FM Tute M02 ARC Pipe Network: Difference between revisions

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Revision as of 00:44, 4 January 2019 view source Tuflowduncan (talk \| contribs) Bureaucrats, Administrators 1,219 edits →Method ← Older edit		Latest revision as of 10:13, 23 September 2024 view source Emilie Nielsen (talk \| contribs) Administrators 6,271 edits No edit summary
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Line 5: =Method= <ol> <li>Copy the GIS layers '''~~1d_nwk_M07_Pipes_001_L~~1d_nwk_FMT_M02_Pipes_001_L.shp''' and '''~~1d_nwk_M07_Pits_001_P~~1d_nwk_M02_Pits_001_P.shp''' within '''Module_data\~~Module_07~~Module_02\Pipe_Network''' into the '''TUFLOW\model\gis''' folder. <li>Open the layer '''~~1d_nwk_M07_Pipes_001_L~~1d_nwk_FMT_M02_Pipes_001_L.shp''' in ArcGIS. This contains polylines representing the culverts that make up the pipe network. <li>A number of the attributes within the '''~~1d_nwk_M07_Pipes_001_L~~1d_nwk_FMT_M02_Pipes_001_L''' layer have not been populated. Using the 'Calculate Field' toolset, update all objects with the following attributes, leaving all other attributes unchanged. An example of populating the 'Calculate Field' toolset was previously presented when updating the [[FM_Tute_M02_ARC_Define_Roughness#Method\|2d_mat files]]. <br> {\| align="center" class="wikitable" width="25%" Line 25: \|} <br> The attributes are described ~~fully~~completely in ~~Table~~the 5<u>[https://docs.~~19 of the 2017~~tuflow.com/classic-hpc/manual/latest/ TUFLOW ~~manual~~Manual]</u>. The attributes that we have populated, define:<br> The 1d_nwk type. In this case, we have specified culverts with a circular shape. The Manning’s n value of the culvert. Line 31: The downstream invert level of the pipes. The same rules as for the upstream invert applies when specifying -99,999. The number of identical pipes in parallel. <li>Open the layer '''~~1d_nwk_M07_Pits_001_P~~1d_nwk_FMT_M02_Pits_001_P''' in ArcGIS. This contains digitised points that represent the pits of the pipe network through which water can transfer to and from the overlying floodplain. <li>A number of the attributes within the '''~~1d_nwk_M07_Pits_001_P~~1d_nwk_FMT_M02_Pits_001_P''' layer have not been populated. Using the 'Calculate Field' toolset, update all objects with the following attributes, leaving all other attributes unchanged. An example of populating the 'Calculate Field' toolset was previously presented when updating the [[FM_Tute_M02_ARC_Define_Roughness#Method\|2d_mat files]]. <br> {\| align="center" class="wikitable" width="25%" Line 49: AB is the name of the pit inlet type referenced within the pit database. Specifying SXL for the ‘Conn_2D’ attribute automatically creates a 2D SX connection at the 2D cell within which the 1D pit is located. In addition, the ZC elevation of the cell will be lowered by the amount specified in the ‘US_Invert’ attribute (0.1m), and the upstream invert of the pit channel set to the lowered 2D cell elevation. This is useful to help trap the water into the pit as it flows overland in the 2D domain. <br> <li> Open the layer '''~~1d_nwk_M04_channels_001_L~~1d_x1d_FMT_M01_nwk_001_P.shp''' created in [[Flood_Modeller_Tutorial_Module01 \| Flood Modeller Tutorial 1]]. Note that the pipe network has been digitised to outfall to the watercourse which is represented in the Flood Modeller network. We need to manually specify the downstream invert levels of Pipe16 and Pipe18 as the discharge point of the pipe network is above the bed level of the watercourse. Make the layer '''~~1d_nwk_M07_Pipes_001_L~~1d_nwk_FMT_M02_Pipes_001_L''' editable and within the attribute table change the ‘DS_Invert’ attribute for both Pipe16 and Pipe18 from -99,999 to 38m.<br> <li> Save the layer '''~~1d_nwk_M07_Pipes_001_L~~1d_nwk_FMT_M02_Pipes_001_L'''<br> <br> <u>'''Pit Inlet Database'''</u> <li>The Pit Inlet Database has been created and can be found within '''Module_data\~~Module_07~~Module_02\Pipe_Network'''. Copy the csv files '''pit_inlet_curves.csv''' and '''pit_inlet_dbase.csv''' into a new folder entitled '''pit_dbase''' within the TUFLOW folder. <li>Open the '''pit_inlet_dbase.csv''' file. The Pit Inlet Database is similar to the Boundary Condition Database in that it references an external source file and relates this to corresponding GIS objects within the model. <br> The first column contains the name of pit inlet type as referenced in the Inlet_Type attribute that was specified within the '''~~1d_nwk_M07_Pits_001_P~~1d_nwk_FMT_M02_Pits_001_P''' layer. The second column contains the name of the source .csv file that contains the depth-discharge curve. The third and fourth columns are the heading labels of the depth and discharge columns respectively in the source .csv file. The fifth and sixth columns are the inlet’s nominated full flow area in m<sup>2</sup> and flow width in m. ~~Section~~The 4<u>[https://docs.5tuflow.~~1.2 of the 2010~~com/classic-hpc/manual/latest/ TUFLOW Manual]</u> provides further information on the Pit Inlet Database. <br> <br> [[File:M07 pit inlet dbase.png]]<br> Line 64: =Conclusion= 1d_nwk layers have been created representing the conduits and pits that make the pipe network that of the proposed development. The layers have made use of an automated function to link the pits to the 2D domain to allow for the exchange of water between the pipe network and the floodplain. A Pit Inlet Database has been created to define a depth-discharge relationship at each pit. Please return to the main page of the[[~~Tutorial_Module07~~Flood Modeller Tutorial Module02#Define_Boundary_Conditions \| Flood Modeller Tutorial 2]]. </ol>