User Manual
Contents
1. modify it run it and output to a WDM data file WinHSPF does not have the capability of outputting to DSS files Step 1 Open WinHSPF This can be done by running the program from the Start menu of your computer or by selecting Models HSPF from the menu bar in BASINS 3 0 Step 2 Open WinExist uci by selecting File Open from the menu bar and browsing to the folder containing the HSPF input files WinHSPF will not open HSPF input files that contain the DSS output commands therefore Baird has developed HSPF input files for use within WinHSPF Hp ological Simulation Program Foran HSE evinesstat E l lxj Bie Eai Pume Hoi ol s o jel Peeind knpind k oy ie a k ee my a 3 PERVIOUS LA RCHRES 810 ACHRES a2 ee ms RCHRES 4 E R hRES an E oo RRS 3 orasse CARES am E n 4i 5 E __ ee RCHRES BAD y i GRASS C mama oe eee thee J es Y pa ACHRES 30 HRES y 2 i i C q Fichines 223 FES 2 k h os RCHTT 177 a ACHRES 868 RACHRES 661 IRES 3 a z _ a a a s J g i 2 saz fo RCHRE ay ES x r E m 4 e k a M i L RCHRES 46 Riesa 8 HCH we SEE a TERRES Bb RchRes e Ta i L 4 ACHRES G4 Ce a w _ RCHRES 5a D E as eines i R anii Miis so we at Seg 380 a y mss N x x ACHRES l Hohes aia hor REF __ chines 231 y press EE Ee2. Start and End Dates NUMBER OF INPUT AYDROGRAEHS T OF HYDROGRAPH PATHNSMES SAME ORDER AS HEC 6 INPUT NEMOMAVE MENOMONEE RERCH 922 FLO 1DRY EXISTING MEKSMOYEE RERCH 919 FLOo 1 DAYS ERTS TING 1 4 MENOMONEE REACH 74 FLOa 1DAY EXISTING MENOMOUERE RERCH S46 FLOR 1DAY EXTSTINGS HENOMONEES REACH O47 FLOW 1DAY EXISTING MENOMONEE REACH 944 FLOW 1DAY EXISTING MEKSMOYEE REBRCH 89 7 FPLOa 1DAY SERTS TINGS HMENCMOMEE REACH 829 FLOu 1DAY EXIS TINGS MENOMOWEE REACH 323 FLOa 1DAY EXISTING ROODS REACH S2B PLOWS IDAY EXISTING SROODS REACH 925 FLOW IDAY EXISTING S HONET REACH 915 FLO8 1DAY EXISTING ROWET REACH 913 FLOG 1DAT EXISTING HOMEY REACH 912 FLOW 1DAY EXISTING BONEY REACH 811 FPLOW LDAY EXISTING RONEY S REACH 910 FLOW 7 1DAY EXISTING F HONEY REACH 909 ELOW LDAY EXISTING UNDERWOOD REACH 904 FLO 1DAY EXISTINGS SUNDER GOD REACH J05S FLOU 1DAY EXISTING F UNDERWOOD REACH 903 FLOu 1DAY EXISTING UNDERWOOD REACH 90L ELOU 1DAY EXISTING J UNDER OOD REACH 992 FLOU 1DAY EXISTING F UNDERUOOD REACH J91L FLOW 1DAY EXISTIHNG UNDERWOOD REACH FLOU 1DAY EXISTING FUNDER GOD REACH A0A FLON 1DAY EXTS TINGS UNDERWOOD REACH BAT FLOWs 1DAY EXISTING GRANTOR REACH 578 FELON 1DAY EXISTINGS GRANTOSA BRERCH 679 FLOWU DAYS EXISTING FGRANTOSA REACH 977 FEFLOW DAYS EXISTING GRANTOSA REACH 77 FLOM 1DAY ESISTING 2 5 ZLITTLE REACH B71 FLOW
3. contains hydrographs for three land use conditions existing year 1995 future year 2020 and ultimate fully urbanized To change the land use scenario the sixth or F part of the DSS pathname should be changed to existing future or ultimate depending on the desired scenario 10 Step 4 Modify constant water temperature 65 if desired If a variable temperature is desired the user can model temperature variations by editing the final HEC 6 input file Step 5 The last line of this file allows the user to change how often HEC 6 outputs both hydraulic and sediment information through the use of the A and B letters Modify the numbers after each sign to tell the program to include the letter every time step For example if the user chooses A 3 B 2 the A will be printed every 3 time step and the B will be printed every 2 time step and thus when the HEC 6 program is run it will output hydraulic information every 3 time step and sediment information every 2 time step Additional information regarding the HEC 6 output options can be found in the HEC 6 User Manual Appendix A Part 3 which is available for download at http www hec usace army mil software software_distrib hec 6 hec6program html Step 6 Save the inp file with any changes made 11 D menominp Words fio Edi Yer feet Format Hele nisle ae al x lelel a START DATE AND TIME OSJULI9ad O100 ae on ee lt 4
4. located on the CD in the GIS folder to the folder c BASINS apr on your computer s hard drive 4 Copy the 04040003 folder to the folder c BASINS Data on your hard drive The GIS can then be opened by either double clicking on the MR_GIS apr file or opening that same file from within Arc View IV RUN HSPF IN DOS AND OUTPUT TO DSS FILE HSPF Exiaing Land Ure Taped File HSPF Future Land Uae leper a HSPF v 12 DOS whol i t DSS File HSPF Medified Exiding Land Uae Input File These instructions describe how to run an existing HSPF input file in the DOS version of HSPF and output flow data to a DSS file Step 1 Open EXISTING UCT which is located on the Menomonee CD in the HSPF folder in a text editor such as WordPad This is a HSPF input file that has been created by Baird and reflects information for 1995 land use Future and ultimate conditions land uses have also been developed and can be run in the same way as the existing file Step 2 Save this file to the folder on your hard drive where you have installed the HSPF program Also be sure to save the corresponding WDM i e EXISTING WDM to the same folder Step 3 Run the HSPF program Step 4 The program will ask for the name of the input file enter the filename and hit enter The HSPF input files developed by Baird are designed to output flow data at specific locations to a DSS file These flow locations correspo
5. 1D0AY EXISTING LITTLE REACH BT1L S FLOGS 1LDAYY EXISTING LITTLE REACH B70 PLOG 1DAY EXISTING LITTLE REACH B6T FLOW LOAY S EXISTING LITTLEZREACH 61 FLOU 1DAY EXISTING Temperature O t t O ti utpu puons L M AHHH Dh 0 h e h i A A A d h h oh bob d oa PW WD d ag CONSTANT 65 OUTPUT AGZ BEF p Step 7 Open writeq bat with a text editor This file is located on the Menomonee CD in the HSPF to HEC6 folder This file contains only one line of text as seen below WRITEQHEC6 I MENOM INP B XXX BAS H XXX DAT where I is the input file for WRITEQHEC6 B is the template HEC 6 input file and H is the new HEC 6 file to be created It should be noted that the program is designed to create a new HEC 6 file and will not overwrite an existing template file Step 8 Alter the input file name inp file template HEC 6 file or new HEC 6 filename as needed IX RUN HEC 6 Modify Sediment p HEC6 Loading Input File The Baird HEC 6 program must be installed copied to your hard drive before running HEC 6 12 Step 1 Save the HEC 6 dat file you would like to run to the same folder the HEC 6 program is in Step 2 Double click on the HEC6C EXE file to run HEC 6 Step 3 Enter the input and output file names as prompted Select no when prompted about creating additional output files they are not necessary Step 4 A HEC 6 output file will be created when the program is run The out
6. Create line breaks at the following ruler positions only 12 24 34 44 56 71 83 96 following instructions given in Excel for line creation and deletion Use the horizontal scroll bar to add the line breaks at 71 83 amp 96 Click Next when finished Text Import Wizard Step 2 of 3 i i 2 x pa This screen lets you set field widths column breaks Lines with arrows signify a column break Instructions for To CREATE a break line click at the desired position line creation and To DELETE a lesen line tas click o the line deleti on To MOVE a break line click and drag it Data preview at Ruler Line break 1 At the next diaglog box click Finish j If the output file 1s too long for Excel gt 65336 lines it will be truncated and the complete output file will not be loaded into Excel Step 3 Copy entire Excel worksheet with the HEC 6 output by selecting all rows and columns this can be done by clicking in the cell above row 1 and left of column A 15 taws Cb ae SOOM F E T E LELT AN Step 4 Copy CTRL C selected area to clipboard Step 5 Paste into OUTPUT worksheet of HEC6_OUTPUT_MASTER_MENOM xls Step 6 From the Tools menu select Macro and click Macros Step 7 Select RunXTimes Step 8 Click Run This macro will extract all relevant HEC 6 output data from the output file and put them in columns for each time step up to 27 time steps if
7. EF Corpdata on Wt 1 tel Network Conn SP Drange on Mel i Hetek Corri EP Levers on Mal i Materik Corr Biy Hatarik Placas Files of hype a Microsoft Enel Files xl uler ait him him All Mi rgsalt Bozel Fikes a Ta Tak in Atal Microsoft Gxcel Files 00 t ala xlt aelmg oa eb Pages Fini html Tit Pikes orn tet ci y Fikes ie gy Tagy Sanyi c Browse to folder containing the HEC 6 output file d Select the desired output file and click Open e Text Import Wizard will appear Text Import Wizard Step 1 of 3 The Text Wizard has determined that your data is Fixed Width If this is correct choose Next or choose the data type that best describes your data iginal data type Choose the file type that best describes your data Delimited Characters such as commas or tabs separate each field Fixed width Fields are aligned in columns with spaces between each field Start import at row fi File origin windows ANST Preview of file M Projects Active Corps Menom men_silt6ga out ee ee a ee a a a a ee a a a a i ee a a a a a a a ee ee ee 2l SCOUR AND DEPOSITION IN RIVERS AND RESERVOIRS Version 4 1 00 OCTOBER 1993 4 INPUT FILE men_silt6ga dat 5 OUTPUT FILE men silt6ga out R RUN Cancel lt Back _next gt Einish 14 f Make sure Fixed Width is selected Click the Next button
8. data from HSPF for each of the following land use scenarios existing future and ultimate conditions Step 4 Select time series to plot by clicking on the time series clicking on Select highlighted DSS Pathname s and clicking Plot Tabulate Selected Pathname s REACH 08 MENROMONEE REACH GDH Ci lox File Utiltiies Time Window Staring Date 0 Staring Time Number of paths 10440 Ending Date Ending Time File Size 18198KB DSS File M Projects Active Corps Menomones4982 02 For CD HSPF to HEC6 MENOMAVE DSS 4 Update Catalog Part A Patge PartC Part D PartE Part F 4 Filter Fa 4205 MENOMONEE RESCH 808 FLOW 01 JAN 968 1DAY EXISTING 4206 MENOMONEE AEACH 808 FLOW 01 JAN1 969 1DAY EXISTING 4207 MENOMONEE REACH 808 FLOW 01JAN1970 1DAY EXISTING 4208 MENOMONEE REACH 808 FLOVY 01JAN1971 1DAY EXISTING 4209 Blea Teed Le a REACH 808 FLOA 01JAN1972 i EXISTING 4210 MENOMONEE REACH 808 FLOW 01JAN1973 1DAY EXISTING 4211 MENOMONEE R 608 FLOW 01JAN1974 1DAY EXISTING 4212 MENOMONEE REACH FLOW 01JAN1975 1DAY EXISTING 4213 MENOMONEE REACH 808 01JAN1976 1DAY EXISTING 4214 MENOMONEE REACH 808 O1JAN19 1DAY EXISTING 4215 MENOMONEE REACH 808 01JAN1978 1DAY EXISTING 4216 MENOMONEE REACH 808 FLOW 01JAN1979 1DAY EXISTING 4217 MENOMONEE REACH 808 FLOW 1DAY EXISTING 4218 MENOMONEE REACH 808 FLOW 1DAY EXISTING 4219 MENOMONEE REACH 808 FLOW 1DAY EXISTING 4220 MENOMONEE REAC
9. impuri to HEC6 DOS owip ut to HEC6 Output File Use these instructions to determine the correct sediment rating curves for the HEC 6 input file based on the percentage of urban coverage in the watershed The rating curves are of the form y ax where the coefficients a and b are dependent on land use basin size and season Step 1 Open landuse_vs_load xls in Microsoft Excel This file is located on the Menomonee CD in the HEC6 folder Step 2 Enter the percentage of urban coverage in the land use cell F15 and hit return This will cause the values in Table to change according to the specified urban percentage ail Spe emt Yee Foret Tosh Date Window jets ali zi CF eA Fe sih iig CSRS ax Boba F i S Fi AJ x E Se eS E E SE E E N PETT J x a LT ls BB E T a E E 1 E ai s J F Worksheet far demining pedan jai rating curves Am HE CE depending an Ba X of uban coverage of a ct E mon pas n mmr Pet a ahai hr tale gee iam pry oe Par rel te HE DA eed on Fa cee of Leben eee r a oe er a Ti fein fat este aa al Oem cs pe d o i x a abiens erg ore megh ee Pe pero of tee oe p ali eee Landon pel i a E a 5 The rsa aa it Tis ca E coe E EL pr lass ope ew pee A i 12 a aay EOE eu J k o a bral serei or eee PH eee Pm fal zii Fi a Sorrag wu ean comer Goer bori res LS pa iea avi ive had abe ba Led ri p Flow ot f
10. there are more or less time steps for which data is to be extracted the macro can be modified to reflect any number of time steps The values for every cross section are listed The order of the data is Little Menomonee Grantosa Underwood Honey Woods Main Stem Step 9 To plot results select data to be plotted and click on Plot button normal Excel procedure Ed Microsoft Excel Book S Eile Insert view Format Tools Data Window Help i I zH t i 10 Normal B 7 u Step 10 Once data has been extracted be sure to save the file under a different name so as to keep the MASTER file clean 16 NOTES These instructions and associated files are designed specifically for the Menomonee River Watershed and the HEC 6 file developed by Baird Also the macro RunXTimes will only run an already specified number of times To run for more or less than 27 time steps modification of the X variable value in the macro is required XI VIEW HEC 6 OUTPUT IN SPATIAL DATA ANALYZER SDA HEC6 Output File 4 BROWSER SDA Browser These instructions explain how to view HEC 6 output data in SDA Step 1 Open SDA Browser SDA Browser must have already been installed on your machine to use this program Step 2 From the File menu select Open Project patis bala Anakna Fie retedcommands M2346300 1233568700 M02001 TAADA aae e ss sS stot BS BB oo pst rere Ay Te VouLove be Too GEJ
11. Density Residential Lalit a 21 Step 4 Use the Select Feature tool to select highlight land use areas to be modified BASINS 3 0 File Edit View Theme Step 5 Open the Landuse theme table by clicking on the Open Theme Table button BASINS 3 0 File Edit Miew Theme lysis Surface HOARE RAT Step 6 Select Table Start Editing from the menu bar BASINS 3 0 i it MEL Start Editing save Edits save Edits As Find Ctrl F Query Ctrl Q Promote Join Gtri J j Remove All Joms jon Remove All Links a Pl 4 Refresh EPEE E EEEE 1949023 RANIR 124 Step 7 Select Table Promote from the menu bar This will cause all the records corresponding to the selected areas to be moved to the top of the table 22 File Eda Tabie Field Tools Window Help Polpgon 184775545 2591 F1153 Agneuiural Lard Fifaa EELUI niri ri THAT a fuyaua al L ser Pigon TGE 12200 T Agicubtural Land Fife 42450 10504 SSS EES Lewer Derctaby Airil Pokegan TEN HH HE Ciir Foleja 1 Se E SAAFe 1S Agiut Lared Podegan aa horse WFD Agric lari red Pipon RDIR S025 Ler eriy Pendnhig Fiejo Pera oS SR LST Whetlared Polppon ies Feat be BL S07 SN Foret Foie S14 SSeS Soe Cpe viai Pigon THENG IMOS SITIS wetland Fife TETE SI EUI SGI Aiai L are Pagan Toe TOO TAS SD Agricul bred Polpgon eT SS FOS 1750 Lawr Derry Pieper
12. EC flow data a HEC6 Input File This step of the modeling procedure involves the conversion of the flow data generated by the HSPF model and the insertion of the converted data into a HEC 6 data file One key assumption in performing this conversion is that the HSPF model has successfully written the time series flow data to a HEC DSS file which is explained in Section I of this User Manual The conversion program which has been developed by Baird pulls data out of the DSS file and will insert the flow data into a user specified HEC 6 input file The conversion program called WRITEQHEC6 EXE runs in DOS mode and has an accompanying DOS batch file for ease of use Step 1 Open the file Menom inp which is located on the Menomonee CD in the folder HSPF to HEC6 in any text editing program 1 e WordPad Notebook Microsoft Word etc This script file contains a number of non executable comment lines which are preceded by an asterisk These comments are included to describe the data input Step 2 Modify the start date and end date to reflect the period of data desired for the HEC 6 model Be sure to retain the correct date time format Step 3 Modify DSS pathnames only 1f altering the flow locations in HEC 6 or changing the land use scenario The DSS information is relatively permanent for most modeling scenarios The only input that can be easily changed is the land conditions scenario The DSS file MENOMAVE DSS
13. H 808 FLOW A tet abe a Select entire filtered list Select highlighted DSS Pathname s MENOMONEE REACH 808 FLOW 01JAN1972 1DAY EXISTING Step 5 Additional time series can be plotted by selecting more than one in the list Also time series for difference land use scenarios can be plotted together for comparison by selecting the same location Part B and different scenario Part F OSS Plot Be ipene Ha Pak jai Paths JaLe Fial Table SRANTOSA REACH 87S FUTURE EXISTING FLOW i tuk LE Tirret 12710 1396 05 24 40 13 More information about the DSS viewer within HEC RAS can be found in the HEC RAS user manual which can be downloaded at http www hec usace army mil publications pubs distrib hec ras user user html VI RUN HSPF IN WINHSPF AND OUTPUT TO WDM FILE HSPF Existing Land Ure laput File awai a lt lt lt F Wins PF E WDM File i i HSPF Future HSFF Medified Exiding Land Use Input File Although the user must run the DOS version of HSPF to output to a DSS file one may want to a more user friendly Windows version of HSPF called WinHSPF WinHSPF has been developed as part of BASINS 3 0 and can be run from within BASINS 3 0 or on its own It allows the user to modify all sections of the HSPF input file in a Windows environment instead of in a text editor The following instructions will demonstrate how to open an HSPF input file in WinHSPF
14. IEW HSPF WDM OUTPUT IN GENSCN To view HSPF data in WDM files the program GenScn can be used GenScn is a postprocessor of model data and is included with BASINS 3 0 It allows the user to visualize analyze and compare results from HSPF through the use of WDM files Step 1 Open GenScn from your computer s Start menu or from within BASINS by selecting Data GenScn from the menu bar Step 2 Select File New Project from the GenScn menu bar Step 3 Click the Add from File button and choose the WDM file EXISTING WDM to view in GenScn Add more than WDM file if desired Existing and future land use scenario results can be viewed together by adding both WDM files GenScn Manage Project File lt new project New Select CEE SC Step 4 To list the time series in the WDM file click the Add to Time Series List button GenScn lt new project gt E sl aly se leol ALA None snares Seana Location Constivent Stet End Step 5 Select one or more time series from the list and click the Generate Graphs button ilh located on the bottom of the window left most button under Analysis Adjust the start and end dates as desired For more information regarding GenScn view the user manual which is included in the download of GenScn with BASINS 3 0 Vill CONVERT HSPF DSS OUTPUT TO HEC 6 INPUT DSS File input HSPF Bow data to WriteQHEC6 write new H
15. Menomonee River Sediment Transport Modeling System enuew sasn June 6 2002 I INTRODUCTION The following USer Manual is designed to provide detailed instructions describing how to run the Menomonee River Sediment Transport Modeling System It is presented in a manner that interested individuals can run and modify the models and review the results in order to make decisions concerning sediment transport in the Menomonee River Watershed The instructions included are broken into these tasks e RUN HSPF IN DOS AND OUTPUT TO DSS FILE VIEW HSPF DSS OUTPUT IN HEC RAS DSS VIEWER RUN HSPF IN WINHSPF AND OUTPUT TO WDM FILE VIEW HSPF WDM OUTPUT IN GENSCN CONVERT HSPF DSS OUTPUT TO HEC 6 INPUT RUN HEC 6 VIEW PLOT HEC 6 RESULTS IN MICROSOFT EXCEL VIEW HEC 6 OUTPUT IN SPATIAL DATA ANALYZER SDA BROWSER CHANGE LAND USE IN ARCVIEW AND CHANGE IN HSPF e MODIFY SEDIMENT DATA IN HEC 6 USING SEDIMENT LOADING FUNCTIONS The flow chart of the system can be found at the end of this user manual and shows the progression of the model system from HSPF input to HEC 6 output The steps essential for this model system are highlighted with the gray boxes The additional steps shown allow for additional functionality through the use of several pieces of commercial software including BASINS 3 0 which has been developed by the EPA to incorporate several modeling steps under one umbrella Though due to some model limitations BASINS 3 0 is not an essentia
16. Mk aaen ai fae ie a RCHRES 901 al T3 o ee feet _ A Ny y RCHRES Ba ay a RCHRES a5 RCHRES 915 B i THREES 914 al il ii s RCMRES 919 __ FRCS 98 em ERE Land Ose Peeches tmp ind hcres Pec lod icres Total heres Teral o 0 0 0 D 0 Step 3 To set flow output locations select Functions Output from the menu bar or click the Output Manager button liS 3 from right Step 4 Select the flow option at the top of the Output manager dialog box and click the Add button to add flow outputs WinHSPF Output Manager 5 x Output Type Hydrology Calibration Other Streamflow output will be generated ateach Flow olitput location Output Locations Name Description RCHRES 815 ROUTE THRU 5618 RCHRES 880 ROUTE THRU 83 Add Remove Close Step 5 Select the desired reach location RCHRES for flow output and click the OR button Step 6 To remove a flow output location select the location and click the Remove button from the Output Manager dialog box Step 7 To make additional modifications of the input data click Edit from the menu bar and select the section you wish to modify Step 8 To run HSPF select Functions Run from the menu bar or click the Run button E 2 from right Additional information regarding the use of WinHSPF can be found in the WinHSPE user manual which is included in the download of WinHSPF with BASINS 3 0 Vil V
17. USTALANE doc iE i Spatial Date Anaipcer NEEOQM wi Step 3 Select desired project file MenomoneeSDA prj from the SDA Project folder and click Open Step 4 Refer to following graphic for tool options 17 Spatial Data Analyzer Map Viewer MenomoneeSDA pry p File Edit View Animate Window Help Row 1 Open Project Print preview Print Help Row 2 Change layer properties Clear mouse action Move Zoom by area Zoom in Zoom out Zoom to extent of selected layer Zoom to map extent Undo last zoom Restore last undo of zoom Row3 Play Stop playing Rewind to the beginning Step backwards Step forwards Go to the end Step 5 Refer to the following graphic for layer options 18 Spatial Data Analyzer Map Viewer MenomoneeSDA pri era A check means the layer is turned l sy 9 0 Q RA min o a on an x means it is off a eae Folders represent groups Layers XA sunder_xs s_proj s in a group Can be turned on and off XA main_xs s_proj shy FE Herepeaer together or individually lA River Map v i Subbasin Map EX amp Aerial Photos XE 072101 T1F XE 072117 TIF XE 072115 TIF Right click on a layer or Show Legend group and click Option to Bray Laya modify its properties Fe Option A River Map EX amp Aerial Photos XB 072101 TIF bal APN Step 6 Refer to the following graphic for layer property modifica
18. e and ultimate conditions Thus to run a different land use scenario one needs only run a different HSPF input file If a more customized land use scenario is desired the existing land use layer in ArcView BASINS can be modified and the new HSPF parameters will be calculated for insertion into HSPF The following instructions outline step by step how to modify the existing land use within ArcView BASINS and output the new HSPF parameters Step 1 Open ArcView 3 X Step 2 Open the Menomonee ArcView BASINS project 04040003 apr file HewProjet CaN pen Frojac Seve Project Cites File Name Directories OK Save Project As mim 04040003 apr c basins apr E i pajar A Cancel_ D fishcreek apr D menom apr D menomonee apr D sheboygan apr D sheboygan_dems ap D testapr M tutorial anr B List Files of Type Drives Project apr x Ic Step 3 Turn on the land use theme by checking its box and make it the active theme by clicking on the title Landuse you can tell the theme is active because its legend box appears raised M Landuse lt 4 Check box to turn theme on gricultural Land Ar and Shipping C Cemetery L Commercial B Forest Govemmentinstinzional High Chensity Residential Indusal E Landiiis N S o eider A lt Click anywhere within legend C Mul F annihilate Hores Open Land box red area to make theme active gre abona Ruaha P king C Suburban
19. e part ia eee et ee OL ed te Lean F Le be E TEOL CE i C gt i Tha ng uur a alir eed Fer ppe ar E 3 i Be en G a a Pama rere w Be ged oe E i a a Ct we Le re Lal i a toes Gl yt SOR a fA Se ee Reach hu Step 3 Table one displays sediment load values for different basin sizes and seasons Select the sediment load values depending on the basin characteristic and replace at the corresponding input location from the HEC6 input file 28 Table 1 Rating curve values for HECE input small watershed spring 0 80 2 4 10 50 96 5 large watershed spring 0 058 0 236 1 618 2532 small watershed summer 2 00 6 07 26 20 241 5 large watershed summer 0 679 2 205 10 47 110 52 Mi men_97A dat WordPad File Edit View Insert Format Help ait 4 x olel a B MENOMONEE RIVER MAIN BRANCH SEDIMENT DATA T6 BED SEDIMENT DATA FROM USGS WATER RESOURCES DATA FOR WISCONSIN T USING BED DATA AVERAGED FROM 1975 1977 HEC 6 NO INFLOW SEDIMENT LOAD input file e Small watersheds correspond to drainage areas smaller than 5 mi e Spring data was obtained from April may USGS gage data and summer data corresponds to June July measurements e Make sure to eliminate tab spaces on HEC 6 input file Columns must be aligned on the right e The rating curves were calibrated for south eastern Wisconsin areas e The discharge values B4 J4 can also be modified depending on the flow range at the in
20. l part of the modeling system but it does add additional functionality which may be useful for certain water quality applications ll HARDWARE SOFTWARE REQUIREMENTS The Menomonee River Sediment Transport Modeling System was developed on a computer running Windows ME with an 800 MHz Pentium III processor and 384 Mb RAM The minimum recommended system requirements are e Windows 98 or later operating system e 400 MHz processor e 128 Mb RAM System requirements for specific pieces of software are available at the software download site or in their associated user manual Because of the thoroughness of this modeling system several pieces of software are needed to run the entire system These include e ArcView 3 X purchase at http www esri com e BASINS 3 0 download at http www epa gov OST BASINS e HSPEF Hydrologic Simulation Program FORTRAN v 12 download at http www epa gov ceampubl swater index htm Write QHEC6 Baird Menomonee Model CD HEC6 v Baird Baird Menomonee Model CD Microsoft Excel commercially available SDA Browser Baird Menomonee SDA CD ArcView GIS extensions Oo Xtools 6 1 01 download at http www odf state or us StateForests sfgis e A text editor such as WordPad Notebook included with operating system or Microsoft Word commercially available e HEC RAS for DSS file viewing or another DSS Viewer HEC RAS is available for download at http www hec usace army mil software softwa
21. nd to the inflows required in the HEC 6 model developed by Baird Information regarding the DSS file concept can be downloaded from http www hec usace army mil publications pubs_distrib dss hecdss html V VIEW HSPF DSS OUTPUT IN HEC RAS DSS VIEWER The DSS flow file created by HSPF can be viewed using any DSS file viewer HEC RAS contains a DSS Viewer that can be used to plot and view multiple time series These instructions will demonstrate how to use the HEC RAS DSS viewer to view the HSPF flow data in the DSS files Step 1 Open HEC RAS HEC RAS must be installed on your computer to use this program Step 2 Open the DSS Viewer in HEC RAS by clicking on the DSS button BH HEC RAS River Analysis System File Edit Run View Options Help 2 eee eee eEnes Project Plan Geometry Steady Flow Unsteady Flow Project Hydrologic Engineering Center S US Army Corps of Engineers en a Us Customary Units Description ADSS Viewer SIE x File Utiltiies Time Window Staring Date Staring Time Number of paths Ending Date Ending Time File Size DSSFile S Update Catalog Select entire filtered list Select highlighted DSS Pathname s Plot Tabulate Selected Pathname s Clear Selected List Close Step 3 Select File Open from the menu bar and open the desired DSS file MENOMAVE DSS This DSS file has been created by Baird and contains daily averaged flow
22. nished NAME OUTPUT THEME x File Name Directories OK Default name gt Jinters6 shpl c basins data 04040003 wat x E c Cancel F gt basins amp data 04040003 watershed Location M demi Drives le ooo Step 19 Once the intersect process is completed you can track its progress by watching the progress bar in the lower right hand part of your screen click the Calculate HSPF Parameters button to calculate the area values needed for the HSPF input file 25 Progress bar Choose Subbasin s X Subbasin Select Subbasins Intersect Landuse Soils Themes Calculate HSPF Parameters OK Choose Theme X Choose theme to calculate HSPF parameters Intersh shp suUbbasins Watershed Rivers Honey _xs s_ proj Under xs s pro Sunder xs s proj Main_xs s_proj Little s s proj Step 21 The results for each subbasin will be output to a message box Retain these values for input into the HSPF uci file 1 e copy values to a file or write them down on scratch paper If parameters were calculated for more than one subbasin click OK in the message box to bring up the next values for the next subbasin Subbasin11 x IMPERY 72 5454 GRASS B 61 9921 GRASS C 68 273 FOREST 51 9013 AGRI B 564 436 AGRI C 375 899 WETLAND 10 084 Step 22 Open the HSPF uci i e EXISTING uci file in any text edi
23. put format will depend on the type of output that was specified in the input file s flow data AB etc The output options were discussed in the instructions for converting HSPF to HEC 6 X VIEW PLOT HEC 6 RESULTS IN MICROSOFT EXCEL Microsoft w Excel HEC A Output File daik These instructions explain step by step how to view and plot HEC 6 results including bed change water surface elevation thalweg flow and silt sand and clay loads for each cross section for every output time step Because of line limits in Excel HEC 6 should be run with only the B output to decrease the overall size of the file and increase the number of time step data that can be read into Excel at one time Step 1 Open HEC6_OUTPUT_MASTER_MENOM xls in Microsoft Excel E hica Eisd HECE MUTANT MASTER MEd be igj xj Ej past yew pym ool geu iaw teh E aiaj xj Fee aris i i u 7 U EEA ex Boe oe Ae F hee 7 A 12 14 i5 16 lf i 13 gt i Fi 22 23 a4 26 ri 25 29 a at at 33 hi 35 20 aT l 3 Noa P Hunian i edia a a f a G a o lal I e h G ate A a OaE GaN Roady iT 13 Step 2 Open the HEC 6 output file out using Excel a In Excel choose File Open from the menu bar b At the bottom of the Open dialog box change the field of Files of Type to All Files Look jn EE ny Computer Es Tok ee 345 Inch Flopp L al Disk ODOM Dise Removable Dik E Rutera ake Dik
24. put location 29 MENOMONEE RIVER WATERSHED SEDIMENT TRANSPORT MODELING SYSTEM FLOW CHART HSPF Existing Land Use Input File output to view in WinHSPF WDM File HSPF Future Land Use Input File input to HSPF v 12 output to view in HEC RAS DOS DSS File DSS Viewer input HSPF flow data to HSPF Modified Existing Land Use Input WriteQHEC6 File write new HEC 6 flow data to modify values modify Modify Land Modify Sediment values HEC 6 ArcView input to output to Microsoft Excel HEC 6 view in Output File Essential Model System SDA Browser 30 LEGEND Input File Data File Program Alternative
25. re_distrib hec ras hecrasprogram html Essential modeling system pieces ll BAIRD SOFTWARE INSTALLATION INSTRUCTIONS The following section describes how to install the Baird developed software included on the Menomonee CD s Instructions for installing all other required software is available with the programs SDA Browser The SDA Browser software can be installed directly from the Menomonee SDA CD 1 Open the folder SDA and in that open the folder Install 2 Double click on SETUP EXE and follow the installation instructions HEC6C v Baird Version 4 1 00 of HEC 6 has been modified by Baird to become HEC6C v Baird This new version allows for a greater number of cross sections local inflows and stream segments The executable file for this program is available on the Menomonee CD in the HEC6 folder and it called HEC6C EXE 1 Copy this file from the CD to any folder on your hard drive 2 Run the program by double clicking on the EXE file WriteQHEC6 All files needed to run WriteQHEC6 are located on the Menomonee CD in the folder HSPF to HEC6 1 Copy this folder to your hard drive and follow the instructions given in this USER MANUAL to run the program Menomonee River GIS To view and use the Menomonee River GIS developed for this project the following steps must be done 1 Install ArcView 3 X on your computer 2 Install BASINS 3 0 on your computer 3 Copy the file MR_GIS apr
26. sins button this will select the desired subbasins from the land use theme Step 13 When the selection process is completed click the Intersect Landuse and Soils Themes button Step 14 In the first dialog box that appears select the Soils theme and click OK Intersect SELECT INPUT THEME ue Select the theme that contains features that you wish to Intersect Subbasins Cancel Watershed_bndys Landuse Original Existing Landuse do note e All Rivers Contours of Dem1 Single click to toggle selection click and drag for multiple selection OK Press SHIFT OK to select all fields Ex 24 Step 16 In the next box select the Landuse theme and click OK xl Selectthe polygon theme that will be used to Intersect features from the previous theme Subbasins Cancel EPA Region Boundaries Land Use Index Watershed_bndys Original Existing Landuse do note DEM Demi Step 17 In the following box select all fields that appear i e Subbasin amp Lu_group and click OK Single click to toggle selection click and drag for multiple selection OK Press SHIFT OK to select all fields LOK Step 18 A dialog box will now open asking you to specify the name of the new theme that will be created by the intersection of the soils and land use themes You can either use the default name or specify your own as well as the location to save the file Click OK when fi
27. t Step 8 Change the values in the Lu_group field to the desired land use categories see list for categories by selecting the Edit tool then clicking on the text to change BASINS 3 0 File Edit Table Field xTools Window Help TAA BOE M ARE amp 12 of 36707 selected Land Use Category List AGRICULTURAL LAND AIR AND SHIPPING CEMETERY COMMERCIAL FOREST GOVERNMENTAL INSTITUTIONAL HIGH DENSITY RESIDENTIAL INDUSTRIAL LANDFILLS LOW DENSITY RESIDENTIAL MEDIUM DENSITY RESIDENTIAL MULTI FAMILY MOBILE HOME Altilnsten al Lancto hji 21 TSE Aera La Panne oe TT MIF Aneesh ae i OPEN LAND OPEN WATER RAIL RECREATIONAL Step 9 When finished editing the land use text ROADWAYS PARKING select Table Stop Editing from the menu bar and utiimes click YES to save edits You have now changed WETLANDS the land use SUBURBAN DENSITY RESIDENTIAL 23 Step 10 Click the green HSPF button to open the Choose Subbasin s dialog box BASINS 3 0 E rs ae Ale ISi IA Data Assess Delineate Reports Utilities Mog Choose Subbasin s xj Subbasin Select Subbasins Intersect Landuse Soils Themes Calculate HSPF Parameters CAD xTools Window Help Step 11 Select by clicking the subbasin numbers that correspond to the land use areas just changed Select more than one subbasin by holding the shift button and selecting the number Step 12 Click the Select Subba
28. tions SDA Options 10000000 Click here to modify point line and fill properties 19 Step 7 To view animated data from the menu bar select View TimeBar This opens the time bar which shows the temporal extent of the model data selected Step 8 To play the time series click on the play button or select Animate Play from the menu bar The time series can be played manually by clicking on the selector on the time bar shown below and moving to the desired date Spatial Data Analyzer Map Viewer MenomoneeSDA pr Eile Edt View Animate Step 9 The additional viewers windows can be resized and turned on and off as desired To display data in those viewers simply click on a data layer and drag it to the viewer in the data controller left side Spatial Data Analyzer Map Viewer Bi je han Map E EE aaan Pa ae nF Mil ons Te wE O2002 TF a ag ya nne ba m TF SKA 10s Led Lice Pa era hd ot EAEAN wE OFE1 NTF zE manr wa bral par von il irea BT XII CHANGE LAND USE IN ARCVIEW AND CHANGE IN HSPF HSPF Modified Existing Land Use Input File ss Modify Land Use in ArcView The land use values in the HSPF hydrologic model can be changed in two different ways First to model a particular land use scenario one of three already compiled HSPF input files can be run Baird has developed HSPF input files for three different land use scenarios existing futur
29. tor or word processing program to apply land use changes 26 E rsr a a eee Pr ir Te pk Yew pm Pome Seb carl el RCS a 8 my 7 t E i THE U EHH E E HED I iy E LMT OSE D4 aie i f 24 H ie IMT l F HAHE ISTI TM LaTl H re HRP MPLM FERLMI FERLM PERLAMI i FERLNI i RCHRE ACHES 4 RCHR 2 Fg RCHRE E STERAM RCHRE ii RCHRE 12 PILL RCHRE Li RCHR E ro RCHFE 31 PACHET L ReH yz ACHR TREA TEH ACHRES a une 7 Pp bisio ca IT id Step 23 Search for the following string SubbasinX where X is the subbasin number It will be located in the SCHEMATIC block Findwhat SUBBASINTI T Match whole word only Cancel Match case PERLND RCHRES 810 PERLND RCHRES 810 PERLND 7 RCHRES 810 wee UBBAS INI IMPLND RCHRES 810 PERLND RCHRES 810 PERLND RHR HH PERLND RCHRES 810 PERLND i RCHRES 810 PERLND RCHRES 810 PERLND RCHRES 810 SUBBASINIZ IMPLND 1 RCHRES 812 PERLND 1 RCHRES 812 Values to change Step 24 Change the values for IMPLND 1 and PERLND 1 6 to the new corresponding values from ArcView being sure to retain the format 1 e column spacing etc of the file IMPERV IMPLND1 GRASSB PERLND1 GRASSC PERLND2 FOREST PERLND3 AGRIB PERLND4 AGRIC PERLNDS5 WETLAND PERLND6 Step 25 Rerun HSPF with the new land use parameters 21 XII MODIFY SEDIMENT DATA IN HEC 6 USING SEDIMENT LOADING FUNCTIONS HEC6 Input File Y
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