPHT Grid CF lateral discha vector MEASPNT Grid CF measuremen Mone FROFPNT Grid CF profile point vector To create the grid Dataset Run Again information is provided in the Jobs and Output pane When an error occurs this is mentioned in the job pane or an error message may appear due to incorrect input To find out wh
32. ats such as Excel txt en csv Data processing in the modelling environment using expressions and Spatial Queries Data files in one of these formats can be used as model input without any conversion prior to use in the modelling environment The design dataset is now empty and will be filled with parameters that define the Tutorial model Parameters in Triwaco can be divided in different types accordingly to the type of structure network point or attribute in SOBEK CF The parameters for this Tutorial model can be divided in 5 types e River parameters defining river properties e g friction e Profile parameters defining the dimensions of the river e Boundary points parameters defining the model boundary conditions 7 Surface water 19 Royal Haskoning Triwaco User s Manual e Lateral discharge points parameters defining lateral discharge properties e Weirs parameters defining weir properties It is important to notice that these 5 types are specifically for this Tutorial model In a different model also other structures can be used in the model for example culverts controllers orifices etc Successively other parameters and parameter types should be defined All parameters that are selected in the parameter xls spreadsheet program file This soreadsheet should be used to understand the link between Triwaco and SOBEK but may not be changed For the Tutorial model we will now show how and which parameters must be added to the
33. bedfriction_MF bedfriction MTC bedfriction_MRC bedfriction_SF bedfriction_STC bedfriction_SRC initialbranch NM initialbranch CI initialbranch Q initialbranch TY initialbranch_L L structure NH structure DD structure C structure CJ controltime NM controltime AC controltime C controltime CF controltime BL Field boundary TY boundary FORM boundary VALUE boundar Lele boundary_timet boundary_hgtab bedfriction MF bedfriction MTC bedfriction MRC bedfriction SF bedfriction STC bedfriction SRC initialbranch NM initialbranch CI initialbranch CO initialbranch Ty initialbranch_L L structure NH structure DD structure C structure CJ controltime NM controltime AC controltime_CA controltime CF controltime BL Sobado Allocator Sobado Sobado Sobado Dataset Designl Default Designl Designl Design1 Sobado SobTab Designl Designl SobTab Sobado Sobado Sobado Sobado Designl Designl Designl Designl Designl Designl on ra Sobado Sobado Sobado Sobado Sobado Sobado Designl E O foeni E o foei Sobado 1 Designl SobDef Designl Designl Designl Designl Designl Designl Designl SobDef SobDef SobDef SobDef Je controlhydraulic SobDef lo Design Eo e DC 1 Desinnl Sedese alla Structure Def data table controletime ta Structure Def data name Vector map
34. cation is not carried out yet 7 Surface water 42 Royal Haskoning EE Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim reference od File Edit view Dataset ibaa E 29 Tutorial SOBEKCF Ef Tutorial Regional l Parameter Type Description Input Field Allocator Dataset 62 Discr regional RENAS E EE E E ic m Deciriction mE River Decfric ion ME Constant Constant Designs Bo Designit en i EE River bdecfriciton MTE Vector map river FRIC op Sobado d Designs GJ Tutorial Local AUE ton MRE KR A E River bedfriciton MRE Vector map river FRIC Go Sobado d Desom S w initiaibranch_ TY River Zar anch TY Constant d Constant W Designs rd em River initiaibranch Li Vector map niver ME Woor Sobado d Designs w boundary TY Boundary p boundary_TY Constant Constant Designs w boundary FOR Boundary D boundary FORM Constant Constant 4 Design w boundary 3 Boundary pa boundary JD Vector map bnd points JD SOBEK Sobado d Desom w boundary_Agfal Soundary D boundary_Agtab Table Tutorials DO Sob Fab d Designs w profile TY Profile profile TY Constant Jo Constant J0 Designs w profyz Av Profile profyz A Vector map profile points JO SOBEX Sobado d Desom w profyz_ tables Profile profyz tables Fable Tutorials ce Sob Fab d Designs w mei A4 Wei Aer J Vector map weir IB SOSEK Sobado d Designs Parameter Tools Tutorial Local Sim reference O92 4 ao Use o w wei Che
35. controlhydraulic Structure Def data contr Vector map controlhydraulic controlhydraulic SobDef T T YF T ei gt T or T T T 7 7 7 T T T T JF a E Structure Def data contr Vector map controlhydraulic controlhydraulic SobDef T Speele RER Nef data contr SnhNef Inherited Parameters Boundary River Structure Weir Orifice Pump Culvert Universal weir Bridge Lateral discharge point Profile Connection point Stricture Vector man controlhvedraiic Lcoantrolhvyeranilic Within this design data set all parameter information is stored In other words this data set is your meta database for maps which are independent from the modelling grid For definition of parameter the modelling environment follows the specifications provided by the Open GIS Consortium OpenGIS or Open GeoSpatial using the Open Source Geospatioal Data Abstraction Library GDAL The implementation of GDAL into our software opens the world of all sorts of data file formats that can directly can be read by the modelling environment It can handle almost all known GIS formats and the Dutch standards like Aquo INTWIS and IRIS The list of supported formats is ever growing a selection Raster maps over 64 formats Idrisi ESRI grids Erdas Vector maps over 16 format ESRI shape MapInfo AutoCAD Data bases such as Oracle MySQL en Access Other well known form
36. cription Input A Open FR atid boundary polyg vector n E rid CF reach vector m Refresh Add Dataset Y Sieg CF calculation po None F ti Alk Ent cia d eg rid CF Fixed calculat vector r New Dataset JO x Mew Dataset ab Select type of dataset and enter a name PS Installed Dataset Types Discretisation Simulation Scenario Dataset name jDesignl Location Ce Projecteni9T1961 Triwaco2008 Tutorial Tutorial SOBEK CF Tutorial Regiona lt Back Next Cancel The following window that appears is for the definition of program options In this window one can change parameters which describe the properties of water and the environment gravitational constant and density of water There is no reason to change these parameters so we will keep the default settings click Next In the following window all parameters that are added to the design dataset are shown More experienced users can add and remove parameters to specify the model For now we want to add the default parameters so there is no need to make changes click Next and Finish 7 Surface water 17 Royal Haskoning Triwaco User s Manual HE New Dataset lB x O x Program Options x Parameters Review or change the program options here PS The Following parameters will be generated Pa Model code sobekCF Section Option Value Description CF Parameters Default Description Boundary boundary Ty do ari
37. d data CF Parameters CF Parameters CF Parameters boundary TP 0 Grid data Advanced lt Back Next gt Cancel HE Triwaco Integrated Modelling Environment Dataset Tutorial Regional Design1 oJ File Edit View Dataset Parameter Tools windows Help DEH Tutorial Regional Design1 E Ca Tutorial SOBEKCF QFILABIO Tutorial Regional Parameter Type Description Input Value Field Allocator Default Dataset Led Discr regional boundary Ty Grid data type Vector map boundary TY boundary TY Sobado 0 Designl bes A w boundary FORN Grid data O co Vector map boundary FORM boundary FORM Sobado 0 Design1 w boundary WALU Grid data const Vector map boundary VALUE boundary VALUE Sobado 0 Design1 w boundary TF Grid data Table Vector map boundary TF boundary TF Sobado 0 Design1 w boundary TP Grid data Use T Vector map boundary TP boundary TP Sobado 0 Design EEN Def data table Table boundary timet boundary_timet SobTab 0 Design GQ boundary botat Def data table Table boundary hgtab boundary hgtab SobTab 0 Design w bedfriction MF River Grid data main Vector map bedfriction ME bedfriction MF Sobado 3 Designl ep Pr River Grid data const Vector map bedfriction MTC bedfriction MTC Sobado 33 Design1 w fT Sema River Grid data const Vector map bedfriction MRC bedfriction MRC Sobado 33 Design1 w bedfriction SF River Grid data groun
38. design dataset After that we give a step by step description of the parameters definition 7 4 2 Adding the parameters of the Tutorial model to the design dataset The design dataset is empty so we will add the necessary parameters to the dataset Make sure the Design1 dataset is activated and open the context window right click in the list window Select the option Add parameter and a new window will appear For now we will only fill in the name and type of all parameters and define it later EE Triwmaco Integrated Modelling Environment Dataset Tutorial Regional Designl oJ File Edit View Dataset Parameter Tools Windows Help US Tutorial Regional Designi E Ed Tutorial SOBEKCF E A Da amp o E 8 Tutorial Regional g Parameter Type Description Input value Field r Discr regional e Designl Add Parameter Ins View Explore Clean Allocate Build Modify ut Copy Delete Paste Rename Select All Refresh Properties Chr Ctrl C Ctrl Del Ctrl V Fe Ctrl 4 FS Alk Enter 7 Surface water 20 Royal Haskoning Triwaco User s Manual loj x EE New Parameter New Parameter General Enter general information about the parameter to create e General kel D Enter general information about the parameter to create a Name Param Dataset eso E Mame bedfriction MF Dataset egent zl Description Parami Description Jbedfriction MF Type unknown
39. discretisation Both these parameters are listed in the inherited tab so select them and open the context menu right click Select Modify and check the parameter tab These two parameters are now listed in the parameter tab and should be defined for the local discretisation 7 Surface water 34 Royal Haskoning Triwaco User s Manual FE Triwaco Integrated Modelling Environment Model Tutorial Local oJ File Edit view Model Dataset Tools Windows Help Ua a Project Tutorial Local E Tutorial SOBEKCF Ol Ga GA Refresh Tutorial Regional E E See Dataset Type Description Model Je Discr regional Design p Tutorial Local Open Ai Rela Dataset Properties Alt Enter Ha Mew Dataset New Dataset Select type of dataset and enter 4 name Installed Dataset Types Discretisation Simulation Scenario Dataset name Discr reference Location Ce Projecten 9T 1961 Trivaco2008 Tutorial Tutorial S OBER CF Tukorial LocalDie z Back Next gt Cancel lx EE New Dataset Associated Datasets The Following dataset are related Parent Dataset Tutorial Regional Discr regional E lt none gt Discretization Dataset Bideei ug RT d do np Tutorial Regional Design 1 Datasetis time dependent Time discretisation is inherited From parent dataset lt Back Next gt Cancel 7 Surface water 35 Triwaco User s Manual Royal Haskoning
40. e boundary TF boundary TF Sobado jn Sim reference boundary TP boundary_timet bedfriction MTC bedfriction MRC bedfriction SF bedfriction STC bedfriction SRC initialbranch NM initialbranch CI initialbranch_Q_ structure NM structure DD structure C structure CJ controltime NM controltime AC controltime CA controltime CF controltime BL controletime ta controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic contenha llir oe boundary_TP boundary _timet bedfriction MTC bedfriction MRC bedfriction SF bedfriction STC bedfriction_SRC initialbranch NM initialbranch CI initialbranch_Q_ structure NM structure DD structure C structure CJ controltime MM controltime AC controltime CA controltime CF controltime BL controletime ta controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhydraulic controlhyerat llir ae Jas somo fp zo Jk EE stato Jk somo foi ww Jk EC SobDef SobDef SobDef SobDef SobDef SobDef SobDef SobDef SobDef SobDef SobDef SobDef Sim reference SobDef HH Sim referenre SnhNef Weir Orifice Pump Culvert Universal weir Bridge La
41. e itis obvious that the fields Filename Datasource and Layer are automatically filled The fields Filename and Datasource will now be the same as shown in the figure Select from the pull down menus of the fields Ids and Values the attribute ID Notice that this attribute is a field from the selected shape file bound regional shp Leave the field Filter empty en click Close Parameter Properties 7 SI General Input Type of Input Filename Browse Datasource Join Layer Refresh ds zl Show table Values BMD Filter Close open Rat Look ir IS Modeldata OH Ki e E bnd points shp bound local shp bound regional shp Desktop My Documents Mu Computer L TA My Network File name bound regional shp Places Files of type ESRI Shapefiles D shp Cancel wes 7 Surface water 13 Royal Haskoning Triwaco User s Manual EE Parameter Properties f x General Input Type of Input Mectormmap sl Filename D sProjectent9T 1961 Trimaco20084T utorial Modeldata bound_reg Browse Datasource D Projecten 91 1961 _Triwaco2008 Tutorial Modeldata bound_teg Join Layer bound regional sl Refresh Values ID Filter Close Note that the status bullet in the dataset for the boundary parameter is now green You can check to see if the files are stored in the right directory the name of which must be the same as the name of the grid dataset Select and open the conte
42. e water model and give it the name Tutorial Regional since we will start by setting up the regional model first BEES General Information Select the type of model to create and enter the name of the model Installed Model Types Groundwater Mirman es Unsaturated Linked model Effect model Fainfall Ru model model zone model model Model name Tutorial Regional Location Ce Projecten 7T1961_ Trivwaco2008 Tutorial Tutorial SOBEKRCF Tuborial Regiona lt Back Nexk gt Cancel In the next window one can select the model code to be used for the simulation Currently Triwaco supports only one surface water model SOBEK CF a package for hydraulic modelling developed by Deltares WLDelft Hydraulics In this tutorial we will set up a surface water model with the model code SOBEK CF 7 Surface water 6 Royal Haskoning Triwaco User s Manual EE New Model Ioj x Model Code ir This page enables you to select the computer code For your model PS Installed Surface water model computer codes SobekCrF Parent Model Parent Model Code DH lt Back Next gt Cancel In the window there is also an option for selecting a parent model This is used when setting up a sub model or scenario based on a previously created model For now this option is not used Select next and finish to create the model The SOBEK CF model with the name Tutorial Regional is now added to the project The SOBEK CF model can be o
43. en shot below shows all parameters for defining a discretisation dataset that can be used to set up a 7 Surface water 10 Royal Haskoning Triwaco User s Manual SOBEK CF surface water model Currently all parameters have a bad status red colour in our case meaning the parameter maps still have to be defined as we show in the next paragraph Tutorial Regional Discr regional Oat 4 Ca o Parameter Type Description Input Value Field dllocator Default Dataset M END Grid boundary polyg vector map BND BND None O Discr regional wi REACH Grid CF reach Vector map REACH REACH None D Discr regional wi CALCPNTDENS Grid CF calculation pp Vector map CALCPNTDENS CALCPNTDENS None D Discr regional wi FIXEDCALCPNT Grid CF fixed calculat vector map FIXEDCALCPNT FIXEDCALCPNT None O Discr regional wi LATDISPDNT Grid CF lateral discha vector map LATOISPHT LATDISDNT None D Discr regional wi MEASPHT Grid CF measuremen vector map MESASPHT MEASPHT Mone D Discr regional w PROFPNT Grid CF profile point vector map PROFPNT PROFPNT None O Discr regional OCFBRENCH Grid Nodes For conne vector map RRCONNECTIO RROONNECTIO None D Discr regional OCFENODE Grid Nodes For conne Vector map RRCONMECTIO RRCONMECTIO None D Discr regional wi BOUNDARYPNT Grid CF Boundary Mode vector map BOUNDARY PAT BOUNDARY PNT None O Discr regional wi WEIR Grid CF weir Vector map WEIR WEIR None D Discr regional wi CULVERT Grid CF culvert vector map C
44. ere it went wrong look into the log file To view the log file Dataset View Print To view the resulting grid Dataset View Output 7 Surface water 15 Royal Haskoning Triwaco User s Manual F Trimaco Integrated Modelling Environment Dataset Tutorial Regional Discr regional ad File Edt View DEH Project Generate Dataset Build Parameter Tools Windows Help egional Discr regional Bs Type wa rid boundary polyg vector Grid Explore View El Ho Tutorial SOBEKCF Tutorial Region Description Input CF reach vector r Properties Alt Enter S CALCPNTDENS Grid CF calculation p Mone FIXEDCALCPNT Grid CF fixed calculat Vector r v LATDISPNT Grid CF lateral discha Vector r wl MEASPAT Grid CF measuremen Mone PROFPNT Grid CF profile point vector r Started Elapsed Stopped gensoni exe C Program Filesif OslProjectent Comple 15 18 SonetilF C Program FilesiR Comple 15 18 2008 Tutorial Tutorial SOBEKCF Tutorial Regional Discr regional grid teo E l lSl X File View Param Time Window Help alala lala B a 4 Pa eer 1D Boundary D Rivers do Weirs A Fixed calculation p e Lateral discharge Profile points y Boundary points H 7 Surface water 16 Royal Haskoning Triwaco User s Manual 7 4 Setting up design dataset the conceptual model set up
45. esignl profyz tables Profile profyz tables E profyz tables profyz tables Constant Do beigi Parameter Properties General Input Type of Input Table D Provider Microsoft Excel MySQL Microsoft Access db ase Table Microsoft Excel Jain D atasource Connect Ids Show Table Values Refresh Filter Q2 am o Parameter Type Description Input Value Field Allocator Default Dataset profile Ty Profile profile Ty Constant 10 Constant 10 Design profyz NM Profile profyz NM Vector map profile points ID SOBEK Sobado 0 Design O profyz tables profyz tables profyz tables profyz tables Constant o pen El Parameter Properties l l General Input Type of Input Table DI Workbook Provider Microsoft Excel e Browse Password Datasource D Projecten 911961_Triwaco2008 T utorial T utoria SOBEKCF T utori TT Table leche tables v Join Connection String Ee o sl Show Table Driver Microsoft Excel Driver xls Values profyz tables v Refresh EEE e Filter Look in E Geodata D O gt E EE Microsoft Excel Connection My Network File name profie yz xls DI Places Files of type Excel files xls DI Cancel KE Inherited Parameters River Boundary point Profile Weir Lateral discharge point 7 Surface water 26 Royal Haskoning Tutorial Regional Designi Triwaco User s Manual OTA mo Parameter Type
46. gional Local database construction Data of the watersystem is often available in a regional database The research area is a small part of the regional database We will show you how to use the regional database to set up a local SOBEK CF model using Triwaco 7 2 3 Definition of a Triwaco Project Now we show you the steps to take for making a SOBEK CF model using Triwaco We keep to the main route extra options are mentioned with the letter E and shown in italic Important notices are indicated with NB Modelling with Triwaco always starts by defining a project Choose File New if you want to set up a new modelling project otherwise choose File Open and look for the location and name of your project A wizard will pop up which will guide you through setting up de project 7 Surface water 4 Royal Haskoning Triwaco User s Manual FE New Project General Enter general information about the new project here Project name Tutorial SOBEKCF Location em Models Tutorial Tutorial SOBEKCF Browse Description lt Back Next gt Cancel After finishing the wizard you will see the start window of the modelling environment with the new project added in the project list See figure below It gives all information of de modelling project models datasets and parameters For more information on the modelling environment see chapter 5 To add or remove windows go to the menu View in the top of the applica
47. grated Modelling Environment Model Tutorial Regional ad File Edit view Model DRH Project Dataset Tools Windows Help F Add dataset Build God Tutorial SOBEKCF E Tutorial Regional Generate Hun VIE Explore Refresh AlE Enter Properties In the second window one can choose the type of dataset There are four types of datasets each with its own characteristics and purpose e Discretisation Defines the network or calculation grid boundaries and model attributes e Design Defines the conceptual model using GIS maps and tables e Simulation Here is where the data from the conceptual model is linked to the calculation grid The model is now prepared to run with the modelcode e Scenario Is similar to the simulation dataset It is base upon the simulation dataset or another scenario dataset The dataset is created with parameters linked to the parent dataset Only parameters that need to be altered for that scenario have to be specified Each of these will be created in this tutorial with exception of the scenario dataset In surface water modelling the discretiosaint of a scenario is often different in comparsion to the discretisation of the reference model When defining a new discretisation one have to set up a new simulaiton dataset So in surface water modelling the simulation dataset is preferred in fovour of the scenario dataset This will become clear in the rest of
48. he y z cross section profile definition see figures below This is executed by the parameter profyz_tables We have the profile definitions of the four profiles of the Tutorial model listed in a excel workbook profile xls in directory XXX Open the context menu right click of the parameter profyz tables and select Properties In the pop up window select the tab Input and use the input type Table In the appeared field Provider select Microsoft Excel because we have the profile definitions in an excel spreadsheet Connect the right data source by browsing for the location XXX of the file profile xls In the field Table one can select the right worksheet Use the pull down menu to choose the Tutorial worksheet Now it is possible to look at the connected table by Show table function The table has three columns ID SOBEK Y and Z The first column is necessary for identifying the profile definition and link it to the discretisation Therefore select ID SOBEK from the pull down menu next to the Ids field The Value field cannot be defined using the pull down menu because we have to declare two columns namely Y and Z Therefore fill in Y Z manually The final step for this parameter definition is to define its allocator Allocation is translating parameter values defined by maps or tables to a calculation grid and is carried out by allocators Allocation is the spatial or temporal interpolation or up down scaling Transformation to
49. ining all parameters the discretisation dataset is finished and should look like the dataset in the figure below 7 Surface water 14 Royal Haskoning Triwaco User s Manual Tutorial Regional Discr regional G lanle Parameter Type Description Input Value Field allocator Default Dataset BND Grid boundary polvo Vector map bound regional ID None D Discr regional GA REACH Grid CF reach vector map river ID_SOBEK None D Discr regional GA CALCPNTDENS Grid CF calculation pp None None None D Discr regional GA FIXEDCALCPNT Grid CF fixed calculat Vector map cal points ID_SOBEK None D Discr regional GA LATDISDNT Grid CF lateral discha Vector map laterals ID_SOBEK None D Discr regional GA MEASPIT Grid CF measuremen Mone Mone Mone LU Discr regional GA PROFPNT Grid CF profile point vector map profile points ID_SOBEK None D Discr regional OFER BNO as Nodes For conne None None None D E OCFMODE Grid Nodes For conne None None None D Discr regional GA BOUNDARYPNT Grid CF Boundary Node Vector map bnid points ID_SOBEK None D Discr regional GA WEIR Grid CF weir vector map Weir ID SOBER Mone LU Discr regional GA CULVERT Grid CF culvert None None None D Discr regional GA PUMP Grid CF pump None None None D Discr regional GA UNIWERGALWETI Grid CF Universal weir None None None D Discr regional GA BRIDGE Grid CF Bridge None None None D Discr regional GA ORIFICE Grid CF Orifice None None None D Discr regional 7 3 4 Gener
50. l Regional Design 7 Discretization Dataset Tutorial Local Discr scenario Tutorial Regional Discr regional Tutorial Local Discr reference Tutorial Local Discr scenario Dataset is time dep Time discretisation is inherited From parent dataset EE Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim scenario lt Back Next gt Cancel od File Edit view Dataset Parameter Tools windows Help GSM E E Tutorial SOBEKCF a Tutorial Regional E Discr regional O 2 4 BBI Parameter Type Si boundary vi are Design1 o Tutorial Local Discr reference Edit Add Parameter View boundary boundary _ oundary es ECrriction_ 2 Sim reference Explore Tutorial Local Sim scenario Description be Discr scenario a edrriction T bedfriction edrriction_ Build Modify Clean Mi Sim scenario Allocate bet riction_ initialbranch Cut ME 3 Copy Ctrl x Ctrl C Wo o Delete Ctrl Del structure Mie Ckri y structure Di rename F2 structure C structure 4 Select All Ctri A G Refresh F5 Alt Enter Ver dala COM structure C controltime _ Properties controltime Al Structure controltime_CA 5 contr controltime CF contr controltime BL controlecime ca interp name COM neons Structure CON rr Structure Jef data id of Structure Structure Interp Structure id Fo
51. lt options so select Next to continue without changing the program options These program options can be changed at any time by selecting Dataset Properties and tab Options for the selected dataset 7 Surface water 9 Royal Haskoning Triwaco User s Manual loxi Program Options w Review or change the program options here Lef Options For Discretisation Program Soneto ls Section Option Value Description Grid MinDistInBnd o Snap distance F MinDistInkiv Snap distance F ER ee Dosis Date CC lt Back Wei Cancel The next window is used to define parameters for the specified dataset In the figure below the parameters for model boundary rivers calculation grid density fixed calculation points and lateral discharge points are shown BND model boundary REACH rivers CALCPNTDENS density of the calculation grid FIXEDCALCPNT fixed calculation points LATDISPNT lateral discharge points BER Parameters The Following parameters will be generated Pa E Type Mame Default Description lant eoe KR fixed ale asd LATDISPNT CF lateral discha r Reset lt Back Next gt Cancel Usually there is no need to make changes to the specified parameters so select Next and after that Finish Now the dataset is created and appears as part of the model We will show you in the next paragraphs how to remove use and add parameters to the dataset The scre
52. me NM controltime NM SobDef controltime AC controltime AC SobDef controltime_CA controltime_CA SobDef controltime CF controltime CF SobDef controltime BL controltime BL SobDef controletime ta controletime ta SobTab controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef controlhydraulic controlhydraulic SobDef Sim srenarin controlhverailic controlhveranilic SnhNef Bridge Lateral discharge point Profile Connection point Boundary D 7 Surface water 51 Royal Haskoning Triwaco User s Manual RI Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim scenario a File Edit View Dataset Parameter Tools windows Help ibe Tutorial Local Sim scenario GTA Za lo Parameter Type E 29 Tutorial SOBEKCF Efe Tutorial Regional Discr regional Description Input Value Field Allocator Default Dataset VY bedri bediriction_ ME constant 7 Constant 7 Design Design1 s See Decfricton MTE Vector map niver FRIE BE Sobado 30 Designs ES Tutorial Local ALi D I
53. ment Dataset Tutorial Regional Design1 Triwaco User s Manual od File Edit View Dataset Parameter Tools Windows Help JB E Tutorial SOBEKCF ob Tutorial Regional Tutorial Regional Designi OK om o Parameter Type gt boundary Ti Edit add Parameter boundar boundar VM i e UO boundar Explore boundar g Ueleg es 9 3 3 3 2 Clean boundar Allocate bedfricti Build 9 ricti Modify Rename Description via daha Ctrl x Ctrl C F2 bs ee Select All structure NM Structure structure DD Structure structure C Structure structure CJ Structure controltime NM Structure controltime AC Structure controltime C Structure controltime CF Structure controltime BL Structure Ctrl 4 F5 Alt Enter CEEE Grid data Grid data Grid data Grid data Def data Def data Def data Def data Def data Yaue name id of t indica contr name Contr contr contr interp Input Vector map vector map vector map vector map vector map vector map Vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map vector map Vector ma D Value boundary Ty boundary FORM boundary VALUE b oun d ary Ett D boundary_timet boundary_hgtab
54. nd_local Refresh Ids ID Show table Values ID Filter Close For the weirs we use the same shape file weir shp but use a filter to select which weir is to be added in the discretisation and which not The filter is defined by two attributes in the shapefile mod_ref and mod_scen The filter is binair a Zero 0 means not added to the discretisation and a one 1 means it should be added to the discretisation The filter are being used in the input screen of the weir discretisation parameter see figure In the field filter one must fill in an logical expression like mod_ref 1 or mod_scen 1 It depends on the expression used which weir is added to the model The shape of the Tutorial has already a filter to seperate the refernec3e fromn the scenario situation Normally the user have to add filters to the shape files In fact modelling is done in a GIS environment and not in the SOBEK interface See the figures below how the use the filter of the weir in the Tutorial model 7 Surface water 38 Royal Haskoning Triwaco User s Manual HE Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference oJ File Edit View Dataset Parameter Tools Windows Help DEH Tutorial Local Discr reference E E Tutorial SOBEKCF Oz Aa o ob Tutorial Regional Discr regional 3 Designt ob Tutorial Local Description boundary polyg vector map bound local Discr refere CF weir Vector map ID SOBEH O Di
55. ne the type of the cross section definition This parameter can have several value which represent different types of cross section definitions In this case we use the value 10 for a y z cross section definition So open the context menu right click on the parameter profile TY and select the tab Input of the pop up window Choose Constant from the pull down menu of the field Type of Input and fill in 10 in the Value field 7 Surface water 22 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl PE O7 4 BBI Parameter Type Description Input Value Field allocator Default Dataset S profile Ty Profile profile Ty Constant D Constant D Design Q ache o EE Parameter Properties o Pasigi GA profyz tabl O Design General Input Tue stet Joen d Value D The parameter profyz NM links a ID name to a y z cross section definition We have used a shape file with profile points in the discretisation dataset Per profile point a ID has been defined and we will use the same ID s for the cross section definition Open the context menu of the parameter profyz NM right click and select the function Properties In the pop up window choose the tab Input and select the input type Vector map Next browse for the shape file prof points shp in the directory XXX The field for Filename Datasource and Layer are automatically filled in The fields Ids and Values must link to the attribue ID SOBEK in the
56. ntaining all information of a catchment area However we do not want to model a large catchment but just a small piece of the upstream area Therefore we have to define a second modelling level on which the local Tutorial model is based First we add a new Surface water model to the Tutorial SOBEKCF project which we call Tutorial Local Triwaco Integrated Modelling Environment Project Tutorial SOBEKCF ad File Edit view Project Model Tools Windows Help iii Tutorial SOBEKCF pesada Ls OD Refresh Open H Tutorial Regio he Code Gridder RB Discr a Add Model DECES Dl Sobek CF SonetlF g Refresh Properties Alt Enter mg Design FE New Model General Information Select the type of model to create and enter the name of the model Installed Model Types Groundwater Kies Unsaturated Linked model Effect model Fainfall Ru model model zone mode model Model name Tutorial Local Location D Projecten 971961_Triwaco2008 Tutorial Tutorial SOBEKCF Tutorial Lacal lt Back Heckt Cancel 7 Surface water 33 Royal Haskoning Triwaco User s Manual In de model code window we now select a parent model namely Tutorial Regional The local model will become a sub model of the regional model KE Model Code This page enables you to select the computer code For your model as Installed Surface water model computer codes D SobekoF Parent Model Parent Model
57. out the different parameters can be found in the parameter xls spreadsheet For now we only show you the input values of the river parameters see figure below Tutorial Regional Designl GTA Za lo Parameter Type Description Input Value Field Allocator Default Dataset GA bedFriction MF River bedFriction MF Constant H Constant H Designl GA bedFriciton_MTCPVALUE River bedFriciton MTC vector map river FRIC BE Sobada O Designl GA bedFriciton MECPYALUE River bedFriciton MEC vector map river ERIC BE Sobada 0 Design GA inikialbranch Tv River initialbranch_TY Constant 0 Constant oO Design O initialbranch L LLYALUE Liver initialbranch Lvl vector map INL WUERT Sobado mooo The figure below shows the parameters for the boundary points The Tutorial model has one boundary point with a Q h relation Make sure all parameters in the boundary point tab are defined as shown in the figure 7 Surface water 30 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl O2 4 Ga lo Parameter GA boundary Ty q boundary TD boundary Type Boundary p GA boundary FORA Boundary p Boundary p Hotal Boundary p Description boundary boundary TY boundary FORM boundary ID _hgtab Input Constant Vector map Constant Value Field 1 4 bnd points ID_SOBEK Alocator Constant Constant Sobado Default 1 4 Dataset Design Design Design
58. pened in several ways One can open it by double clicking at its location in the project tree of the project window or one can select Model Open in the main menu The model is currently empty and contains no datasets In the next paragraphs we will show how to add the necessary datasets to define the Tutorial model We will start by setting up a discretisation dataset where the calculation grid is defined 7 Surface water Royal Haskoning Triwaco User s Manual 7 3 Setting up a discretisation dataset regional The SOBEK CF calculation grid is set up in the following steps 1 definition of the discretisation dataset 2 definition of the model boundary 3 definition of the model attributes grid parameters When the discretisation dataset model boundary and model attributes have been defined the grid can be generated final step 7 3 1 Step 1 Creating a discretisation dataset The data for the generation of the network calculation grid is defined in the discretisation dataset For the discretisation of the Tutorial model we will use shape files for boundary rivers and other model attributes weirs laterals All data used in this tutorial is available in the directory My Models TutorialData First we add the discretisation dataset to the model by selecting Dataset Add Dataset from the main menu A pop up window will appear similar to that of adding a model Again in the first window select Next to continue Triwmaco Inte
59. put Table Provider Microsoft Ed sl Datasource D 4Projecten 9T1961_Triwaco2008 Tutorial Geodata profileyz xls Connect Table Tutorias i Ids Gamer rr zl Show Table Values i Refresh 7 Surface water 28 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl GT A am o Parameter Type Description Input value Field allocator Default Dataset GQ profile Tv Profile profile Ty Constant 10 Constant 10 Design profyz NM Profile profyz NM vector map profile points ID SOBEK Sobado 0 Design profyz tables Profile profyz tables able Tutorial profyz tables Constant Designl ES Parameter Properties General Input Type of Input Table sl Provider Microsoft Exe sl Datasource D Projecten 9T1961_Triwaco2008 Tutorial Geodata profileyzxls Connect Table uo sl Join Ids lDsoBk O Show T able Values WA Refresh Filter Tutorial Regional Designi QBIsBBIO Parameter Type Description Input Value Field allocator Default Dataset GA profile Ty Profile profile TY Constant 10 Constant 10 Design GA profyz WM Profile profiyz NM vector map profile points ID SOBEK Sobada Designl The parameters for the profile points are finished and your List window screen tab profile points should be look like the figure below 7 Surface water 29 Royal Haskoning Triwaco User s Manual Tutorial Regional Designl TERETI Parameter Type Description Input Value
60. r T T T T T T T T T T T T T T T T T T T T T J e e e T T T T e 2 Structure branc a controlhydraulic SE Striictiire Nef data Fahle Inherited Parameters Boundary River Structure Weir Input d ck or ma D Vector map Vector map vector map Vector map vector map Vector map Vector map vector map Vector map vector map vector map vector map Vector map Vector map Vector map Vector map vector map Vector map vector map Vector map vector map Vector map Vector map vector map vector map vector map Vector map vector map Vector man Value Field Allocator Default Dataset boundary VALUE boundary VALUE Sobado 0 Sim scenario boundary_TP boundary_TP Sobado jn SobTab Do sce bedfriction MTC bedfriction_MTC Sobado ES Sim scenario bedfriction_MRC bedfriction MRC Sobado ES Sim scenario bedfriction SF bedfriction SF Sobado ER Sim scenario bedfriction STC bedfriction STC Sobado E Sim scenario bedfriction SRC bedfriction SRC Sobado E Sim scenario initialbranch NM initialbranch NM EO jn Sim scenario boundary_timet boundary timet initialbranch CI initialbranch CI initialbranch Q MM structure NM structure DD structure CA structure CJ structure NH structure DD structure CA structure CJ Sobado 1 Sim scenario Sobado Sim scenario Orifice Pump Culvert Universal meir controlti
61. riwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference od File Edit View Dataset Tools Windows Help Dea Parameter Tutorial Local Discr reference OF A ae o Parameter Type Description Input ee Field TTT locator Default Dataset O aw Grid REACH OQ CALCPNTOENS Grid OQ seres cen Grid snpsenr Grid MEASPAT Grid rrorrevr Grid ei RRCONNECHO A CLS WUL J vi Di P OCAVODE Grid Nodes for come None None None SOLNDARYPNT Grid Q wer Grid E 29 Tutorial SOBEKCF ob Tutorial Regional Discr regional Design1 ob Tutorial Local Discr reference boundary polyg Vector map bound regional 2 fone 5 Discr regiona EF reach Vector map river ID SCHER Mone Biscr regional GF calculation p fone None fone Biscr regional GF fixed catculat Vector map catpoints JD SOBEX fone BDiscr regional GF lateral decha Vector map iaterais JP SOBEX fone Discr regional CF measuremen Vane fone Mane Discr regionar CF profile point Vector map profile points JD SOBEX fone BDiscr regional Nodes for cone None None fone Biscr regional BDiscr regional GF Boundary Node Vector map bnidpoints ID SOBEX fone Dircr regional CF weir Vector map mes D SOBEX None Discr regionar cuverr OQ rime sense Grid Grid OQ sunersarwes Grid Grid CF culvert CF pump EF Universal mes GF Bridge CF Orice None None Aone Aone Aone Aone Aone
62. scr refere HE Parameter Properties General Input Type of Input Vector map Filename JD Projecten 9T1961_Triwaco2008 T utorial Geodata weir shp Browse EM Attribute Taine Datasource JD Projecten 3T1 961_Triwaco2008 T utorial Geodata weir shp Join lp ID SOBEK CRESTLEVEL CRESTWIDTH MOD REF e k 2 25 LJ 0 weir_Tutorial01 22 2 Filter FE Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference bt oJ File Edit view Dataset Parameter Tools Windows Help DEH Tutorial Local Discr reference a Ka Tutorial SOBEKCF HEES a Tutorial Regional Input value Allocator vector map bound local Description Grid boundary polyg None W Grid a Vector map We BEK au Parameter Properties xj General Input Type of Input Vector map DI Filename JD Projecten 9T1 961_Triwaco2008 T utorial Geodata weir shp Browse Datasource D Projecten T1 961_Triwaco2008 T utorial Geodata weir shp Join Leper wsi Refresh E Attribute Table Ids ID SOBEK E Values ID_S0BEK Ip ID SOBEK CRESTLEVEL CRESTWIDTH MOD REF MOD SCEN fg Discr regional I Design1 ob Tutorial Local B Discr reference 7 Surface water 39 Royal Haskoning Triwaco User s Manual RI Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference oa File Edit view Dataset Parameter Tools Windows Help DEA Tutorial
63. scr regional Add Parameter Ins ER PLP Mone None None d Biscr regiona View EMIVERSAL Mone Mane Aone d BDiscr regional Explore BRIDGE Aone Aone Aone d Biscr regional ORIFICE Clean None None Aone d Biscr regional Allocate Build Chr Ctrl C Ctrl Del Ctrl V F2 Cut Copy Delete Paste Rename Select All ctrl 4 Refresh FS Alt Enter Properties EE Triwaco Integrated Modelling Environment Dataset Tutorial Local Discr reference oJ File Edit View Nba E E Tutorial SOBEKCF ob Tutorial Regional 3 Discr regional MB Designi ob Tutorial Local Discr reference Dataset Parameter Tools Windows Help Tutorial Local Discr reference GEI Kal o Parameter Type END Grid Q weir Grid CF weir Dataset Discr refere Description Input value Field Allocator Default boundary polyg Vector map None 0 Vector map None 0 Discr refere The boundary will be defined by a shape file bound_local shp This shape file is located in the directory XXX Make sure the input screen is like the figure below 7 Surface water 37 Royal Haskoning Triwaco User s Manual EE Parameter Properties WS E General Input Type of Input eeng Filename D Projecten 9T 1 OT Trvaco2Z0084T utora Modeldata bound_loc Browse D atasource D sProjectentaT OT Triwaco20084 T utornal Modeldataybound loc Join Layer bou
64. selecting Dataset Run Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim reference oi File Edit View Tools Windows Help Dataset Parameter D GH Build ET generate m cal Sim reference E KO Tutorial SOBEKCE Explore IRIS Eq mi Bun Type Description Had Discr regio Vie i SEE ana FE Desi Execute the dataset s model code Oe UO 9 gt esignl Properties Alt Enter Aver decfrictoan MIC C J Tuborial Loc Es SE EE a ALE iver Decision Mie EE 7 ivbabran ZF River Jhabea Pr E ZC EN Abaran Il L 9 Je Discr scenaria ALE weer habran W d Sim scenaria amp DORIGA TY Foundarpr D boundary _ TE amp Poundarp ORT GOWA D Poundarpo FOR amp Poundarp D Sounder Doundary IO G Pouncarpr AGEA DOLUNCA o Pouncar AGAD Transfer Sobek network data files Ioj x TUTORIAL it Project Case Tutorial reference Tutorial scenarno Lu cr relerernce A pop up window is opened where one can choose the right SOBEK project and SOBEK case Select the SOBEK project TUTORIAL it and case Tutorial reference Notice that this SOBEK project should exist as dummy project with dummy cases on the C SOBEK directory For this tutorial the SOBEK project and cases have already been made so you only have to copy it to the right SOBEK directory 7 Surface water 46 Royal Haskoning Triwaco User s Manual 7 7 Setting
65. set It is not neccesary to create a design dataset because we can inherit all parameter definitions from the Regional design dataset So add a new dataset to the project tree Choose a simulation dataset and name it Sim scenario 7 Surface water 49 Royal Haskoning Triwaco User s Manual 2008 Tutorial Tutorial SOBEKCF Tutorial Local Discr scenario grid teo 8 m Ei x X File View Param Time Window Help 8 x aa ASAR Efe s elo Boundary Lateral discharge Profile points d Boundary points 5 141157 06 371477 20 EE New Dataset New Dataset Select type of dataset and enter a name Installed Dataset Types Dataset name Sin scenaria Name of the model to create Location Select the Tutorial Regional Design1 as the Parent dataset and the Tutoral Local Discr scenario for the desired scenario network Select Next a couple of times and the scenario simulation dataset will be added to the project tree Open the parameter window by double clicking it in the project tree The necessary parameters have been inherited from the design dataset tab inherited and again a large number of additional parameters have been added to the dataset tab parameter These additional parameters should be deleted 7 Surface water 50 Royal Haskoning Mew Dataset Associated Datasets The Following dataset are related Parent Dataset Triwaco User s Manual 10 x Tutoria
66. teral discharge point Profile Connection point Boundary p 7 6 2 Allocating the entire dataset and making all parameters up to date Build Since modelling is a process of entering data calibration adapting and changing maps and parameters keeping track of all changes made is difficult Triwaco already provides a lot of useful information via the status indicator and dependencies However with a lot of data you want as quickly as possible allocate all necessary parameters to do another simulation For this there is the option Build This option checks the status of all parameters in the dataset and allocates them if necessary It will also check the dependencies of parameters and will in order of dependencies allocate them So with one push of the button the entire dataset is up to date You may test this option even though all parameters at the moment are up to date From the pull down menu Dataset select Build The building process starts In the Jobs pane you will see the progress In the Output pane information is provided for each parameter If one of the parameters fails the reason for this is given so the appropriate action can be taken There is always a change of error in the model input files ado even though the status indicator may be green It is therefore recommended to check all the allocated data adore files before running a simulation One can easily check the outcome of the allocation by looking at the summary of
67. the parameter in Triwaco Select the parameter and open the Properties Window You will now see that next to General and Input tab an additional tab is present Output Go to this tab to look at the allocated data 7 Surface water 44 Royal Haskoning Triwaco User s Manual Triwaco Integrated Modelling Environment Dataset Tutorial Local Sim reference oi File Edit View Dataset Parameter Tools Windows Help DGH Froject Generate E Go Tutorial SOBEKCF Explore SE Tukorial Region E Type ne fem Design i Ever ENS Tutorial Lon Properties 4lk Enter KW rm SE Discr reference ALLE E Sim ref l UM stiabranct_ Mr River ma SUI dh Ena Aker w bawidary ZF Gou ndark D ep bawidary AO Fonda e boawidary JO Foundarpp ep bowidary AGEA Soundary Doos we prata Pr Profit d eh d de di d d M Make all parameters up to date rence Description bechten Se beakeiotan_ MIC decifriotos MTE initiairanc Pr Ztafcanch Cbr boundary Pr bawidary AON boundary do bowidary Agtad orate Pr d de di d Additionally it is important to check the model within the SOBEK interface with the tools Validate network and Check Flow model This is possible when the SOBEK files have been copied in the designated case after executed Run see paragraph XXX 7 6 3 Generating the SOBEK CF model files Generate When
68. tion window The modelling environment is fully customizable and each window can be put at any location by simply drag and drop EE Triwaco Integrated Modelling Environment Project Tutorial SOBEKCF a File Edit View Project Model Tools Windows Help DEH Tutorial SOBEKCF ne A Ee E G Refresh Ria Tutorial SOBEKCF Gridder e tis possible to use your favourite text editor instead of the standard OpenSource editor that comes with Triwaco Notepad To do this go to Tools in the task bar at the top Select Edit Database This will open the database in Access or other database editor Go to Applications and change the path and location of your favourite text editor 7 2 4 Setting up a SOBEK CF model If you want to add a new surface water model like SOBEK CF to the project this is done by Model Add 7 Surface water 5 Royal Haskoning Triwaco User s Manual Model An existing model will already be listed in the project window EE Triwmaco Integrated Modelling Environment Project Tutorial SOBEKCF aH File Edit View Project Tools Windows Help D GSM Open Project F 4dd Model o IM Tutorial SOBEKCF S Build Explore amp Refresh Properties A wizard will pop up In the first window select Next to continue In the second window one can choose the type of model see figure below In our case we want to set up a surface water model So select Surfac
69. tire dataset and making all parameters up to date Build 2 44 6 6 3 Generating the SOBEK CF model files Generate eterna 2 45 6 6 4 Copy SOBEK files for simulation Fun 2 46 6 7 Setting up a Scenario scenario situation 2 47 6 7 1 Creating a scenario dataeet E 2 47 6 7 2 The discretisation of the scenario model 2 49 Royal Haskoning 7 1 Supported models The following surface water models are supported by the triwaco modelling environment Triwaco User s Manual Modelcode Developed by Description Chapter SOEBK CF WL Delft Deltares Hydraulic model for stationary and transient surface water flow 6 7 Surface water 3 Royal Haskoning Triwaco User s Manual 7 2 The SOBEK CF Tutorial defining a Triwaco project 7 2 1 Introduction There are several possibilities to get to know Triwaco The most extensive information on the software package can be found in the next chapters of the manual that includes not only an explanation of how to run the software but also contains extensive background information of the different modules and supported model codes This information can also be accessed by the Help function This tutorial gives an introduction on how to set up and run a SOBEK CF surface model in Triwaco It is meant for those who are familiar with SOBEK CF modelling and wish to get a quick view of the normal method
70. to set up and to run a SOBEK CF model and the standard possibilities of Triwaco A complete view is obtained by using the manual It is strongly recommended that prior to starting this exercise one first reads through the previous chapters which explain the general philosophy and handling of the Triwaco modelling environment Especially chapters 3 4 and 5 is recommended to read first The model set up in this tutorial will be located in the directory C My Model TutorialProject1 All data referred to in the text is available in the directory C My Models TutorialData A resulting version of the model is located in the directory C My Model Tutorial So when things go wrong or you don t know what to do one can always refer to this working model Below an overview of the successive steps of building a model in Triwaco is given 6 2 1 Setting up a triwaco project 6 2 2 Setting up a surface water model 6 2 3 Setting up a discretisation dataset 6 2 4 Setting up a design dataset 6 2 5 Setting up a simulation dataset 6 2 6 Setting up a scenario dataset Model building starts with the choice of boundaries and collection of data This is done without the use of the software and will not be discussed here Triwaco works with a clear hierarchical data storage structure The entry always is a project that can contain several models Every model consists of different connected datasets that contain different parameters 7 2 2 The SOBEK CF Tutorial Re
71. w T able Refresh 7 Surface water 27 Royal Haskoning Triwaco User s Manual Tutorial Regional Designi GTA Za mm o Parameter Type Description Input Value Field Allocator Default Dataset profile Ty Profile profile Ty Constant 10 Constant 10 Design1 profyz NM Profile profyz NM Vector map profile points ID SOBEK Sobado 0 Design1 O profyz tables profyz tables Tutorial profyz tables Constant o Designt FE Parameter Properties General Input Type of Input Table N prof Tutorial mn 25 5 Provider Microsoft Excel e prof Tutorial 7 21 5 Datasource D Projecten 3T1961_Triwaco2008 T utorial Geodata profile yz xls Co E prof Tutorialoi FOR 21 501 prof Tutorial 16 99825 25 5 prof Tutorial 24 5 H prof_Tutorial02 20 5 H Join Refresh Table Tutorial Ids v Values profyz tables e ri prof_Tutorial02 20 501 prof Tutorial 16 99825 24 5 Filter prof Tutorial 23 5 prof Tutorial prof Tutorial mm prof Tutorial 16 99825 23 5 prof_Tutorial04 mn 22 5 prof Tutorialos prof_Tutorial04 Tutorial Regional Designl GAl Parameter Type Description Input value Field Allocator Default Dataset GA profile Tv Profile profile Ty Constant 10 Constant 10 Designl profyz NM Profile profyz NM vector map profile points ID SOBEK Sabada 0 Designl EE Parameter Properties D General Input Type of In
72. xt menu for the parameter BND Right hand mouse button select Explore The windows explorer is opened in the directory where the file should be located 7 3 3 Step 3 definition of the model attributes grid parameters As mentioned before we can define parameters directly from several file formats see text box like a shape file set up in ArcView or ArcGIS MapInfo or any other GIS software In this Tutorial we will define all grid parameters directly using a shape file which is provided in the directory My Models T utorialData Modeldatal There is no need for copying the files in this directory to the project You could even leave it there for use in a GIS project in the same time In the same manner as the definition of the model boundary we will define the location and source data of all parameters Use the figure and information below to define all parameters REACH rivers My Models TutorialData Geodata rivers shp WEIR weirs My Models T utorialData Geodata weirs shp PROFPNT profile points My Models TutorialData Geodata profile points shp LATDISPNT lateral discharge points My Models TutorialData Modeldata laterals shp FIXEDCALCPNT fixed calculation points My Models TutorialData Modeldata cal points shp BOUNDARYPNT boundary points My ModelsiTutorialDatalModeldatalbnd points shp The remaining parameters will not be used in this Tutorial model and should therefore be set on None in the input information After def
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