Home
D-Waq DIDO User Manual
Contents
1. 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 5 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 6 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 7 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 1 1 00000000000000000E 02 1 00000000000000000E 02 1 000000 1 00000000000000000E 02 1 00000000000000000E 02 1 000000 Eta 2 2 00000000000000000E 02 2 00000000000000000E 02 2 000000 2 00000000000000000E 02 2 00000000000000000E 02 2 000000 Eta 3 3 00000000000000000E 02 3 00000000000000000E 02 3 000000 3 00000000000000000E 02 3 00000000000000000E 02 3 000000 Eta 4 4 00000000000000000E 02 4 00000000000000000E 02 4 000000 4 00000000000000000E 02 4 00000000000000000E 02 4 000000 Eta 5 5 00000000000000000E 02 5 00000000000000000E 02 5 000000 5 00000000000000000E 02 5 00000000000000000E 02 5 000000 Eta 6 6 00000000000000000E 02 6 00000000000000000E 02 6 000000 6 00000000000000000E 02 6 00000000000000000E 02 6 000000 Eta 7 7 00000000000000000E 02 7 00000000000000000E 02 7 000000 7 00000000000000000E 02 7 00000000000000000E 02 7 000000 A 6 Computational grid enclosure The computational grid enclosure file need to be specified the file is generated by RGFGRID see RGF
2. Figure 5 11 Window Observation Area to change the observation area name Insert point Upon selecting Edit gt Observation Area gt Insert Point click on i or use the key stroke i you can insert a point into the polygon The point will be inserted at the closest linear piece of the polygon Move point Upon selecting Edit Observation Area Move Point click on a or use the key stroke r you can move replace a point on the polygon Delete point Upon selecting Edit Observation Area Delete Point click on n or use the key stroke d you can delete a point on the polygon by indicating it Operations menu On the Operations menu see Figure 5 12 you may choose to change the centre of the stereographic projection remove the land boundary or generate a default aggregation 26 Deltares 5 3 1 5 3 2 5 3 3 5 3 4 5 3 5 5 4 Menu options View Settings Help Select Domain Delete Domain e Change Centre of Projection Delete Land Boundary Default Aggregation Figure 5 12 Options on the Edit menu Select domain If your project consists of multiple grids so called domain ceo an application you can Ey switch between the grids by clicking Edit Select Domain or click on the toolbar Next click on the grid you want to become the active grid Delete domain To delete a domain or grid select Edit gt Delete Domain Next click on an active or inactive grid When
3. Indicate Volumes IBI Dark cyan Active Volumes Mus Active Computational Boundary M Custom Active Open Boundary Nue Active DD Boundary Bi Custom Inactive Grid El Light gray Inactive Volumes IM Dark gray Inactive Computational Boundary ll Custom Inactive Open Boundary Wi Custom Inactive DD Boundary li Custom Volume Centre E Custom Observation Areas Wl Custom Dry Points W Black Thin Dams Wi Custom Ca JO c Figure 5 23 Options on Settings Colours menu 5 5 5 Sizes When clicking on the Settings Sizes menu a form opens in which you can define the linewidth and dotsize in pixels See Figure 5 24 34 Deltares Menu options P E Sizes Land Boundary Polygon Active Grid Indicate Volume Active Volume Active Computational Boundary Active Open Boundary Active DD Boundary Inactive Grid Inactive Volume Inactive Open Boundary Inactive DD Boundary Volume Centre Thin Dam Observation Areas Inactive Computational Boundary Figure 5 24 Options on Settings Sizes menu 5 5 6 Order caches The parameters set in the Order caches window see Figure 5 25 influence the drawing order of the several items The drawing order of the caches is 5 4 3 2 1 0 Cache 5 is drawn first and cache 0 is drawn last So the items which will drawn in cache 0 are drawn on top If there is no need to draw a cache it will n
4. Y Deltares systems y Den Enabling Delta Life D Waq DIDO Interactive grid editor for coupling FLOW with WAQ models User Manual D Water Quality Version 4 00 34158 28 May 2014 D Waq DIDO User Manual Published and printed by Deltares telephone 31 88 335 82 73 Boussinesqweg 1 fax 31 88 335 8582 2629 HV Delft e mail info deltares nl P O Box 177 WWW http www deltares nl 2600 MH Delft The Netherlands For sales contact For support contact telephone 31 88 335 81 88 telephone 31 88 335 81 00 fax 31 88 335 81 11 fax 31 88 335 81 11 e mail sales deltaressystems nl e mail support 2deltaressystems nl WWW http www deltaressystems nl WWW http www deltaressystems nl Copyright O 2014 Deltares All rights reserved No part of this document may be reproduced in any form by print photo print photo copy microfilm or any other means without written permission from the publisher Deltares Contents Contents 1 Guide to this manual 1 LI MN EL 1 1 2 Manual version and revisions eee 1 1 3 Typographical conventions o lt a soem e e 1 1 4 Changes with respect to previous versions lll 2 2 Introduction to D Waq DIDO 3 zd EN uolo nou Lom Reus roue oem E ar be Arm ee Xo e BE 3 22 Functionaldeseription 2 2 66 osos ooo x x o n Ru 3 2 3 Implementation specific aspects 3 3 Get
5. Minimum Value 1e430 Maximum Value 1e 30 Classes 20 X Co ordinate Legend 16 Y Co ordinate Legend 20 Figure 5 22 Options on Settings Legend menu o Autoscale Legend default On Specify whether the program should determine the isocolour values automatically or to do it yourself If you leave it to the program it will determine the minimum and maximum depth value within the viewing area and display the number of iso colours specified above Zooming in will always result in display of the same number of iso colours If you want to specify the isocolour values yourself you have to specify one of the three parameters below When zooming in the iso colour values will remain fixed o Minimum Value Specifying this value turns autoscale off o Maximum Value Specifying this value turns autoscale off o Classes default 20 The number of classes can be specified Deltares 33 D Waq DIDO User Manual o X Co ordinate Legend X Co ordinate of lower left corner of legend in pixels o Y Co ordinate Legend Y Co ordinate of lower left corner of legend in pixels 5 5 4 Colours default 16 default 20 When clicking on the Settings Colours menu a form opens in which you can define the colours for background land boundary polygons etc see Figure 5 23 E Colours Background Legend Background Text Land Boundary Polygon Bi Custom Active Grid IM Dark gray
6. Operational information displayed in the statusbar The purpose of D Waq DIDO is to create an aggregation file which can be used in the cou pling programs between a hydrodynamic simulation and D Water Quality i e Delft3D FLOW SIMONA and TELEMAC Exiting D Waq DIDO To exit the D Waq DIDO o Click Exit on the File menu 8 Deltares Getting started You will be back in the Grid and bathymetry window see Figure 3 3 o Click Return to return to the main window of Delft3D MENU see Figure 3 2 o Click Exit The window is closed and the control is returned to the desk top or the command line We encourage new users next to run the tutorial described in Chapter 6 Deltares 9 D Waq DIDO User Manual 10 Deltares 4 4 1 4 2 General operation General program operation instruction The main menu bar is positioned at the top of the screen Help Upon selecting Help User Manual the D Waq DIDO User Manual in PDF format will be opened Use the bookmarks in the contents to locate the subject you are interested in Print screen Press Ctrl P or click amp on the toolbar to obtain the print window for a hardcopy of the current screen File menu The file menu is the standard Open and Save As window The file mask depends on the type of data that you want to open or save You can change the directory by navigating through the folders It is possible to specify whether to Stay on the Start up Directory or not
7. lll nn Options on Settings gt Sizes menu lll Options on Order Caches window 2 00 00 ee len Options on Help menu varar rann Starting and final situation of the clarified D Waq DIDO session Hydrodynamic gid lu oso koe oor XR dem km a ee a Selected corner for the two by two aggregation Result of a two by two aggregation rv ran Area of influence defined by the polygon L 2 arva 0 a Save Aggregation window eee kk 4 Save Project window saving Friesian Tidal Inlet project Save Aggregation window saving the Friesian Tidal Inlet aggregation TELEMAC hydrodynamic triangular grid ls Finite Volume grid based on a triangular collocated hydrodynamic grid Aggregated Finite Volume grid 000000 a Example of computational grid enclosures NOOA 8 8 8 13 13 14 16 17 19 21 22 23 25 26 27 28 28 29 30 30 31 32 32 33 33 34 35 36 36 39 40 41 41 42 43 43 43 44 44 45 57 vii D Waq DIDO User Manual A 2 Dry points in model area A 3 Example of thin dams in a model area viii Deltares 1 1 1 2 1 3 Guide to this manual Introduction This User Manual concerns the aggregation module D Waq DIDO of the Delft3D software suite To make this manual more accessible we will briefly descri
8. o Stay on Startup directory default 0 Off When navigating through the directories in the file selecting window you can specify whether to always go back to the start up directory 1 or keep the latest directory 0 o Cells to Aggregate default 3 Maximum number of volumes which can be aggregated to one water quality volume for an unstructured grid for hydrodynamics TELEMAC allows the values 1 2 and 3 o Aggregation below Z level default oo The aggregation will be performed where the depth is deeper then the given reference level for the shallower parts of your model no aggregation will be performed l General Parameters Stay on Startup Directory 0 Cells to Aggregate 3 Aggregation below ZJevel 1e 30 xd Figure 5 20 Options on Settings General menu 32 Deltares Menu options 5 5 2 Change colour map When clicking on the Settings Change Colour Map menu a form opens in which you can select the relation between a parameter i e Depth and the loaded colour maps see Figure 5 21 l Join Parameter to Colour Map Parameter Depth z Colour Map Figure 5 21 Options on Settings Colours menu 5 5 3 Legend When clicking on the Settings Legend menu a form opens in which you can define how the iso colour figures should be displayed see Figure 5 22 g Legend Autoscale Legend 1 Number of digits 3
9. 31 0 88 335 8555 Company Buffel Enabling Delte Lite License Valid until 01 feb 2013 Figure 3 1 Title window of Delft3D After a short while the main window of the Delft3D MENU appears Figure 3 2 Several menu options are shown For now only concentrate on exiting Delft3D MENU hence o Click on the Exit push button The window will be closed and you are back in the Windows Desktop screen for PCs or on the command line for Linux and UNIX workstations Remark o In this and the following chapters several windows are shown to illustrate the presen tation of Delft3D MENU and D Waq DIDO These windows are grabbed from the PC platform For Linux workstation the content of the windows is the same but the colours may be different Deltares 5 3 3 D Waq DIDO User Manual ig EG Delft3D 4 1 0 D deltares Delft3D 4 1 0 Information and version numbers Grid and bathymetry Hydrodynamics induding morphology Waves standalone Partide tracking Far field water quality all modules Delft3D Utilities Exit Delft3D menu Select working directory Figure 3 2 Main window Delft3D MENU Getting into D Waq DIDO To continue start the menu program again as indicated above o Click the Grid button Next the selection window for Grid and bathymetry is displayed for preparing a curvilinear grid interpolate data on that grid and aggregate t
10. Modil R mooiman Figure 6 7 Save Project window saving Friesian Tidal Inlet project m Save Aggregation 84 O Lookin D Deltares Delft30 4 1 0 tutorial wag dido Vfriesian tidal inlet 000505006 ZF y My Computer Name Size Type Date Modil Filename friesian tidal inlet f34 dwq Files of type dwq Figure 6 8 Save Aggregation window saving the Friesian Tidal Inlet aggregation 43 6 7 D Waq DIDO User Manual TELEMAC grid files TELEMAC users can also use D Waq DIDO to aggregate the water quality grid cells TELEMAC is an hydrodynamic program which uses unstructured collocated triangular grids see Fig ure 6 9 Before you can start with this tutorial you have to start Delft3D and set the working directory to the tutorial model located on lt D3D_HOME tutorial waq dido bridge_in_river gt and load the file bridge 2 pillars geo gt File Import Grid Telemac Figure 6 9 TELEMAC hydrodynamic triangular grid Due to the collocation of the variables in TELEMAC and the need of finite volumes in the water quality program D Water Quality see D WAQ UM 2013 the hydrodynamic grid and the water quality grid are different as seen by
11. comparison of the Figures 6 9 and 6 10 Figure 6 10 Finite Volume grid based on a triangular collocated hydrodynamic grid The aggregation of water quality cells is not as straightforward as for structured grids with staggered variables used in Delft3D FLOW For Delft3D FLOW and D Water Quality the hy drodynamic grid and the default water quality grid is the same For unstructured grids we allow two different options of aggregation 1 Default aggregation 2 Aggregate at most three cells together 44 Deltares Tutorial The default aggregation means that all finite volumes around the hydrodynamic grid nodes indicated by a dot in the figures are disjunct For a three cell aggregation choose the menu option Edit Regular you can click the inter section point of three different volumes to aggregate this cells These three cells will be the starting point of the algorithm to aggregate as much as possible three hydrodynamic cells to one water quality cell Due to the irregularity of the grid you will see that some water quality cells are not aggregated and others are just aggregated to their neighbour o Click on intersection point o Click on the right mouse button to obtain the aggregation for the whole area Figure 6 11 IATA AA E AO ORL LOST CI EE Figure 6 11 Aggregated Finite Volume grid All other options of D Waq DIDO can also be used in combination with a TELEMAC grid Deltares 45 D Waq DIDO User
12. deleting a domain also objects defined on that grid will be deleted Change centre of projection For spherical co ordinates D Waq DIDO can use two different projections no projection and stereographic projection For stereographic projection a special function is implemented to centring the computer screen to the centre of projection and the sphere This function can be invoked by clicking the menu item Operations Change Centre of Projection see Figure 5 12 When using this command the centre of the projection is set to the centre of the screen This action requires recalculation of the projection and a new screen refresh The centre of the projection does not change when using zoom in zoom out or pan so there is no performance drawback and a smooth screen refresh is obtained Delete land boundary All the points of the land boundary are removed Default aggregation The default aggregation is no aggregation so all water quality cells are equal to the hydrody namic cells If a polygon is defined the default aggregation is restricted to the inner area of the polygon i e the default aggregation is performed on those cells which have their centres within the polygon View menu On the View menu you may choose to display several data sets see Figure 5 13 Deltares 27 D Waq DIDO User Manual Settings Help Spherical Co ordinates gt Legend Grid Information gt Find Grid Cell Check Partition Land Boundary O
13. in the Settings General form General cursor and keyboard functions The left mouse activates or confirms desired actions The right mouse may also confirm actions or may put the program back into its original mode Key stroke functions D Delete In the Edit Polygon and Edit Observation Areas options pressing D allows you to delete individual points E Erase polygon In Edit Polygon keeping E pressed allows you to delete the indicated polygon I Insert In Edit gt Polygon or Edit gt Observation Area pressing I when the cursor is not on a polygon point allows you to start a new polygon Ctrl P Print screen Pressing Ctr1 P will open the print window The current screen will be printed to your printer or to a file R Replace In Edit Polygon or Edit Observation Area pressing R allows you to replace move individual points Mouse wheel Use the mouse wheel to zoom in and zoom out Other ways are Deltares 11 D Waq DIDO User Manual RA Click on the toolbar to zoom in WE Click AR on the toolbar to zoom out To define a zoom box click 2 on the toolbar and drag a box Ctrl Zoom in Keep the Ctr1 key pressed and use the key to zoom in more Ctrl Zoom out Keep the Ctr1 key pressed and use the key to zoom in more Ctrl move cursor move focus of screen Keep the Ctrl key pressed and move the cursor around The current screen will move ac cordingly Ctrl arrow k
14. information file File contents Name of the polygon with observation areas Filetype ASCII File format Fix formatted for text variables free formatted for real and integer values Filename lt name oai gt Generated D Waq DIDO or manually offline Record description A header block containing information about versions and the name of the polygon file For each observation area the details Keyword Description Filelnformation FileCreatedBy D Waq DIDO version number FileCreationDate creation date and time FileVersion version number of lt aoi gt file General Subject observation areas PolygonFile name of polygon file with polylines defining observation areas ObservationArea Name name of the observation area blockname in polygon file Restriction o The maximum record length in the file is 132 Example The number of observation areas is 3 They are called ObsArea 001 ObsArea 002 and ObsArea 003 FileInformation FileGeneratedBy Deltares Delft3D DIDO Version 3 39 01 4423 4459 Sep 25 2008 20 10 54 FileCreationDate 2008 09 25 22 11 08 FileVersion 0 01 General 60 Deltares A 10 Files of D Waq DIDO Subject Observation areas PolygonFile friesche zeegat pol ObservationArea Name ObsArea 001 ObservationArea Name ObsArea 002 ObservationArea Name ObsArea 003 Example polygon file WL Delft Hydraulic
15. o If the file lt dido clrmap gt exists on the start up directory then this file will be read if the file does not exist on the start up directory it will try to read the file on the installation directory lt D3D HOME ARCH plugins default gt Open Settings If you have saved your D Waq DIDO settings in a previous session you can open these settings again see Appendix A 15 for the file format Remark o If the file lt dido ini gt exists on the start up directory then this file will be read if the file does not exist on the start up directory it will try to read the file on the installation directory lt D3D HOME ARCH plugins default gt Save Settings If you have made changes in one of the forms on the Settings menu you can save these settings to be used later on again 20 Deltares 5 1 12 5 2 5 2 1 5 2 2 Menu options Exit Exit from the D Waq DIDO program Edit menu On the Edit menu see Figure 5 7 several edit modes can be selected Operations View S Regular Irregular Break up Selection Polygon gt Cut Out Area gt Observation Area gt Figure 5 7 Options on the Edit menu Regular Upon selecting Edit Regular you can make a regular aggregation of the hydrodynamic grid cells Click with the left mouse button in a grid cell of the hydrodynamic grid then move the mouse to an other grid cell The grid cells which will be aggregated are indicated with a thick line Pressing the righ
16. or use the key stroke i you can insert a point into the polygon The point will be inserted at the closest linear piece of the polygon Move point Upon selecting Edit Cut Out Area Move Point click on e or use the key stroke r you can move replace a point on the polygon Delete point Upon selecting Edit Cut Out Area gt Delete Point click on a or use the key stroke d you can delete a point on the polygon by indicating it 24 Deltares 5 2 6 Menu options Operations View Settings Help Regular la O B Irregular Break up Selection Polygon gt Cut Out Area gt Observation Area gt Edit JP dr New Delete Select Edit Name Insert Point is p Move Point f Delete Point Figure 5 10 Options on the Edit Observation Area menu Observation area Observation areas are collections of individual computational segments The concentration computed by D Water Quality in each segment is averaged and the mass balances if any are computed for the segments as a whole First you have to define the locations of observation areas by editing polygons see Fig ure 5 10 For each area a polygon is required When editing the polygon the default observation area name is immediately given ObsArea and the segments which belong to this observa tion area are indicated by a thick line When saving the observation areas the polygons and segment numbers are saved in a separa
17. the type of thin dams U or V Restrictions The angle of the line segment and the horizontal numerical grid axis may be an integer multiple of 45 degrees 64 Deltares Files of D Waq DIDO n direction 1 2 3 4 5 6 T 8 9 10 11 127 15 441 BERG al m direction Figure A 3 Example of thin dams in a model area o Thin dams can not be defined along the model boundaries which by default lie along the lines M 2 1 N 2 1 M Mmax or N Nmax Therefore the indices of thin dams must lie between M 2 and Mmax 1 and N 2 and Nmax 1 respectively o Input items are separated by one or more blanks o The direction of the dam is perpendicular to the velocity direction over which the dams are superimposed Example Three sets of thin dams in model area of 19 x 8 grid points see Figure A 3 6 2 6 AV 7 4 10 TU 12 3 12 TU A 14 Colour scheme file File contents The colour scheme Filetype ASCII File format Free formatted Filename lt name clr gt or lt name clrmap gt Generated manually Record description Deltares 65 A 15 D Waq DIDO User Manual Record Record description 1 COLORMAP 2 NAME name 3 SPACE RGB RGB is the only allowed space for this program 4 N one real and three integers The first column represent the relative distribution of the defined colours in column 2 4 rep resenting the RGB values Example COLORMAP NAME copper SPACE RGB
18. 0 0000 0 0 0 0 8000 255 159 101 1 0000 255 199 127 Settings file File contents Settings of the program Filetype ASCII File format Fix formatted Filename lt name ini gt Generated By the program Record description Record Record description Filelnformation FileCreatedBy D Waq DIDO version number FileCreationDate creation date and time FileVersion version number of lt x ini gt file DIDOParameter name integer value Colours name RGB value 3 integers line width dots sizes 66 Deltares Files of D Waq DIDO Example FileInformation FileGeneratedBy Deltares Delft3D DIDO Version 4 04 00 11845 11904M Jun 27 2010 18 36 38 FileCreationDate 2010 06 28 09 30 32 FileVersion 0 02 DIDOParameter AutoscaleLegend 4 XCoorLegend 16 YCoorLegend 20 StayOnStartupDirectory 0 CellsToAggregate 8 DeeperAggregation 1 00000000000000002E 30 Colours ColourBackground 255 255 210 LegendColourBackground 255 255 255 lineColourLandBoundary 132 066 000 lineColourPolygon 170 000 127 lineColourActiveGrid 128 128 128 lineColourMarkVolume 000 128 128 lineColourActiveVolume 000 000 255 lineColourActiveCmpBnd 005 005 005 lineColourActiveOpenBnd 000 000 255 lineColourActiveDDBnd 176 000 255 lineColourGrid 192 192 192 lineColourVolume 128 128 128 lineColourCmpBnd 050 050 050 lineColourDpenBnd 000 000 150 lineColourDDBnd 1
19. 1 A non blank character string starting in column one 2 Two integers representing the numbers of rows and number of columns for this block of data Two reals representing the x y or A co ordinate Example Polyline L007 52 Deltares A 4 Files of D Waq DIDO L007 6 2 132400 0 549045 0 132345 0 549030 0 132165 0 549285 0 131940 0 549550 0 131820 0 549670 0 131585 0 549520 0 Polyline L008 L008 4 2 131595 0 549685 0 131750 0 549865 0 131595 0 550025 0 131415 0 550175 0 Polyline L009 L009 6 2 131595 0 549655 0 148975 0 564595 0 150000 0 564935 0 152105 0 565500 0 153150 0 566375 0 154565 0 567735 0 Remark o In case this file is read as a polygon file then the polylines are closed by D Waq DIDO to get a polygon Polygon file File contents The co ordinates of one or more polygons Each polygon is written in a single block of data Filetype ASCII File format Free formatted Filename lt name pol gt Generated RGFGRID QUICKIN D Waq DIDO etc Record description The file may contain one or more polygons For every polygon the file should contain a line indicating the name of the polygon followed by a line indicating the number of points making up the polygon and the number of coordinates i e 2 finally followed by the coordinate data Deltares 53 D Waq DIDO User Manual Record Record description Preceding description reco
20. 3 o Move the mouse to the opposite corner o Click on the right mouse button to obtain the aggregation for the whole area Figure 6 4 Jor aggregation X Y 1800646978 616477 5443 Figure 6 4 Result of a two by two aggregation 6 5 Default aggregation in inlet The whole model has now a aggregation of two by two grid cells But in the entrance of the tidal inlet we do not need an aggregation of the hydrodynamic grid There are several options to reach this situation 1 use the break up option 2 define an area of influence and define a new aggregation with that area Deltares 41 6 5 1 6 5 2 6 6 D Waq DIDO User Manual Break up the aggregated cells Choose the menu option Edit Break Up you can click into an aggregated cell to obtain the default aggregation for that cell Continue with clicking into the several aggregated grid cells to get the result aggregation as shown in Figure 6 1 In this way you have fully control to break up the aggregation for each cell Define area of influence An other way to obtain the final aggregation as shown in Figure 6 1 is to define an area of influence An area of influence is that area to which the operation is restricted and is defined by a polygon So we start with defining a polygon Choose the menu option Edit Polygon New or click on the toolbar icon 4 and next clicking the left mouse button to
21. 59 81 103 125 147 60 82 104 126 148 61 83 105 127 149 84 106 128 Monitoring Area 002 37 275 297 210 232 254 276 298 189 211 233 255 277 299 212 234 256 278 300 213 235 257 279 301 214 236 258 280 302 215 237 259 281 303 260 282 304 283 Monitoring Area 003 33 163 98 120 142 164 186 99 121 143 165 187 209 100 122 144 166 188 210 232 101 123 145 167 189 211 233 102 124 146 168 190 212 234 62 Deltares A 11 A 12 Files of D Waq DIDO DD Boundary file File contents Domain decomposition boundaries connecting two grids for the pre scribed indices Filetype ASCII File format Fix formatted Filename lt name ddb gt Generated RGFGRID or manually offline Record description Record Record Description N Name of the first grid followed by four integers indicating the gridline on which the boundary lies followed by the name of the second grid and four integers indicating the gridline on which the boundary lies Restrictions o No space allowed in grid filename o The maximum record length in the file is 132 Example In the following example 4 sub domains exist Domain d01 ns is coupled to 0a1 ns ob1 ns and oc1 ns Furthermore oa1 ns is coupled to ob1 ns and ob1 ns to oc1 ns d01 ns grd d01 ns grd d01 ns grd obi ns grd obi ns grd Dry points file File contents 5 16 5 1 oai ns grd 28 35 28 20 245 1 5 1 obi ns grd 17 21 1 21 24b 52 245 1 oci ns grd 1 44 1 27 1 4 1 21 oai ns gr
22. 66 Saving the result rv vr ran 67 TELEMACgridfiles rn References A Files of D Waq DIDO A 1 A 2 A 3 A 4 A 5 A 6 A 7 A 8 A 9 A 10 A 11 A 12 A 13 Delfts D project file o ocn sas 222i Aggregation file Land boundary file Polygon file 4 642240 bea Pak ke de ek dk Orthogonal curvilinear grid file Computational grid enclosure Bathymetry file Open boundaries file Observation area information file Data monitoring file sasauc eriu asu DD Boundary file Dry points Te uorum e Sem sd a Thin dams tile o s ace s a xw Pe Deltares Contents A 14 Colour scheme file 2 65 A 15 Settings file Deltares D Waq DIDO User Manual vi Deltares List of Figures List of Figures 3 1 3 2 3 3 3 4 3 5 3 6 EN 3 8 Bul 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 5 16 hy 5 18 5 19 5 20 5 21 5 22 5 23 5 24 5 25 5 26 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 6 10 6 11 A 1 Deltares Title window of Delft3D 2 aa Main window Delft3QD MENU rns Selection window for Grid and Bathymetry Select working directory window ls Select working directory window to set the working directory to
23. 76 000 255 pointColourVolumeCentre 160 160 160 lineColour bsPolygon 005 005 005 DryPoints 000 000 000 ThinDams 005 005 005 Width lineWidthLandBoundary lineWidthPolygon lineWidthActiveGrid lineWidthMarkVolume lineWidthActiveVolume lineWidthActiveCmpBnd lineWidthActiveOpenBnd lineWidthActiveDDBnd lineWidthGrid lineWidthVolume lineWidthCmpBnd lineWidthOpenBnd lineWidthDDBnd pointSizeVolumeCentre lineWidthThinDams lineWidthObsPolygon E Caches inactdepth actdepth centre inactgrid x actgrid inactvolumes KUK W Te kk F Wi I kd f WRB actvolumes boundary landboundary obs areas ONFPFRFNWH q 0 0 0 polygons Deltares 67 D Waq DIDO User Manual drythdobs rest 68 Deltares Deltares sustems PO Box 177 31 0 88 335 81 88 2600 MH Delft sales deltaressystems nl Rotterdamseweg 185 www deltaressystems nl 2629 HD Delft The Netherlands Photo by Mathilde Matthijsse www zeelandonderwater nl
24. GRID 2013 File contents The indices of the external computational grid enclosure s and op tionally one or more internal computational grid enclosures that out lines the active computational points in a Delft3D FLOW computa tion The file is strongly related to the curvilinear grid file Filetype ASCII File format Free formatted Filename lt name enc gt Generated RGFGRID Record description Record Record description All One pair of M and N indices representing the grid co ordinates where a line segment of the computational grid enclosure polygon changes direction Restrictions o A polygon must be closed The first point of the polygon is repeated as last point o A line segment may not intersect or touch any other line segment o The angle formed by consecutive line segments measured counter clock wise can have a value of 45 90 135 225 270 or 315 degrees but not 0 180 and 360 degrees o In a row or column there should be at least two active computational grid cells o Input items in a record are separated by one or more blanks Example 56 Deltares A 7 Files of D Waq DIDO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 je M direction Legend water level point v velocity point u velocity point Full thick line grid enclosure and for the external polygon only loca tion of water level open boundaries Full thin line location for velocity or discharge open bounda
25. Manual 46 Deltares References D WAQ UM 2013 D Water Quality User Manual Deltares 4 02 ed 3 44 Delft3D FLOW 2013 Delft3D FLOW User Manual Deltares 3 14 ed 39 RGFGRID 2013 Delft3D RGFGRID User Manual Deltares 4 00 ed 56 Rijkswaterstaat RIKZ 2007 SIMONA User Manual Ministry of Transport Public Works and Water Management 18 20 Deltares 47 D Waq DIDO User Manual 48 Deltares A Files of D Waq DIDO In the following sections we describe the attribute files used in D Waq DIDO For each file which can handled by D Waq DIDO we give the following information o File contents o Filetype free formatted fix formatted or unformatted o Filename and extension o Generated by i e how to generate the file o Restrictions on the file contents o Example s Remarks o The access mode of all attribute files is sequential o In the examples the file content is printed in font Courier and comment not included in the file between curly brackets font unless explicitly stated differently A 1 Delft3D project file File contents Domain input for a model Filetype ASCII File format Free formatted Filename name d3d Generated RGFGRID QUICKIN D Waq DIDO or manually offline Record description A header block containing general information and then for each domain a detailed descrip tion Deltares 49 D Waq DIDO User Manual Keyword Description Filelnfo
26. Settings Help New Project db us A P MN d zx Open Project Bi Save Project B save Project As Attribute Files Import Export Flow Attributes gt Open Open Boundaries Delft3D FLOW G Open Colour Map Open DD Boundaries Delft3D gt Open Dry Points Delft3D b Open Settings Open Thin Dams Delft3D ll Save Settings Open Depth Delft3D ame Open Dry Points SIMONA Figure 5 6 File Flow Attributes options Open Dry Points Delft3D Upon selecting File Flow Attributes Open Dry Points Delft3D you can open one dry points file suitable for the active grid The dry points are not counted in the segment numbering so loading dry points DIDO generates the Active Points Only segment numbers When opening a file with dry points and dry points are already defined then the latter will be removed see Appendix A 12 for the file format Open Thin Dams Delft3D Upon selecting File Flow Attributes Open Thin Dams Delft3D you can open one thin dams file suitable for the active grid When a regular aggregation is applied the aggre gated segments which would contain a thin dam are not aggregated This option maintains the geographical structure in the aggregated grid Aggregations around thin dams have to performed with the option of area of influence Edit Polygon and regular aggregation or manually option Edit Irregula
27. atted file 1 0 2 0 3 12 0 13 0 14 3 0 4 0 5 14 0 15 0 16 5 0 6 0 7 16 0 17 0 18 7 0 8 0 9 18 0 19 0 7 9 0 10 0 11 20 0 19 0 18 7 0 12 0 13 18 0 17 0 16 8 0 8 0 15 16 0 15 0 14 999 0 999 0 999 999 0 999 0 999 A 8 Open boundaries file File contents Filetype File format Filename Generated 00000000 000000o06 Record description 58 4 0 5 0 5 5 0 999 0 6 0 7 0 6 17 0 999 0 8 0 9 0 10 19 0 999 0 10 0 11 0 12 19 0 999 0 12 0 13 0 14 17 0 999 0 14 0 15 0 16 15 0 999 0 16 0 17 0 18 13 0 999 0 999 0 999 0 999 999 0 999 0 0 b 0 6 0 7 0 13 0 15 0 17 0 19 0 999 0 8 0 10 0 12 0 14 0 16 0 18 0 20 0 999 0 9 0 11 0 13 0 15 0 17 0 19 0 19 0 999 0 10 0 12 0 14 0 16 0 18 0 20 0 18 0 999 0 999 The location and description of open boundaries ASCII Fix formatted for text variables free formatted for real and integer values lt name bnd gt FLOW GUI Deltares Files of D Waq DIDO Record Record description each record Name of the open boundary section 20 characters Type of boundary 1 character water level current Neumann discharge per grid cell total discharge for boundary section Riemann DAOZON Type of data 1 character A astronomic H harmonic Q QH tables only for water level boundaries T time series Grid indices of the begin and end point of the boun
28. be the contents of each chapter and appendix If this is your first time working with D Waq DIDO module we suggest you to read and practice the getting started of Chapter 3 and the tutorial of Chapter 6 These chapters explain the user interface options and guide you through the definition of your first aggregation Chapter 2 Introduction to D Waq DIDO provides specifications of D Waq DIDO and the areas of applications Chapter 3 Getting started explains the use of the overall menu program which gives access to the Delft3D modules and to the pre and post processing tools Last but not least you will get a first introduction into the D Waq DIDO Graphical User Interface used to define an aggregation of grid cells which can be used in a water quality simulation Chapter 4 General operation provides practical information on the general operation of the D Waq DIDO module Chapter 5 Menu options provides a description of all menu and toolbar options Chapter 6 Tutorial emphasis at giving you some first hands on experience in using the D Waq DIDO module to define the input of a simple problem and in executing a water quality simulation References provides a list of publications and related material on the D Waq DIDO module Appendix A Files of D Waq DIDO gives a description of the files that can be used in D Waq DIDO as input or output Generally these files are generated by D Waq DIDO or other modules of the Delft3D suite and y
29. bers Check Partition FLOW Cell Numbers TERT ESSE Grid Cell Indices Select Cell Observation Areas Figure 5 15 Grid information Node numbers Upon selecting View Grid Information Node Numbers you can show or hide the node numbers of the hydrodynamic grid If it is a regular structured grid two indices will displayed m n if it is an irregular unstructured grid then just the number of the grid node will be displayed WAQ cell numbers Upon selecting View Grid Information WAQ Cell Numbers you can show or hide the cell numbers of the water quality grid For a regular structured as well as a irregular un structured grid the cell number will be displayed FLOW cell numbers Upon selecting View Grid Information gt FLOW Cell Numbers you can show or hide the cell numbers of the hydrodynamic grid For a regular structured as well as a irregular unstructured grid the cell number will be displayed Grid cell indices Upon selecting View Grid Information Grid Cell Indices you can show or hide the index numbers of the regular structured hydrodynamic grid two indices will displayed m n Deltares 29 5 4 4 5 4 5 D Waq DIDO User Manual Select cell Upon selecting View Grid Information Select Cell you can retrieve some cell admin istration After selecting a cell these information will be showed in the Cell Administration window see Figure 5 16 r DI E Cel
30. bservation Areas v Water Quality Grid Hydrodynamic Grid v Boundary Depth Dry Points Thin Dams Figure 5 13 Options on the Edit menu 5 4 1 Spherical co ordinates Here you can select how to project the spherical co ordinates onto the screen see Fig ure 5 14 Settings Help Spherical Co ordinates gt Plane Co ordinates Legend v Stereo Projected Co ordinates Figure 5 14 Options on the View Spherical Co ordinates menu Remarks Only applicable for a spherical co ordinate system Default A spherical grid is shown in stereographic projected co ordinates Plane co ordinates Upon selecting View Spherical Co ordinates Plane Co ordinates you can choose to the display the co ordinates as they are Stereo projected co ordinates Upon selecting View Spherical Co ordinates Stereo Projected Co ordinates the co ordinates are displayed using a stereographic projection onto the screen 28 Deltares 5 4 2 5 4 3 Menu options Legend Upon selecting View Legend you can show or hide the colour band on the left side of the Screen Grid information Upon selecting View Grid Information you can point and click onto the grid to get some characteristics cell numbers of the indicated cell see Figure 5 16 The cell is also indicated by a polygon Settings Help Spherical Co ordinates gt X I A Legend Grid Information gt Node Numbers Find Grid Cell WAQ Cell Num
31. d 28 3 28 20 17 4 17 21 oci ns grd 1 10 1 27 Index location of permanently dry points Filetype ASCII File format Free formatted Filename lt name dry gt Generated QUICKIN or FLOW GUI Record description Record Record description each record The grid indices of the begin and end point of a dry section 4 integers Restrictions o The angle of a line of dry points and the horizontal numerical grid axis can be an integer multiple of 45 degrees o Dry points may not be defined along the model boundaries which by default lie along Deltares 63 A 13 D Waq DIDO User Manual n direction m direction Figure A 2 Dry points in model area the lines M 1 N 1 M Mmax or N Nmax Therefore the indices of these points must lie between M 2 and Mmax 1 and N 2 and Nmax 1 respectively o The input items are separated by one or more blanks o The most lower left dry point has indices 2 2 Example Five sets of dry points in a model area of 19 x 8 grid points see Figure A 2 5 3 5 6 8 4 10 6 13 3 14 3 13 4 14 4 14 6 14 6 Thin dams file File contents Location and type of thin dams Filetype ASCII File format Free formatted Filename lt name thd gt Generated QUICKIN or FLOW GUI Record description Record Record description each record The grid indices of the begin and end point of a line of thin dams 4 integers A character indicating
32. d grids and most finite element grids The output of the supported hydrodynamic models is as such insufficient for DELWAQ sim ulations It is input to a coupling program between the supported hydrodynamic model and DELWAQ The coupling programs between the hydrodynamic program or the hydrodynamic program itself e g Delft3D FLOW accept the aggregation output file of D Waq DIDO and produce the administration and hydrodynamic input files for D Water Quality Deltares 3 D Waq DIDO User Manual 4 Deltares 3 3 1 3 2 Getting started Overview of Delft3D The Delft3D program suite is composed of a set of modules components each of which covers a certain range of aspects of a research or engineering problem Each module can be executed independently or in combination with one or more other modules Delft3D is provided with a menu shell through which you can access the various modules In this chapter we will guide you through some of the input screens to get the look and feel of the program In the Tutorial chapter 6 you will learn to define a simple scenario Starting Delft3D To start Delft3D o On an MS Windows platform select Delft3D in the Programs menu o On Linux machines type delft3d menu on the command line Next the title window of Delft3D is displayed Figure 3 1 3D modelling sutte for integral water solutions y Version 4 1 0 email delft3d support 2deltares nl Copyright c Deltares 2007 2012 Tel
33. dary section 4 integers Reflection coefficient 1 real not for Neumann or Riemann Vertical profile three strings only for 3D simulations and velocity type boundaries C Q T and R Uniform Logarithmic 3D profile Two labels each 12 characters no blanks in the label name refer encing to the blocks in the amplitude and phase file lt x bca gt only if the type of data is A Restrictions o Maximum record length in the free formatted file is 132 The boundary section name must start at position one in a record The value of the reflection coefficient will not be checked on its domain All input items in a record must be separated by one or more blanks Astronomic and harmonic forced boundaries must be specified before QH relation forced boundaries which in turn should be specified before time series forced boundaries o Astronomic and harmonic forced boundaries cannot be combined o o o o Example Two boundary sections with data type A stronomic and one with type T ime series Paradise Bay 1 QA 1 1 1 5 0 0 Uniform Paradise 1A Paradisee 1B Paradise Bay 2 CA 16 3 16 6 0 0 Logarithmic Paradise 2A Paradisee 2B Sea Entrance ZT 4 8 14 8 0 0 Remarks Deltares 59 A 9 D Waq DIDO User Manual o A label may not contain blanks between non blank characters o For the labels 12 characters are read Be sure the second label starts at least 13 positions after the start of the first Observation area
34. define the polygon to get Figure 6 5 Figure 6 5 Area of influence defined by the polygon Choose now the menu option Operation Default Aggregation and within the polygon all aggregated cells have the default aggregation i e the water quality cells are equal to the hydrodynamic cells Saving the result Before you end your D Waq DIDO session you have to save the results from the aggregation The aggregation can be saved to file Choose the menu option File Export Aggregation and the Save Aggregation window will be opened Figure 6 6 Or choose the menu option File Save Project As and the Save Project window will be opened Figure 6 7 After saving the project file lt d3d gt the window Save Aggregation to save the aggregation file lt x dwq gt will appear Figure 6 8 The advantage to save the aggregation in a lt x d3d gt file is that the reference to all the grids and their aggregation are saved especially for multi domain models this is an advantage 42 Deltares Tutorial Deltares sse Cl Lookin 4 D Deltares Delft3 4 1 0ltutorialwaqldidolfriesian tidal inlet J 6 9 O0 5 BB de My Computer Name Size Type Date Modi Figure 6 6 Save Aggregation window Eire HEE EM Lookin 1 D Deltares Delft30 4 1 0 tutorialwaqdidolfriesian tidal iniet 190900505606 vid My Computer Name Size Type Date
35. dicating it Deltares 37 D Waq DIDO User Manual 38 Deltares 6 6 1 6 2 Tutorial Introduction In this tutorial some functionality of D Waq DIDO will be demonstrated On the basis of the Friesian Tidal Inlet example a D Waq DIDO session is explained In advance both the starting situation and the final situation are shown below in Figure 6 1 This tutorial describes in detail how to proceed from the starting situation towards the final situation File Edit Operations View Settings Help amp exec Choose menu option XY 187451811 626127475 Ci Breakup aggregation X Y 186244 566 623822735 a Not aggregated start situation b Aggregated final situation Figure 6 1 Starting and final situation of the clarified D Waq DIDO session Before you can start with the tutorial you have to start Delft3D and set the working directory to the tutorial model located on lt D3D_HOME tutorial waq dido friesian_tidal_inlet gt Loading the model Open the grid and land boundary file The grid file is the grid which will be use by the hy drodynamic program Delft3D FLOW 2013 The land boundary file is just for orientation purposes o On the File menu point to mport and click on Grid RGFGRID o Select and Open the lt friesian tidal inlet grd gt o On the File menu point to Attributes Files and click on Open Land Boundary Select and Open the lt netherlands ldb gt Now
36. dido friesian tidal inlet A part of the current working directory is shown in the title bar due to its length Main window of the DIDO Graphical User Interface Operational information displayed in the statusbar D Waq DIDO menu options oso rak GG Gem Options on the File menu 2h File Attribute Files options 2 2 eee eee File gt Import options o aoaaa eee ee Pie S TT ODUOUE uuu ke KE or Fa Se de eh andes File gt Flow Attributes options c ee eee Options onihs Edi MENN 21V San c om FAK SEG ek ae Na Options on the Edit Selection Polygon menu Options on the Edit Cut Out Areamenu rar rv aars Options on the Edit gt Observation Area menu Window Observation Area to change the observation area name Options on the Editmenu 2 e o Options on the Edit menu 22s Options on the View Spherical Co ordinates menu Grid information 4 4 66 6s c ook mk Re EE ER LA Grid information cocos LER eec Give cell number menu len Check parition lt s o c e da G Fo Rome dk Xem He DOR m ale Options on Settings menu arr vrak n Options on Settings General menu Options on Settings gt Colours menu ln Options on Settings gt Legend menu 0050 ee eae Options on Settings Colours menu
37. egation you can open one aggregation file suitable for the active grid The aggregation is in a file with default mask lt x dwq gt see Appendix A 2 Export On the Attribute Files sub menu see Figure 5 5 options are available to export objects that are directly related to the grids Edit Operations View Settings Help New Project d E a zx Open Project E Save Project E Save Project As Attribute Files Import Export gt Observation Areas Flow Attributes El Aggregation Figure 5 5 File Export options Deltares 17 D Waq DIDO User Manual Observation areas Upon selecting File Export Observation Areas you can save the observation areas The data is stored in three separate files 1 Observation Area Information file containing general information about the observation areas The file has default mask lt a0i gt see appendix A 9 Such as the names of the areas and the reference to the polygon file with the actual polygons 2 Polygons these polygons indicate the observation area in world co ordinates and is there for independent of the numerical model The file has default mask pol see ap pendix A 4 3 DMO these file contains the segment numbers for each observations area and can be used in the input file of D Water Quality The file has default mask lt x dmo gt see ap pendix A 10 When asked to save the polygon file click Yes Aggregation Upon se
38. ettares Delft30 4 1 0 tutorial mag Vido friesian tidal inlet o o Oo U BE y amp My Computer original data A mooiman Directory Files of type Directories Figure 3 5 Select working directory window to set the working directory to dido friesian tidal inlet Next the Grid and bathymetry window is re displayed but now the changed current working directory is displayed in the title bar see Figure 3 6 Remark O o In case you want to start a new project for which no directory exists yet you can select Er in the Select working directory window to create a new folder Click on DIDO D Waq DIDO is loaded and the primary input screen is opened Figure 3 7 In the lower left corner of the status bar D Waq DIDO gives additional operational information see Figure 3 8 such as Deltares 7 3 4 D Waq DIDO User Manual m Boundary fitted grid generation Data interpolation to computational grid Grid aggregation program View report from grid generation View report from data interpolation to computational grid Return to Delft3D menu Figure 3 7 Main window of the DIDO Graphical User Interface User selections Operational instructions x and y co ordinates of the current cursor position Co ordinate system Cartesian or Spherical Choose menu option X Y 170910 414 598230 850 Cartesian Figure 3 8
39. eys move focus of screen left right up or down Keep the Ctrl key pressed and use the arrow keys to move the focus of the screen accord ingly 12 Deltares 5 1 Menu options The menu bar contains the following items see Figure 5 1 each item is discussed in a sepa rate section File Edit Operations View Settings Help Figure 5 1 D Waq DIDO menu options File menu Before opening an object land boundary or polygon be sure you choose the same co ordinate system as the grid file you want to edit Remark o When opening files D Waq DIDO will not check the co ordinate system in the files On the File menu see Figure 5 2 options are available to import land boundaries observation areas polygons depth and grid files The results at each stage of the aggregation process can be saved Edit Operations View New Project Open Project Save Project Save Project As Do E Attribute Files gt Import gt Export Flow Attributes Y Open Colour Map Open Settings Save Settings oa Exit Figure 5 2 Options on the File menu The start up directory to open and save files can be configured in the General Parameters form on the menu Settings General As default the file menu starts at the last directory selected For the formats of the files you are referred to Appendix A Deltares 13 5 1 2 5 1 4 D Waq DIDO User Manual New project Upon selecting File New Projec
40. he hydrodynamic cells see Figure 3 3 E3 Grid and bathymetry D deltares Delft3D 4 1 0 sony id ae QUICKIN Data interpolation to computational grid ari regen progam Report RGFGRID View report from grid generation Report QUICKIN View report from data interpolation to computational grid Return to Delft3D menu Select working directory Figure 3 3 Selection window for Grid and Bathymetry Before continuing with any of the selections of this Grid and bathymetry window you select the directory in which you are going to prepare scenarios and execute computations o Click the Select working directory button Next the Select working directory window is displayed see Figure 3 4 your current directory may differ depending on the location of your Delft3D installation o Browse to and open the tutorial sub directory of your Delft3D Home directory o Open the lt waq dido gt directory o Enter the friesian tidal inlet sub directory and close the Select working directory 6 Deltares Getting started Lookin Ji Dr deltares Pelft30 4 1 0 z o o 5 MA My Computer de manuals R n release notes R DE source a tutorial J w32 E d3d_version lst Directory Files of type Directories Figure 3 4 Select working directory window window by clicking button OK see Figure 3 5 Ji De d
41. ing Edit Selection Polygon Edit you can start editting a polygon that defines a selection area When there is no polygon the edit mode is set to New otherwise you have to select first a polygon from the menu Edit Selection Polygon Select or press the key s After you have selected the polygon you can use key strokes icons in the toolbar or menu items to switch the edit mode New Upon selecting Edit Selection Polygon New you can start to define a new polygon click on or use the key stroke n to start a new polygon Delete Upon selecting Edit Selection Polygon Delete click on XX or use the key stroke e to delete erase the selected polygon 22 Deltares 5 2 5 Menu options Select Upon selecting Edit Selection Polygon Select or use the key stroke s you can select a polygon by clicking on one of its edges or vertices AFter that the polygon will be highlighted Insert point Upon selecting Edit Selection Polygon Insert Point click on i or use the key stroke i you can insert a point into the selected polygon The point will be inserted at the nearest linear piece of the polygon Move point Upon selecting Edit Selection Polygon Move Point click on or use the key stroke r you can move replace a point on the selected polygon Delete point Upon selecting Edit Selection Polygon Delete Point click on I or use the key stroke d you can de
42. l Administration gt Lu X 4 M N Flow 46 Waq Figure 5 16 Grid information Find grid cell Upon selecting View Find Grid Cell you can find the hydrodynamic or water quality grid cell To find the hydrodynamic grid cell type in its number and set the water quality grid cell to zero To find the water quality grid cell type a zero for the hydrodynamic grid cell and the a cell number for the water quality The last search will indicate more than one cell if the grid was aggregated gg Give cell number Ea FLOW cell number 0 WAQ cell number 17 Ca JO c Figure 5 17 Give cell number menu Check partition Upon selecting View Check Partition you can check if the observation areas do partition the whole computational area This functionality can be useful to generate some data fields which need to cover the whole area Cells can not be inside more than one observation area see Figure 5 18 The cells are coloured accordingly Green The cell centre is in just one observation area Red The cell centre is in more than one observation area Blue The cell centre is outside any observation area 30 Deltares 5 4 6 5 4 7 5 4 8 5 4 9 5 4 10 5 4 11 5 4 12 Menu options 00000 g Q Q g g Q Q queda eelslee Figure 5 18 Check partition Land boundary Upon selecting View Land Boundary you can show or hide the
43. land boundary The land boundary is drawn as a polyline Observation areas Upon selecting View Observation Areas you can show or hide the observation areas Water Quality grid Upon selecting View Water Quality Grid you can show or hide the water quality grid The water quality grid is drawn above the hydrodynamic grid Hydrodynamic grid Upon selecting View Hydrodynamic Grid you can show or hide the hydrodynamic The hydrodynamic grid is drawn below the water quality grid Boundary Upon selecting View Boundary you can show or hide the open boundaries Depth Upon selecting View Depth you can show or hide the depth values The depth is located at the cell corners of the hydrodynamic grid Dry points Upon selecting View Dry Points you can show or hide the dry points The dry point is located at a cell of the hydrodynamic grid Deltares 31 D Waq DIDO User Manual 5 4 13 Thin dams Upon selecting View Thin Dams you can show or hide the thin dams The thin dam is located at the cell faces of the hydrodynamic grid 5 5 Settings menu The following options can be accessed through the Settings menu see Figure 5 19 General Change Colour Map Legend Colours Sizes Order Caches Figure 5 19 Options on Settings menu 5 5 1 General When clicking on the Settings General menu a form opens in which you can select some general parameters see Figure 5 20
44. lash for PCs 27 08 1999 Data to be typed by you into the input fields are dis played between double quotes Selections of menu items option boxes etc are de scribed as such for instance select Save and go to the next window delft3d menu Commands to be typed by you are given in the font Courier New 10 points gt User actions are indicated with this arrow m s Units are given between square brackets when used next to the formulae Leaving them out might result in misinterpretation 1 4 Changes with respect to previous versions Version Description 3 39 Complete new version of D Waq DIDO Deltares 2 2 1 2 2 2 3 Introduction to D Waq DIDO Introduction Vergilius once wrote The Tyrian princess Dido succeeded the father and became queen of Tyrus Her brother Sichaeus had killed her husband after which she fled via Cyprus to Africa There she asked a local king the favour to give her as much land as she could span with the hide of a bull When the king granted the request she cut the hide into long thin strips enabling to span a much larger area On this area Carthage was founded Feel yourself in the position of DIDO with the mouse and your computer screen to fit the real world to your needs Functional description D Waq DIDO is an interactive grid editor for coupling hydrodynamic models with the DELWAQ model D WAQ UM 2013 It u
45. lecting File Export Aggregation you can save the aggregation of the active grid The aggregation is stored in a file with default mask lt dwq gt Flow attributes Open boundaries DD Boundaries Dry points and Thin Dams definitions for the hydrody namic module Delft3D FLOW or SIMONA need to be incorporated before generating the aggregation see Figure 5 6 The dry points are needed when generating the aggregation because the dry points are not involved in the hydrodynamic computation and do not have a cell segment number The Open and DD boundaries are needed because the cells at the boundary has their own numbering See the SIMONA user manual Rijkswaterstaat RIKZ 2007 how to define dry points for the hydrodynamic module SIMONA Open Open Boundaries Delft3D Upon selecting File Flow Attributes Open Open Boundaries Delft3D you can open the open boundary file Visualising the open boundaries can help you with the aggregation of hydrodynamic cells The open boundary is in a file with mask lt bnd gt see Appendix A 8 Open DD Boundaries Delft3D Upon selecting File Flow Attributes Open DD Boundaries Delft3D you can open the domain decomposition boundary file Visualising the DD boundaries can help you with the aggregation of hydrodynamic cells The domain decomposition boundary is in a file with mask lt x ddb gt see Appendix A 11 18 Deltares Menu options File Edit Operations View
46. lete a point on the selected polygon by indicating it Cut out area The polygon is used to limit the hydrodynamic area for the Water Quality simulation see Figure 5 9 Operations View Settings Help bod Regular o 5E Irregular Break up Selection Polygon gt Cut Out Area gt Edit Observation Area gt Ze New DE Delete Select e Insert Point a Move Point f Delete Point Figure 5 9 Options on the Edit Cut Out Area menu Edit Upon selecting Edit Cut Out Area Edit you can start editting a polygon that defines an Cut Out Area When there is no polygon the edit mode is set to New otherwise you have to Deltares 23 D Waq DIDO User Manual select first a polygon from the menu Edit Cut Out Area Select or press the key s After you have selected the polygon you can use key strokes icons in the toolbar or menu items to switch the edit mode New Upon selecting Edit Cut Out Area New you can start to define a new polygon click on Sal or use the key stroke n to start a new polygon Delete Upon selecting Edit Cut Out Area Delete click on X or use the key stroke e to delete erase the polygon Select Upon selecting Edit Cut Out Area gt Select or use the key stroke s you can select a polygon by clicking on one of its edges or vertices After that the polygon will be highlighted Insert point Upon selecting Edit gt Cut Out Area gt Insert Point click on i
47. n below amp Click this icon to obtain the print window for a hardcopy of the current screen o wx ER E EN E hais d p Click this icon to zoom out to full extent Click this icon to zoom in Click this icon to zoom out Click this icon and drag a box to zoom in to that area Click this icon to centre the stereographic projection at the centre of the screen Click this icon move the mouse pointer to the reference point for which you want the distance from then press a or A to fix the anchor point Click this icon to refresh the drawing If your project consists of multiple grids so called domain decomposition application you Ez can switch between the grids by clicking on the toolbar Next click on the grid you want to become the active grid Show or hide the legend Click this icon to start a new polygon Area of influence or Cut out area as indicated in the statusbar Click this icon to delete a polygon Area of influence or Cut out area as indicated in the statusbar Click this icon to insert a point into the polygon Area of influence or Cut out area as indicated in the statusbar The point will be inserted at the closest linear piece of the polygon Click this icon to move a point on the polygon Area of influence or Cut out area as indi cated in the statusbar Click this icon to delete a point on the polygon Area of influence or Cut out area as indicated in the statusbar by in
48. ot be done this improves the drawing performance by avoiding unnecessary drawings Therefore if an item is changed in cache 3 only caches 3 2 1 and 0 are drawn o 00000000000 Inactive Depth Active Depth Centres Inactive Grid Active Grid Inactive Volumes Active Volumes Boundaries Land Boundary Obs Areas Drypoints Thin Dams Observation Points Samples Deltares default default default default default default default default default default default default N 42M HAR RUM 35 D Waq DIDO User Manual Ef Order Caches EN Inactive Depth 5 Active Depth 5 Centres 5 Inactive Grid 4 Active Grid 4 Inactive Volumes 3 Active Volumes 2 Boundaries 1 Land Boundary 1 Obs Areas 2 Polygons 0 Dry Points Thin Dams Observation Points Discharges 1 Rest 1 Co Cancel Figure 5 25 Options on Order Caches window User Manual About Figure 5 26 Options on Help menu 5 6 Help menu On the Help menu you may choose to read the user manual or the version number of D Waq DIDO see Figure 5 26 5 6 1 User manual When clicking on the Help gt User Manual the user manual of D Waq DIDO will be displayed D Waq DIDO _User_manual pdf gt 5 6 2 About When clicking on the Help About a window will display the current version number of D Waq DIDO 36 Deltares Menu options 5 7 Toolbar A list of all toolbar icons is give
49. ou need not to be concerned about their internal details However in certain cases it can be useful to know these details for instance to generate them by means of other utility programs Manual version and revisions A manual applies to a certain release of the related numerical program This manual applies to D Waq DIDO version 3 39 00 Typographical conventions Throughout this manual the following conventions help you to distinguish between different elements of text to help you learn about D Waq DIDO Deltares 1 D Waq DIDO User Manual Example Description Waves Title of a window or sub window Boundaries Sub windows are displayed in the Module window and cannot be moved Windows can be moved independently from the Mod ule window such as the Visualisation Area window Save Item from a menu title of a push button or the name of a user interface input field Upon selecting this item click or in some cases double click with the left mouse button on it a related action will be executed in most cases it will result in displaying some other sub window In case of an input field you are supposed to enter input data of the required format and in the required domain lt tutorial wave swan curvi gt Directory names filenames and path names are ex lt siu mdw gt pressed between angle brackets lt gt For the Linux and UNIX environment a forward slash is used in stead of the backward s
50. out polygon is not closed in the file it will still be shown as closed Remark o If you open another cut out file it will be visualised together with existing cut out areas Save Cut out When saving cut out polygons each cut out polygon will be saved as a closed polyline A cut out polygon file has as default mask lt x pol gt Deltares 15 D Waq DIDO User Manual Import On the mport sub menu see Figure 5 4 options are available to import objects that are directly related to the grids Edit Operations View Settings Help New Project d m ES fe gx Open Project B Save Project B save Project As Attribute Files Import gt MDF FLOW Delft3D E ar Grid RGFGRID Flow Attributes nd m mx Grid Enc RGFGRID gt Open Colour Map gx Grid TELEMAC p Open Settings 2A regation L Save Settinas EE Figure 5 4 File Import options MDF Flow Delft3D When choosing the option File gt Import MDF FLOW Delft3D you can open a collec tion of MDF files from a Delft3D FLOW hydrodynamic simulation And all relevant information for grid aggregation is loaded from the attributes files of these MDF files The following at tributes files will be read lt x grd gt the grid file lt x enc gt the enclosure file lt x bnd gt the open boundary definition file lt x dry gt the dry points definition file lt x thd gt the thin dams definition file l
51. r When opening a file with thin dams and thin dams are already defined then the latter will be removed see Appendix A 13 for the file format Deltares 19 o 5 1 10 5 1 11 D Waq DIDO User Manual Open Depth Delft3D Upon selecting File Flow Attributes Depth Delft3D FLOW you can open one depth file suitable for the active grid The bathymetry can be used to influence the aggregation policy see section 5 5 1 item Aggregation below Z level The bathymetry data is in the Delft3D FLOW depth file format with default mask lt x dep gt see Appendix A 7 Open Dry Points SIMONA Upon selecting File Flow Attributes Open Dry Points SIMONA you can open one dry points file suitable for the active grid The dry points are not counted in the segment numbering so loading dry points DIDO generates the Active points Only segment numbers When opening a file with dry points and dry points are already defined then the latter will be removed The dry points data is in SIMONA format with default mask lt dampointsx gt see the SIMONA User Manual Rijkswaterstaat RIKZ 2007 for the file format Open Colour map You can choose from a number of pre defined colour schemes in file with masks lt x clr gt or lt x clrmap gt These colour schemes have the same format as used for Delft3D QUICKPLOT see Appendix A 14 for the file format Restriction o Only the colour space RGB is supported Remark
52. rds starting with an asterisk x and will be ignored 1 A non blank character string starting in column one 2 Two integers representing the numbers of rows and number of columns for this block of data Two reals representing the x y or A 9 coordinate Restriction o The first record and the last record in the block should be the same Example XA Observation Area 001 5 2 1 8768018E 05 1 8996981E 05 1 9746314E 05 1 9480925E 05 1 8768018E 05 0o000 o Observation Area 002 5 2 2 0011703E 05 1 9819166E 05 2 0568498E 05 2 0797461E 05 2 0011703E 05 0O000 AD Observation Area 003 54 5 2 1 9340425E 05 2 0183425E 05 1 9944054E 05 1 9522555E 05 1 9340425E 05 0o000 A Deltares Delft3D DIDO Version 3 39 01 4423 4459 Sep 25 2008 20 10 54 2008 09 25 22 11 08 1708738E 05 1001035E 05 1266423E 05 1838830E 05 1708738E 05 1818015E 05 1063479E 05 0870942E 05 1599460E 05 1818015E 05 1396516E 05 1365294E 05 0558720E 05 0595146E 05 1396516E 05 Deltares Files of D Waq DIDO A 5 Orthogonal curvilinear grid file File contents The co ordinates of the orthogonal curvilinear grid at the depth points Filetype ASCII File format Free formatted Filename lt name grd gt Generated RGFGRID Record description Record Record description Preceding description records starting with an asterisk will be ignored 1 Record with Co ordinate System Ca
53. ries Figure A 1 Example of computational grid enclosures Model area with one external and one internal polygon see Figure A 1 begin external polygon end external polygon begin internal polygon ROGNASARHOANOGODNAHEKEOVUKNK end internal polygon Bathymetry file File contents The bathymetry in the model area represented by depth values in metres for all grid points Filetype ASCII File format Free formatted or unformatted Filename lt name dep gt Generated FLOW GUI only for uniform depth values Offline with QUICKIN and data from digitised charts or GIS database Deltares 57 D Waq DIDO User Manual Record description Filetype Record description Free formatted Depth values per row starting at N 1 to N Nmax separated by one or more blanks The number of continuation lines is deter mined by the number of grid points per row Mmax and the maxi mum record size of 132 Unformatted Mmax depth values per row for N 2 1 to N 2 Nmax Q Restrictions o The file contains one M and N line more than the grid dimension o The maximum record length in the free formatted file is 132 o Depth values from the file will not be checked against their domain o The input items are separated by one or more blanks free formatted file only o The default missing value is 999 0 Example File containing 16 x 8 data values for a model area with 15 x 7 grid points free form
54. rmation FileCreatedBy Version string of the program who generated this file the first time FileCreationDate Creation date and time FileVersion Version number of lt x d3d gt file Geometry LandBoundaryName Name of the file with the land boundaries LandBoundaryFormat Format of the land boundary file possible values are TEKAL NETCDF or SHAPEFILE The NetCDF file is according the World Vector Shoreline format DDBound FileDDBound Name of the file with the domain decomposition boundaries For each grid Keyword Description Grid Type Format of the grid file possible values are RGF RGF_NETCDF DFLOW_FM TELEMAC FileName Name of grid file with the geographical co ordinates FlowDepth Name of the file containing the depth values at the cell corners of the grid Aggregation Name of the aggregation file Restriction The maximum record length in the file is 132 Example The model friesian_tidal_inlet contains three different subdomains f01 f02 f03 and the project file has the name lt friesian_tidal_inlet d3d gt FileInformation FileGeneratedBy Deltares Delft3D DIDO Version 4 04 00 11836M Jun 21 2010 12 09 34 FileCreationDate 2010 06 21 13 35 22 FileVersion DDBound 0 03 FileDDBound f34 123 ddb 50 Deltares A 2 Files of D Waq DIDO Grid Type RGF FileName f01 grd Aggregation 34_dd f01 d
55. rojection ee eee 27 5 3 4 Delete land boundary 27 5 35 Default aggregation 27 54 ViN menu uuu ue KO Rom s ne ER A RE EDR RD X a 27 5 4 4 Spherical co ordinates 2 2 28 Deltares iii D Waq DIDO User Manual 542 Legend 5 43 Grid information 544 Find grid cell 5 45 Check partition lt lt io Pend eee as 546 Land boundary 2 44442 rek sed 5 4 7 Observation areas 5 448 Water Quality grid 5 4 9 Hydrodynamic grid 5410 Boundary so se so de mem HATT Depi ra s re h ag Fe hd ke Ge 54 12 DA PONG usua ske de owe me 5413 Thi deme 2 222 m s 55 Settings MENU ns oso y RR proxy IRR ras 551 Gere sccaras at e g 5 5 2 Change colour map bb Legend i sedano da kes k 5 54 Colours o o ae sake sa ke s 555 Ses 12 23 9 4 HOR OR ROR MG 55 6 Ordercaches rv rv sn 56 Help Menu o o o 5 6 1 User manual ccc cocos SB A hf TOODA uoo cad ORE AA 9 One tas A 6 Tutorial Bl Mods lt lt das Xo Sak ox xol de 6 2 Loading the model 6 3 Zoomoutandzoomin 6 4 Two by two aggregation 6 5 Default aggregation in inlet 6 5 1 Break up the aggregated cells 6 5 2 Define area of influence
56. rtesian or value Spherical 2 The number of grid points in m and n direction 2 integers 3 Three real values not used 4 to K 3 A label and record number the x component of the world co ordinates of all points in m direction starting with row 1 to row nmaz with as many continuation records as required by mmaz and the number of co ordinates per record The label and record number are suppressed on the continuation lines This set of records is repeated for each row until n nmaz K 4 to 2K 3 A similar set of records for the y component of the world co ordinates K is the number of records to specify for all grid points a set of x or y co ordinates Restrictions o The grid must be orthogonal o Input items in a record are separated by one or more blanks Example Deltares Delft3D RGFGRID Version 4 16 01 4531 Sep 30 2008 23 32 27 File creation date 2008 10 01 23 19 22 Coordinate System Cartesian 9 7 000 Eta 1 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 2 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 3 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 5 00000000000000000E 02 6 00000000000000000E 02 7 000000 Eta 4 0 00000000000000000E 00 1 00000000000000000E 02 2 000000 Deltares 55 D Waq DIDO User Manual
57. s Delft3D DIDO 22 57 01 30 07 2008 ObsArea 001 5 2 1 8768018E 05 1 8996981E 05 1 9746314E 05 1 9480925E 05 1 8768018E 05 ObsArea 002 5 2 2 0011703E 05 1 9819166E 05 2 0568498E 05 2 0797461E 05 2 0011703E 05 ObsArea 003 5 2 1 9340425E 05 2 0183425E 05 1 9944054E 05 1 9522555E 05 1 9340425E 05 0o000 A 0O000 Oo 0o000 Oo Data monitoring file File contents Filetype 1708738E 05 1001035E 05 1266423E 05 1838830E 05 1708738E 05 1818015E 05 1063479E 05 0870942E 05 1599460E 05 1818015E 05 1396516E 05 1365294E 05 0558720E 05 0595146E 05 1396516E 05 Volume numbers for each observation area ASCII File format Filename Generated Record description Free formatted lt name dmo gt D Waq DIDO or manually offline A header block containing information about versions and the name of the polygon file For each observation area the details Deltares 61 D Waq DIDO User Manual Record Record Description 1 Number of observation areas 2 Observation area name and number of segments belonging to this observation area NVOL integers indicating the volumes belonging to the observation area Restriction o The maximum record length in the file is 132 Example The number of observation areas is 3 They are called Observation Area 001 Observation Area 002 and Observation Area 003 3 Monitoring Area 001 22 80 102 124 146
58. ses a rectilinear curvilinear or Finite Element hydrodynamic grid layout as input It produces the administration file needed by the Delft3D Water quality model DELWAQ to condense the fine hydrodynamic grid to a coarser water quality grid Each water quality grid cell consists of an integer multiple of the hydrodynamic grid cells Using D Waq DIDO without aggregation will produce a DELWAQ aggregation input on the original hydrodynamic grid spacing although DELWAQ grid cells will be renumbered This means that D Waq DIDO does NOT make grids but modifies existing hydrodynamic grids for use in water quality and ecological modelling D Waq DIDO does so by defining a pointer from each of the hydrodynamic grid cells to a water quality grid cell This means that after operation of D Waq DIDO each hydrodynamic grid cell has a DELWAQ water quality ecology grid cell numbering Implementation specific aspects Although D Waq DIDO can support a variety of hydrodynamic grid structures your version will generally be limited to operate in concert with the hydrodynamic models available at your site At the point where you are able to import a hydrodynamic grid you will generally only be con fronted with a selection screen showing the hydrodynamic grid files supported by your installa tion Since this manual is general certain sections will refer to options that are masked e g a regular aggregation of every m x n grid cells is meaningless for irregularly linke
59. t all objects land boundaries polygons grids depths etc will be deleted e you start from scratch Open project Upon selecting File gt Open Project the Open Project window appears in which you can browse to an existing project lt x d3d gt file Remark o A project saved by RGFGRID or QUICKIN can be read by D Waq DIDO Save project Upon selecting File Save Project the current project filenames for hydrodynamic grid and waterquality segments will be saved under an overall project name If the project name is not known yet the Save As Project window appears Save project as Upon selecting File Save Project As the current project can be saved under a different name Attribute Files On the Attribute Files sub menu see Figure 5 3 options are available to open and save objects that are indirectly related to the grids Edit Operations View Settings Help New Project GELSE fe gx Open Project Gi Save Project B save Project As Attribute Files G Open Land Boundary Import Ge Open Observation Areas Bu ar Open Selection Pi en Selection Polygon Flow Attributes NET Yg B Save Selection Polygon 5 Open Colour Map a fj Open Cut Out Ge Open Settings fy Save Cut Out Figure 5 3 File Attribute Files options 14 Deltares Menu options Open land boundary Upon selecting File Attribute Files Open Land Boundary you can open a collection of land bo
60. t mouse button will give a regular aggregation for the whole model Remark o The operation can be limited by a polygon this polygon defines an area of influence So the aggregation will only be performed for those cells whose cell centre are inside the polygon Cell centres are indicated by a dot Irregular Upon selecting Edit Irregular you can make a irregular aggregation of the hydrodynamic volumes Click with the left mouse button in a grid cell of the hydrodynamic grid then all the cells with the same aggregation number are surrounded with a thicker line To add a grid cell to the grid cells already indicated click into another grid cell Do this as much as needed Finish the operation by pressing the right mouse button Deltares 21 5 2 3 5 2 4 D Waq DIDO User Manual Break up Upon selecting Edit Irregular you can break up an aggregation Click into an area which is already aggregated to break up this aggregation i e the default aggregation is reset for this aggregated cell Selection polygon The polygon is used to limit the area of influence of operations and or edit actions see Fig ure 5 8 Operations View Settings Help Regular b d Irregular Break up Selection Polygon gt Edit Cut Out Area gt r New Observation Area gt p lt Delete Select J Insert Point 5 Move Point f Delete Point Figure 5 8 Options on the Edit Selection Polygon menu Edit Upon select
61. t x dep gt the depth definition file 999909 It is also possible to load these files separately For a description of the Open boundary dry points thin dams and depth definition files see section 5 1 8 Grid RGFGRID Upon selecting File Import Grid RGFGRID you can open a collection of grids The grid file has a default mask lt x grd gt see section A 5 Remarks o The co ordinate system in D Waq DIDO is set accordingly to the system specified in the grid file o If the co ordinate system is spherical then the co ordinates are shown in stereographic 16 Deltares 5 1 7 Menu options projection o If no co ordinate system is specified Cartesian is presumed Grid Enc RGFGRID Upon selecting File Import Grid RGFGRID you can open the grid enclosure file suitable for the active grid The grid enclosure file is strongly related to the active grid due to the grid indices definition in the file see section A 6 Grid TELEMAC Upon selecting File Import gt Grid TELEMAC you can open a collection of grids suitable for TELEMAC triangle grid The grid is in a file with default mask lt x geo gt or lt x slf gt The open boundary files with required mask lt x cli gt are together read with the grid if the basename of the file is the same Remark o The open boundary file can not be read separately after the grid is read Aggregation Upon selecting File Import Aggr
62. te file see Section 5 1 7 Edit Upon selecting Edit Observation Area Edit you can start editting a polygon that defines an Observation Area When there is no polygon the edit mode is set to New otherwise you have to select first a polygon from the menu Edit Observation Area Select or press the key s After you have selected the polygon you can use key strokes icons in the toolbar or menu items to switch the edit mode New Upon selecting Edit gt Observation Area New click on 7 or use the key stroke n you can sart to define a new observation area Right mouse click to finish defining this polygon next click with left mouse button will start a new observation area Deltares 25 5 3 D Waq DIDO User Manual Delete Upon selecting Edit Observation Area Delete click on X or use the key stroke e you can delete erase a observation area by indicating it with the left mouse button Select Upon selecting Edit Observation Area Select or use the key stroke s you can select a polygon by clicking on one of its edges or vertices After that the polygon will be highlighted Edit name Upon selecting Edit gt Observation Area gt Edit Name you can change the observation area name by indicating the area with the left mouse button After this a form opens and you can change the observation area name see Figure 5 11 f7 Observation Area LP es Name Observation Area 001 d msnm k 4
63. the grid and land boundary are visualised in the D Waq DIDO window see Figure 6 2 Although the land boundary has a greater extent the extent of the window is unchanged The first opened file determines the extent of the main window Deltares 39 D Waq DIDO User Manual D Water Qualty DIDO 134 Figure 6 2 Hydrodynamic grid 6 3 Zoom out and zoom in Zooming out the model in discrete steps SK Click on AR To zoom out to the full extent of all loaded files o Click on gt Now you have a picture where you can see the whole Dutch coast and as you can see Friesian Tidal Inlet model is in the north of The Netherlands To zoom in on the grid there are several possibilities o Use the mouse scroll wheel The cursor is the fix point when scrolling the mouse wheel Click on and drag a rectangle Do it several times after each other and terminate the zoom in action by pressing the right mouse button RA o Click on ex To pane the grid keep the CTRL key down and move around with the cursor 40 Deltares Tutorial 6 4 Two by two aggregation The grid and land boundary are loaded and the next step will the hydrodynamic grid to two by two cells aggregation which will be used by the water quality grids Choose the menu option Edit Regular you can click the two corner cells which form the outline of the new aggregated cell o Click on the first cell see Figure 6
64. ting started 5 3 1 Overview ofDelfiBD e 4 5 22 Starting DEMS oo so e a sarace Re AE Akk kee a aa 5 49 Getting into D Waq DIDO gt o 6 626 285 RR RR REOR 6 44 Bing D Wag DIDO 12 aoe ecr aoa s k ks a d Rn we 8 4 General operation 11 4 1 General program operation instruction o oo a 11 4 2 Key stroke functions a 11 5 Menu options 13 EI FE i eee or a eta ee he Ve GR EEE SORG 13 511 New project sus imo ho Rene Rem Rmo 9e e XR ke 14 534 2 Open pl je uu siue rad X Ra 14 51 9 Seve POMC uso y mu e E GE Ge Go ORT EVER 14 51 4 SaveprojOL SB oues on o RR Rok ka RR i 14 518 Attribute Files s u rero eca 22x m on bad kje M 14 OBS HE PN oe LA Be es te Ge ee ee al 16 BF BD sa a ea Oe Rok AA 17 518 Plow ainbues 2 4465 eR RR bk RR LEA R 18 519 pen Colour MAD u amp ske ee E A 20 53 10 Open Senge cuo bee ee ie Reeth l it eee be eae eed 20 SAI Save SENGS a ee eA AAA o eae EM 20 SIA METER eee oe eae Lae ee Gol we 21 Be Edi BH e koe dme awa Poe we Rae os Rs OE Ge a 21 S21 A 21 522 Weer s cc mdoern aedo dod ke Er ee ee 21 BR BSEC ner oe kd Vide ee xxm G 22 524 eleclonpBolgal sve eee k ee ta sake ke 22 525 Coloured ce cs demo RE ew RS Rom Rue oe UR e bee i 23 5 26 Observation area c o 2222222 25 53 Operations iment 2222 x c x x ek ee Ka ke wo 26 53 1 eelecrdomalh oto oo RR go Rm RR da 27 5 3 2 Delete domain score e m m eae ea 27 5 3 8 Change centre of p
65. undaries Land boundaries or land water marking are in files with default mask lt Idb gt It is in D Waq DIDO only for display purposes Remark o If you open another land boundary it will be visualised together with an existing land boundary Open observation areas Upon selecting File Attribute Files Open Observation Areas you can open a collec tion of observation areas with a file with default mask lt x oai gt Observation Area Information file The polygons referenced in this file are per definition closed If the polygon is not closed in the file it will still be shown as closed Remark o If you open another oai file then the previous one will be deleted Open selection area Upon selecting File Attribute Files gt Open Selection Polygon you can open a collec tion of area of interest polygons from a file with mask lt x pol gt Polygons are per definition closed If the polygon is not closed in the file it will still be shown as closed Remark o If you open another polygons file it will be visualised together with existing polygons Save selection polygon When saving selction polygons each polygon will be saved as a closed polyline A polygon file has as default mask lt x pol gt Open Cut out Upon selecting File Attribute Files Cut out you can open a collection of cut out polygons from a file with mask lt x pol gt Cut out polygons are per definition closed If the cut
66. wq Monitoring Areas f34 dd f01 dmo Grid Type RGF FileName f02 grd Aggregation f34 dd f02 dwq Monitoring Areas f34 dd f02 dmo Grid Type RGF FileName f03 grd Aggregation f34 dd f03 dwq Monitoring Areas f34 dd f03 dmo Aggregation file File contents The aggregation table of hydrodynamic volumes Filetype ASCII File format Free formatted Filename lt name dwq gt Generated D Waq DIDO Record description Record Record description 1 five integer numbers separated by a blank nmax number of computational volumes in 1 direction mmax number of computational volumes in E direction mmaxxnmax total number of computational volumes XXX XXX 2 end one integer containing the aggregation volume index number Restriction o The input items are separated by one or more blanks Example Model area with 8 6 volumes free formatted file HHR O0O0D00000048 Deltares 51 D Waq DIDO User Manual OMUNNOOMUENNOOPAHAHKEKKEOOP Remark o Number of records is equal to mmaz nmax 1 A 3 Land boundary file File contents The co ordinates of one or more polylines Each polyline piecewise linear is written in a single block of data Filetype ASCII File format Free formatted Filename lt name ldb gt Generated RGFGRID QUICKIN etc Record description Record Record description Preceding description records starting with an asterisk and will be ignored
Download Pdf Manuals
Related Search
Related Contents
Manual do Utilizador - produktinfo.conrad.com Philips GoGear MP3 player SA3MXX04R ASICS CSR REPORT 2010 PROGRAMA DEFINITIVO Maisons en terrasses RT-RH 26 Artikel-Nr.: 4258435 Komponenten / Ersatzteile OPERATING AND SERVICE MANUAL Flovac multilingua CAMI 30751 015 ed 03 bozza del 21 09 取扱説明書 Copyright © All rights reserved.
Failed to retrieve file