WinTR-20 Project Formulation Hydrology Computer Program Basic Input and Output Presented by: WinTR-20 Development Team

WinTR-20 Basic Input & Output June 2015 ● This presentation demonstrates the new WinTR-20 computer program model. Using a simple example, you will learn how to: –Create an Input File –Run WinTR-20 –View Output 2

WinTR-20 Basic Input & Output June 2015 Example Problem 3 Sub-Areas - Sub-Area 1 contains a floodwater retarding structure. Storm Analysis - Determine peak flows for 5- and 100-year, 24-hour rainfalls. Assume the site is located in a Type NOAA_A Rainfall Distribution area. 3

WinTR-20 Basic Input & Output June 2015 Schematic For Example Problem Reach 1 Sub-Area 1 Reach 2 Sub-Area 2 Sub-Area 3 Outlet (Reach Routing ) (Storage Routing ) Storage Structure Sub-Area Inflow Points Legend 4

WinTR-20 Basic Input & Output June 2015 Data Sources ● The data presented in the next 5 slides have been gathered prior to inputting into WinTR-20. ● The data includes: –Sub-Area Watershed Characteristics –Stream Reach Hydraulics –Storage Structure Hydraulics –Evaluation Storm Amounts and Distribution 5

WinTR-20 Basic Input & Output June 2015 Sub-Area Parameters Sub-Area 1 Sub-Area 2 Sub-Area 3 Drainage Area (sq.mi.) Runoff Curve Number Time of Concentration (hr) Receiving Reach Number Reach 1Reach 2Outlet 6

WinTR-20 Basic Input & Output June 2015 Reach Parameters Reach ParameterReach 1Reach 2 Receiving ReachReach 2Outlet Reach TypeStructureChannel (Struct 1)(Xsec 2) Reach LengthNA5400 feet 7

WinTR-20 Basic Input & Output June 2015 Reach 1 Structure Data Example problem assumes pool is empty (EL 423) when storm begins. ElevationDischarge (cfs) Storage (acre-feet)

WinTR-20 Basic Input & Output June 2015 Xsect 2 Rating Table Data derived from HECRAS, Manning’s, etc. Reach Length = 5400 feet, Bankfull Elevation = ElevationDischarge (cfs) End Area (ft^2) Top Width (ft) E.G. Slope (ft/ft)

WinTR-20 Basic Input & Output June 2015 Storm Data ● 5-Year 24-hour Rainfall Amount = 3.7” ● 100-year 24-hour Rainfall Amount = 6.2” ● Use Type NOAA_A (Type NO_A) 24-hour Rainfall Distribution (built into WinTR-20) 10

WinTR-20 Basic Input & Output June 2015 Getting Started - The Initial WinTR-20 Editor Screen ● From Start Menu, go to All Programs, Engineering Applications, and WinTR-20. ● The following WinTR-20 System Controller/ Editor Screen comes up: 11

WinTR-20 Basic Input & Output June 2015 WinTR-20 System Controller / Editor Window ● Click on the “File” menu, select “New WinTR-20 File” 12

WinTR-20 Basic Input & Output June 2015 WinTR-20 Identifier Record ● WinTR-20 Identifier will appear. ● Select “Input Units Code:” and “Output Units Code:” (English or Metric) ● Enter “Minimum Hydrograph Value:” (optional) ● Enter “Watershed Description:” ● “Accept Changes (Close)” button to complete this record. 13

WinTR-20 Basic Input & Output June 2015 Suggested Input Entry Order 1. Enter storm event data 2. Enter all sub-area(s) information 3. Enter all reach(es) information 4. Enter cross section rating data (elev, discharge, end area, top width, energy grade slope) and storage rating data (elev, discharge, storage) if model has reach or storage routing 5. Global output preferences 14

WinTR-20 Basic Input & Output June 2015 Entering Storm Data ● Select “Storm Analysis:” to enter rainfall amounts and distribution. 15

WinTR-20 Basic Input & Output June 2015 Storm Data ● 5-Year 24-hour Rainfall Amount = 3.7” ● 100-year 24-hour Rainfall Amount = 6.2” ● Use Type NOAA_A (Type NO_A) 24-hour Rainfall Distribution (built-in to WinTR-20) 16

WinTR-20 Basic Input & Output June Entering Storm Data ● Enter the 5- and 100-year rainfall amounts, distribution type, and Gage Antecedent Runoff Condition (ARC - Default is 2). ● The “Storm Identifier:” can be any alpha- numeric string. ● The screen to the right shows the user selecting the Type NO_A Rainfall Distribution from the pull-down menu.

WinTR-20 Basic Input & Output June 2015 Entering Storm Data ● The screen to the right shows the “Storm Analysis:” window after data has been entered for both events. ● The data entry is completed by clicking “Accept Changes (Close)” button. 18

WinTR-20 Basic Input & Output June 2015 Entering Storm Data Storm Analysis Input Notes 4“Rain Gage Identifier:” is not required if WinTR-20 is executed using the same rainfall amount and distribution over the entire watershed. 4“2-Yr 24-Hr Rainfall:” is not required unless the Velocity Method is used to compute Time of Concentration for any Sub-Area. 19

WinTR-20 Basic Input & Output June 2015 Enter Sub-Area Data ● Enter Sub- Area data by clicking on “Sub- Area:” 20

WinTR-20 Basic Input & Output June 2015 Entering Sub-Area Data ● Enter data as shown for all three Sub- Areas. ● “Sub-Area Identifier:” and “Sub-Area Reach Identifier:” are user defined alpha- numeric names. ● “Sub-Area Reach Identifier:” refers to the Reach that will receive the Sub-Area’s hydrograph. 21

WinTR-20 Basic Input & Output June 2015 Entering Sub-Area Data ● If a single rainfall depth and distribution is being used for the whole watershed, “Rain Gage Identifier:” is left blank ● Note output being requested for this Sub-Area: Peak Flow and Hydrograph 22

WinTR-20 Basic Input & Output June 2015 Entering Sub-Area Data (continued) ● After data for Area 1 has been entered, simply highlight the box containing “Area 1” then type “Area 2”. Begin entering Area 2’s data. Repeat for “Area 3”. Click “Accept Changes (Close)” button when finished. 23

WinTR-20 Basic Input & Output June 2015 Getting Help ● To get help at any time on input parameters, simply click on the text for that input. ● A screen then appears with a description of the parameter. ● To close the help window, click on the input text line again. 24

WinTR-20 Basic Input & Output June 2015 Sub-Area Parameters Sub-Area 1 Sub-Area 2 Sub-Area 3 Drainage Area (sq.mi.) Runoff Curve Number Time of Concentration (hr) Receiving Reach NumberReach 1Reach 2Outlet 25

WinTR-20 Basic Input & Output June 2015 Entering Stream Reach Data ● After all the Sub- Area data has been entered and accepted, the user is returned to the main input editor menu. ● Next, click on “Stream Reach:” to enter reach data. 26

WinTR-20 Basic Input & Output June 2015 Entering Stream Reach Data Entering Stream Reach Data ● Use pull down menu to select the stream reach needing input. ● The names that will appear in this pull down menu were defined during the Sub- Area data entry section (“Sub- Area Reach Identifier:”). 27

WinTR-20 Basic Input & Output June 2015 Reach Parameters Reach ParameterReach 1Reach 2 Receiving ReachReach 2Outlet Reach TypeStructure (Struct 1) Channel (Xsec 2) Reach LengthNA5400 feet 28

WinTR-20 Basic Input & Output June 2015 Entering Stream Reach 1 Data ● “Reach 2” is the receiving reach for “Reach 1”. ● “Reach 1” is a structure-type routing. The structure rating data (entered later) will be identified as “Struct 1”. ● Since this is a structure routing, no channel or valley lengths are used. 29

WinTR-20 Basic Input & Output June 2015 Entering Stream Reach 2 Data ● “Outlet” is the receiving reach for “Reach 2”. ● “Reach 2” is a channel-type routing. The channel cross section data (entered later) will be identified as “Xsec 2”. ● Since this is a channel routing, channel or valley lengths are used. 30

WinTR-20 Basic Input & Output June 2015 Entering Structure Data ● After the “Stream Data” was entered and accepted, select “Structure Rating” from the main window. ● From the pull- down menu “Struct 1” is selected. 31

WinTR-20 Basic Input & Output June 2015 Reach 1 Structure Data Example problem assumes pool is empty (EL 423.0) when storm begins. ElevationDischarge (cfs) Storage (acre-feet)

WinTR-20 Basic Input & Output June 2015 Entering Structure Data ● This example has WinTR- 20 start the routing at the lowest elevation. ● Enter data one line at time for the Structure Elevation, Discharge and Storage ● The user can click on “Display Data” for a graphical view of the data just input. ● Click on “Accept Changes (Close)” button when finished. 33

WinTR-20 Basic Input & Output June 2015 Entering Stream Cross Section Data ● After the Structure Data was entered and accepted, the user is ready to enter the stream cross section data. The user selects “Stream Cross Section:” 34

WinTR-20 Basic Input & Output June 2015 Entering Stream Cross Section Data ● On the pull down menu, “Xsec 2” is selected. 35

WinTR-20 Basic Input & Output June 2015 Reach 2 Rating Table Data derived from HECRAS, Manning’s, etc. Reach Length = 5400 feet, Bankfull Elevation = ElevationDischarge (cfs) End Area (ft^2) Top Width (ft) E.G. Slope (ft/ft)

WinTR-20 Basic Input & Output June 2015 Entering Stream Cross Section Data ● On the pull down menu, “Xsec 2” is selected. ● Entered the required data. ● Cross Section Data entry is similar to the Structure Data - Use entry cells to the left and enter data one line at a time. 37

WinTR-20 Basic Input & Output June 2015 Entering Stream Cross Section Data ● The user can click on “Display Data” for a graphical view of the data just input. ● Click on “Accept Changes (Close)” button when done 38

WinTR-20 Basic Input & Output June 2015 Entering Stream Cross Section Data Notes on Cross Section Data: 4Data usually prepared ahead of time using water surface profile programs such as HEC-RAS. 4“Bankfull Elevation” represents the right or left channel bank whichever is lower. 4Low ground represents the elevation where flood plain storage begins. If blank, it defaults to bankfull elevation. 39

WinTR-20 Basic Input & Output June 2015 Global Output After all the other data have been entered and accepted, the user is ready to enter the Global Output. The user selects “Global Output:” 40

WinTR-20 Basic Input & Output June 2015 Global Output ● Global Output allows the user to select the same output for ALL sub- areas and stream reaches at once. ● For this example, hydrographs and peak discharge information will be output for all points in the watershed. 41

WinTR-20 Basic Input & Output June 2015 Saving Input File ● From the “File” menu, select “Save As” to give a file name and directory to save to. 42

WinTR-20 Basic Input & Output June 2015 Checking Data Prior to Running WinTR-20 ● Prior to running WinTR-20, it is useful to view the watershed “Schematic”. ● Under the “View” drop down menu on the Controller/ Editor screen, click on “Schematic”. 43

WinTR-20 Basic Input & Output June 2015 Checking Data Prior to Running WinTR-20 ● The Schematic shows how the sub-areas and reaches are configured. ● Make sure that “Legend” and “Labels” under the “View” options are turned on. 44

WinTR-20 Basic Input & Output June 2015 Running WinTR-20 ● After the file has been saved, the “Run” option will show in menu bar at the top. ● To run the program, simply click on “Run”. 45

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output- Printed Page File ● Following a successful run, the “Printed Page File” screen comes up. ● For this example, peak discharge and hydrographs were requested for all sub- areas and stream reaches. ● Output can be sent to the printer or to a file from this screen. 46

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output- Debug File ● After viewing, the “Printed Page File” there may be other output to view. ● Click View and see if there is a “Debug File”. ● Output can be sent to the printer from this screen. 47

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output - Plots ● WinTR-20 also has graphical output capabilities. ● Following a successful run, the “Plots” option can be selected... 48

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output - Plots ● In this example, the Hydrograph for Sub- Area 2 for 100-year storm is requested. ● Note: Hydrograph plots are only available if “Hydrograph Output” has been selected within the individual sub-area/stream reach or as a Global Output. 49

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output - Plots ● To view the Hydrograph, click on “Display” button. ● Options include printing, copying, and zooming in and out. 50

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output - Plots ● To plot two items on the same graph, select an option (Multiple Storms or Location) under Multiple Hydrographs ● For this example (multiple location), a plot of the hydrograph into and out of the storage structure (Reach 1) for the 100- year event is selected. 51

WinTR-20 Basic Input & Output June 2015 WinTR-20 Output - Plots To view the multiple Hydrograph plot, click on “Display” button. 52

WinTR-20 Basic Input & Output June 2015 Some Important Considerations: ● Each time a change is made to the input data, the file must be saved before the “Run” option is presented. ● When bringing in an existing file, select “ No Changes (Close) ” to get the “Run” option to appear. ● All data input require a positive entry (i.e. carriage return, tab, or left mouse click in another data box) to be recognized. 53

WinTR-20 Basic Input & Output June 2015 The End 54

WinTR-20 Basic Input & Output June