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Plot Results
User’s Manual » Features » Tool Bar » Simulation » Simulation – Output » Plot Results
Select objects on the map whose time-series results to be plotted. Multiple objects can be selected by holding Ctrl key. Then, click the button Plot Results to view the time-series results. Click Export on the Plot Results window to export the results in CSV…
9.3.3.2 Plot Results
VO-SWMM » 9 Working with Output » 9.3 Continuous Simulation Outputs » 9.3.3 Time Series Plot » 9.3.3.2 Plot Results
To view other time series data, select the objects in Map View or Schematic View, and then click the Plot Results button in Simulation tab. The Plot Results window will appear. On the left side is the control panel to control the data source and appearance of the…
VO-SWMM Support
User’s Manual » VO-SWMM Support
VO-SWMM has a comprehensive Help System and supporting documentation that will assist both beginners and advanced users. The primary goal in designing this Help System was to empower users with the tools and information so that almost every question can be answered in…
Installing VO-SWMM
User’s Manual » Installing VO-SWMM
Follow the requirements and steps to install VO on your computer. Hardware and Software Requirements Licensing System Installing VO Running VO Uninstalling VO
Plot Calibration
User’s Manual » Features » Tool Bar » Simulation » Simulation – Output » Plot Calibration
In case you want to compare the simulation result with the measurement data, use the Plot Calibration tool. The format of the measured data file is as below. The first column is date and time in a format of Month/Day/Year Hour:Minute:Second. The second column is the…
C. Installing VO-SWMM
User’s Manual » Installing VO-SWMM » C. Installing VO-SWMM
Before installing VO, make sure that you have closed all other programs and that any virus protection software is disabled. A connection to the cloud server is required for the cloud license system to work. These 2 TCP ports MUST be open for outgoing connections on…
D. Running VO-SWMM
User’s Manual » Installing VO-SWMM » D. Running VO-SWMM
To start VO-SWMM, simply double-click on the VO desktop icon or find the VO item from your Start menu. Once VO-SWMM starts, you will first see the splash screen as below Then, you will see the main window. You may see the main window as below, which is used for…
E. Uninstall VO-SWMM
User’s Manual » Installing VO-SWMM » E. Uninstall VO-SWMM
You may be required to uninstall VO-SWMM in the future. The following procedure should be followed to uninstall VO-SWMM from your system: Launch Control Panel and double-click Add/Remove Programs. Scroll down the list until you find VO. Select item and click OK…
9.2.3 Hydrograph Plot
VO-SWMM » 9 Working with Output » 9.2 Single-Event Simulation Outputs » 9.2.3 Hydrograph Plot
The Hydrograph Plot feature can be used to view hydrographs graphically without the need for a third-party application. This feature allows users to quickly view their hydrographs, compare them, and make qualitative assessments about their model. VO provides three…
9.2.3.3 Plot Calibration
VO-SWMM » 9 Working with Output » 9.2 Single-Event Simulation Outputs » 9.2.3 Hydrograph Plot » 9.2.3.3 Plot Calibration
It is necessary to compare the observed and simulated hydrograph in model calibration. Plotting the two hydrographs and the corresponding rainfall in the same plot is very helpful to guide the calibration. Identifying the Gauge Objects’ To compare to an…
9.3.3.3 Plot Calibration
VO-SWMM » 9 Working with Output » 9.3 Continuous Simulation Outputs » 9.3.3 Time Series Plot » 9.3.3.3 Plot Calibration
Similar to the single-event simulation, it is important to compare the observed and simulated time-series data for model calibration. As there are more than one time-series data available, it is necessary to specify which time series to use for the comparison. This is…
9.2.3.2 Cross Scenario Plot
VO-SWMM » 9 Working with Output » 9.2 Single-Event Simulation Outputs » 9.2.3 Hydrograph Plot » 9.2.3.2 Cross Scenario Plot
The Cross Scenario Plot feature can be used to compare hydrographs from two different scenarios (existing and proposed) on the same graph. This is a good tool for quickly comparing hydro-graphs at known locations, based on proposed modifications within the upstream…
9.3.3 Time Series Plot
VO-SWMM » 9 Working with Output » 9.3 Continuous Simulation Outputs » 9.3.3 Time Series Plot
Multiple time series data are available for each hydrologic object. The available time series is different depending on the types of the objects. The time series can be viewed using three tools: Hydrograph – Plot the simulated flow data with precipitation…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 6. Runoff Treatment » System Representation in SWMM: A Comprehensive Overview
Water Quality Treatment in LIDs In line with Example 4, we treat the filter strip and infiltration trench LIDs as subcatchments to account for their combined impact on storm runoff, including pollutant reduction. While there aren’t well-established models for…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 1. Post-Development Runoff » System Representation in SWMM: A Comprehensive Overview
SWMM is a distributed model designed to intricately analyze runoff generation within diverse landscapes. This involves subdividing study areas into irregular subcatchments to effectively account for spatial variations in topography, drainage patterns, land cover, and…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 2. Surface Drainage Hydraulics » System Representation in SWMM: A Comprehensive Overview
SWMM functions by representing a conveyance network through a series of interconnected nodes and links. These links control the flow rate between nodes and can include conduits like open channels, pipes, or other elements such as orifices, weirs, and pumps. Nodes…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 3. Detention Pond Design » System Representation in SWMM: A Comprehensive Overview
Designing SWMM detention ponds involves key elements: storage units, orifices, and weirs. These components are detailed below: 1. Storage Units: Storage units in SWMM are nodes, distinct from Example 2’s junction nodes. They utilize a Storage Curve to describe…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 4. Low Impact Development » System Representation in SWMM: A Comprehensive Overview
Filter Strips Filter strips are grassy areas where runoff flows in a thin sheet. They’re not great at reducing peak flows but work well at removing solid pollutants during small storms (< 1 year). They’re most effective on gentle slopes (less than 5%) and…
System Representation in SWMM: A Comprehensive Overview
Practical Example of VOSWMM for Students » 5. Runoff Water Quality » System Representation in SWMM: A Comprehensive Overview
VOSWMM uses different tools and methods to model urban runoff water quality. Calibration data is essential for realistic results. Here’s a brief overview of how VOSWMM handles water quality. Pollutants Pollutants, which are user-defined contaminants, accumulate…
Model Results
Practical Example of VOSWMM for Students » 6. Runoff Treatment » Model Results
We’ll discuss results from various runs comparing TSS treatment in LIDs. Starting with filter strip S_FS_1, during a 0.1-inch storm, the TSS concentration in treated runoff dropped from 170 mg/L to 51 mg/L, in line with the 70% removal efficiency specified for…
Model Results
Practical Example of VOSWMM for Students » 2. Surface Drainage Hydraulics » Model Results
Culvert Sizing Before comparing alternative routing methods in SWMM, it’s essential to determine culvert diameters in the conveyance system. This involves finding the smallest size from Table 2-5 for each culvert, ensuring it handles 100-year, 2-hour storm…
Model Results
Practical Example of VOSWMM for Students » 3. Detention Pond Design » Model Results
The final VOSWMM model, including the detention pond, is presented in Figure 3-9 with the input file named Example3.inp. Table 3-4 summarizes discharge elements in the pond’s outlet, detailed in Figure 3-10. Figure 3-9 Figure 3-10 To evaluate the…
Model Results
Practical Example of VOSWMM for Students » 4. Low Impact Development » Model Results
The complete model, with all LIDs included, is in the file Example4.inp. It was simulated using Dynamic Wave flow routing with specific time steps for wet runoff, reporting, and routing. Figures 4-8 and 4-9 compare influent and effluent runoff for filter strip S_FS_1…
Model Results
Practical Example of VOSWMM for Students » 5. Runoff Water Quality » Model Results
We ran both the EMC washoff model (Example5-EMC.inp) and the exponential washoff model (Example5-EXP.inp) for 0.1 in., 0.23 in., and 2-year rainfall events, with the following analysis options: Simulation Period: 12 hours Antecedent Dry Days: …
Results tab
User’s Manual » Features » Object Parameters and Results » Results tab
Select one object of your model and check its summary results easily in the Results tab, which by default is located on the right of the main interface.
Output Results
User’s Manual » Features » Tool Bar » Simulation » Simulation – Output » Output Results
If a run is completed successfully, click the Output Results button to open a new tab and view the model output result file in a text-file format. If a run has errors, the errors of the model will be listed to the Output Results Context Menu for Output…
3.16 Hydrograph Results / Water Balance Results
VO-SWMM » 3 Conceptual Model » 3.16 Hydrograph Results / Water Balance Results
The Hydrograph Results and Water Balance Results window is the same window which appears differently for single-event simulation and continuous simulation. By default, this window is at the bottom of the main interface. It’s used to show the summary results of each…
6.4.4 Simulation Results
Reference Guide » 6 Routing Options in Visual OTTHYMO » 6.4 Muskingum – Cunge Channel Routing » 6.4.4 Simulation Results
The channel routing in Visual OTTHYMO was tested using a natural channel, 5200 m long, main channel bed slope is 0.001, Manning’s n is 0.03, floodplain bed slope is 0.001, Manning’s n is 0.05, no lateral flow, the cross-section parameters are shown in the…
Object Parameters and Results
User’s Manual » Features » Object Parameters and Results
Users can view/edit parameters by two ways: Properties tab: By default, Properties tab is place on the right of VOSWMM main interface next to the Project Manager tab. Parameter tables. By default, Parameter Tables are placed at the bottom of VOSWMM main…
3.17 Water Quality Results
VO-SWMM » 3 Conceptual Model » 3.17 Water Quality Results
The Water Quality Results window is the same window appearing for single-event simulation and continuous simulation. By default, this window is at the bottom of the main interface. It’s used to show the water quality summary results of each hydrologic object. In…
Step 23: View Simulation Results
Tutorials » Dual-Drainage Model » Step 23: View Simulation Results
Select one object on the map. Navigate to the Simulation tab. Click the Plot Results button. Select Run in the drop-down lists of the Plot Results window and check on/off for the variables to be plotted. The Graph and the Statistics will be displayed accordingly. Click…
Step 4: Developed Site – Model Results
Post-Development Runoff (backup) » Step 4: Developed Site – Model Results
Hydrographs We can view the summary results in the Result Summary Tables in the same fashion as for the pre-development condition. Click the header of NHYD to sort the table by subcatchment NHYD. Pre- and Post-Development Comparison To compare hydrographs of pre-…
Step 8: Undeveloped Site – Model Results
Tutorials » Post-Development Runoff » Step 8: Undeveloped Site – Model Results
To plot the hydrograph, select the Outfall node O2. Click the Plot Results button in the Simulation tab. In the pop-up window, select the rain event for which you want to view the results from the Run drop-down list. Change Variables to Total Inflow. We can also…
Step 11: Developed Site – Model Results
Tutorials » Post-Development Runoff » Step 11: Developed Site – Model Results
Hydrographs We can view the summary results in the Result Summary Tables in the same fashion as for the pre-development condition. Select the run to view results in the Run dropdown list and click the header of NHYD to sort the table by subcatchment NHYD. Pre- and…
Step 13: View Simulation Summary Results
Tutorials » Quick Start Tutorial » Step 13: View Simulation Summary Results
The Hydraulic Result Tables list the summary results of all the objects. Click the Hydraulic Result Tables tab and then click Conduit (3) tab. In the drop-down list of Run in the Hydraulic Result Tables to choose the simulation run. *The number (3) in the Conduit (3)…
Step 14: View Simulation Detail Results
Tutorials » Quick Start Tutorial » Step 14: View Simulation Detail Results
Select objects on the map canvas, for example, the Conduit NHYD 8 and 12. Make sure you choose the simulation run in the drop-down list in the Output section under the Simulation tab. Then, click Plot Results under the Simulation tab. *If no object is selected, the…
7.1.1 Results for the Chicago Design Storm
Reference Guide » 7 Design Storms for Stormwater Management Studies » 7.1 Methodology of Design Storms » 7.1.1 Results for the Chicago Design Storm
J.F. McLarens Ltd. (1978) has conducted studies on catchments in Edmonton and Winnipeg. They found that the ratio of the Chicago storm peak flow to the flows from an historic storm series ranged between 1.0 and 1.2. It was recommended that the Chicago design storm be…
7.3 Results of Peak Flows from Design Storms and Historic Storm Events
Reference Guide » 7 Design Storms for Stormwater Management Studies » 7.3 Results of Peak Flows from Design Storms and Historic Storm Events
This section compares the peak flow results of design storms and measurement rainfall data for different types of watersheds.
Simulation
User’s Manual » Features » Tool Bar » Simulation
The Simulation tab includes tools mainly for setting up and running simulations, viewing and analyzing results, and managing database that will be used in the model. Simmulation Tab Icon Command Description Icon Command Description…
10.3 Calibration Files
VO-SWMM » 10 Visual OTTHYMO Files » 10.3 Calibration Files
The calibration files are used to import the observed time series data and compare to the simulation outputs. Two file formats are supported: 1) SWMM format and 2) simple CSV format. SWMM Format The SWMM calibration file format is supported. From SWMM user’s…
2.2 Loss Routine
Reference Guide » 2 Tips for Modeling Ungauged Urban Catchments » 2.2 Loss Routine
In both the United States and Canada, either the Horton’s Method (LOSS = 1) or the CN Method (LOSS = 2) are commonly used for urban catchments. The Proportional Loss Method (LOSS = 3) has been successfully used in France for urban catchments. While the selection of…
Automate Transect
User’s Manual » Features » Tool Bar » Micro-Drainage Tools » Automate Transect
The Automate Transect feature in VO SWMM is a tool designed to streamline the process of assigning cross-sections to conduits in your stormwater modeling projects. This manual will provide you with a clear understanding of what this feature is and how to use it…
Dual-Drainage Modeling Procedure
User’s Manual » Features » Tool Bar » Micro-Drainage Tools » Dual-Drainage Modeling Procedure
In the stormwater management system, on the one hand, the stormwater collection is often done via catch basin. Catch basins are used to catch overland flow and transport the water to underground sewer system. On the other hand, the overland inflow can also entre…
SWMM5 Data
User’s Manual » Features » Tool Bar » Simulation » Simulation – Data » SWMM5 Data
In the Data section of the Simulation tab, all data types like transect, curves and climatology etc are defined in the same way as SWMM5. Icon Function Icon Function Transects Curves Climatology …
Tool Bar
User’s Manual » Features » Tool Bar
Following lists are present at the top of the VOSWMM main interface. For a more detailed description of each Toolbar item, please click on each topic to navigate. File Home Simulation GIS Tools Micro-Drainage
Features
User’s Manual » Features
VO-SWMM not only utilizes Microsoft’s latest .Net Framework, 4.0 but also uses WPF (Windows Presentation Foundation) to enhance user experience through the graphical user interface. VH SWMM has new features that improve the efficiency of creating and simulating…
Result Summary Tables
User’s Manual » Features » Result Summary Tables
Result Summary Tables window provides a spreadsheet environment for showing/editing SWMM simulation result. By default, it’s located at the bottom of the main interface. It can be toggled on/off via Tool Bar > Home > Windows. Result Summary Tables will be reset…
4.3.2 Importing SWMM5
VO-SWMM » 4 Working Projects and Scenarios » 4.3 Importing Scenarios from Model Data Files » 4.3.2 Importing SWMM5
The catchment and channel systems in SWMM can be imported to VO. The subcatchments are converted to either NasHyd or StandHyd based on the imperviousness and the open channel is converted to RouteChannel. It is not recommended to import models with detailed sewer…
File Menu
User’s Manual » Features » Tool Bar » File Menu
Icon Command Description New Project Create a new project Open Project Opens an existing project. VO-SWMM allows to open a VO-SWMM project (.voprj) or a INP file (.inp) Save Project …
Editing a Group of Objects
User’s Manual » Features » Object Parameters and Results » Properties Tab » Editing a Group of Objects
There are several ways to select multiple objects: Select on Schematic/Map View Select on Parameter Tables Select on Result Summary Tables The common fields of those selected objects will be listed in Properties tab. On the top of Properties tab shows the number…
Simulation – Run and Options
User’s Manual » Features » Tool Bar » Simulation » Simulation – Run and Options
The tools in the Simulation section in Simulation toolbar are used to perform simulation run, set default parameters and set engine settings. Icon Function Run Default Values Engine Options…
Manhole Inflow and Infiltration Modeling
User’s Manual » Features » Tool Bar » Micro-Drainage Tools » Dual-Drainage Modeling Procedure » Manhole Inflow and Infiltration Modeling
As described in the Dual-Drainage Modeling Procedure, the inflow and infiltration entering the sewer via manhole can be modelled by outlet links’ rating curves. The first step of manhole inflow and infiltration (I&I) modeling to know which type of manholes are…
Transect Feature Tutorial
Tutorials » GIS Tools » Transect Feature Tutorial
In this tutorial, you will learn how to use the Automate Transect feature in VO SWMM to assign cross-sections to conduits using a DEM file and a cross-section layer. Follow these steps to successfully utilize this powerful tool: Prerequisites Before you begin, ensure…
9.2 Single-Event Simulation Outputs
VO-SWMM » 9 Working with Output » 9.2 Single-Event Simulation Outputs
This chapter introduces how to view and plot the simulation results of single-event model.
Step 7: Undeveloped Site – Set up Analysis Option and Run Simulation
Tutorials » Post-Development Runoff » Step 7: Undeveloped Site – Set up Analysis Option and Run Simulation
Table 1-3 (SWMM Application Manual, EPA, Sept. 2016) shows the analysis options used to run the model. The Flow Unit was set in Step 2: Create a New VOSWMM Project. The other analysis options in the table above can be set in Run Options and SWMM Options…
What’s VO Suite
User’s Manual » What’s VO Suite
VO Suite is one installer and platform that hosts two products: VO-OTTHYMO and VO-SWMM. Users can have access to one or both of them based on their choices of license. This manual will introduce VO-SWMM. For VO-OTTHYMO, please refer to the VO-OTTHYMO Manual and…
2.11 Viewing Continuous Simulation Outputs
VO-SWMM » 2 Quick Start Tutorial » 2.11 Viewing Continuous Simulation Outputs
The continuous simulation models the water balance in snowpack and active soil zone. All the water balance components are available as time-series data from the outputs. Similar to hydro-graph summary, these water balance components are also summarized to help get the…
Import and Export VOSWMM Models
User’s Manual » Features » Tool Bar » File Menu » Import and Export VOSWMM Models
INP files can be Imported into VO-SWMM and can also be Exported. Import INP Format Select File from main menu window -> Import -> Import SWMM Input File: File path of INP file to be imported into VO-SWMM Generate Layout for Schematic: Checking this will generate…
Model Setup
Practical Example of VOSWMM for Students » 1. Post-Development Runoff » Model Setup
Within VOSWMM, the capability to generate or import various scenarios exists. To proceed, navigate to the File tab and choose Import for Example1-Post. Afterward, integrate a background make necessary adjustments to command locations. Now, you possess both…
Properties Tab
User’s Manual » Features » Object Parameters and Results » Properties Tab
Properties window shows all properties of selected hydrologic object(s) or current scenario. To use Properties window: Select single hydrologic object in Map View or Schematic View to view and edit all properties of the object Select multiple hydrologic objects in…
Schematic and Map View
User’s Manual » Features » Schematic and Map View
Turn on/off Schematic VIew: The Schematic View in VO-SWMM project can be turned on/off in the Options of Home. Please follow the descriptions of Home for more details. To see the effect of Schematic View on/off selection, create a new or open a saved project, and the…
Micro-Drainage Tools
User’s Manual » Features » Tool Bar » Micro-Drainage Tools
Micro Drainage is a modeling methodology for analyzing surface and sewer drainage system performance using the best-available information. Micro Drainage analysis models the precipitation flowing from overland system into the minor system through catch basins acting…
9.3.2 Wetland Water Balance
VO-SWMM » 9 Working with Output » 9.3 Continuous Simulation Outputs » 9.3.2 Wetland Water Balance
The Wetland Water Balance output is best represented using the scenario comparison tool . This tool provides graphical results for the Wetland Water Balance command and allows users to plot results for multiple scenarios as a time series or water balance graph. It…
7.4 Conclusions
Reference Guide » 7 Design Storms for Stormwater Management Studies » 7.4 Conclusions
Simulations with the Chicago and SCS 24-hr design storms were compared with a series of real storms to determine if the flow frequency results they produce are reliable. The design storms and a historical storm series were tested on rural, urban and mixed land use…
Problem Statement
Practical Example of VOSWMM for Students » 2. Surface Drainage Hydraulics » Problem Statement
Figures 2-1 and 2-2 display the pre- and post-development SWMM model layouts from Example 1. In Figure 2-1, the pre-development region was depicted by a single subcatchment, sized according to a 500 ft overland flow limit. The post-development scenario (Figure 2-2)…
Summary
Post-Development Runoff (backup) » Summary
This example used SWMM to estimate the runoff response to different rain events for a 29 ac development that will be built in a natural area. Comparisons were made between the runoff peaks and total volume for each event for both pre- and post-developed conditions. The…
Step 1: Undeveloped Site – Model Setup
Post-Development Runoff (backup) » Step 1: Undeveloped Site – Model Setup
The SWMM model for the undeveloped site is depicted below. It consists of a single Subcatchment S1 whose runoff drains to Outfall node O2. Note that the undeveloped site contour map has been used as a backdrop image. The scenario name is undeveloped. Utilizing a…
Time Series
User’s Manual » Features » Tool Bar » Simulation » Simulation – Data » SWMM5 Data » Time Series
The Time Series Editor is used when creating or editing Time Series objects. Click the Time Series button to open the Time Series Editor window. Button Description Add one time-series dataset Delete selected time-series…
User’s Manual
User’s Manual
This manual provides introductions on VO-SWMM and the use of its basic functions and advanced tools.
D. Radar
VO-SWMM » D. Radar
This unique VO-SWMM feature is an improved way to generate the watershed surface. Ground corrected radar leverages the computational power. Rainfall radar and other distributed rainfall techniques are used for pre- and post-storm event forensic analysis and system…
4.3 Importing Scenarios from Model Data Files
VO-SWMM » 4 Working Projects and Scenarios » 4.3 Importing Scenarios from Model Data Files
A scenario can be created by importing from model data files. This is useful when 1) the model is in another model platform (e.g. SWMM) or in older VO data files and 2) there is need to integrate a scenario to current project.
Welcome
User’s Manual » Welcome
Welcome to VO Storm Water Management Model (VO-SWMM), the hydrologic & hydraulic model simulation software package. It is an effective hydrologic management software that has been developed for various analyses including Watershed Studies, Sub-watershed Studies, Master…
A. Seminars and Workshops
User’s Manual » VO-SWMM Support » A. Seminars and Workshops
Smart Water City Inc. hosts seminars and workshops that allow users the opportunity to learn the basics of VO-SWMM and use all its features to their full potential. Seminars and workshops are organized by need. You can find more information from our…
Practical Example of VOSWMM for Students
Practical Example of VOSWMM for Students
This tutorial revolves around using EPA SWMM resources to practically implement projects with VOSWMM. We’ll follow step-by-step guides based on the “Storm Water Management Model Applications Manual” by Jorge Gironás, Larry A. Roesner, and Jennifer…
Step 17: Export INP File
Tutorials » Quick Start Tutorial » Step 17: Export INP File
Click the File button on the left upper corner. Navigate to the Export and choose Export to SWMM INP File. In the pop-up window, choose the location where to put the INP file.
3. Detention Pond Design
Practical Example of VOSWMM for Students » 3. Detention Pond Design
Example 3 explains the process of creating, designing, and assessing a detention pond using SWMM. The detention pond, designed for water quality capture and peak flow control, employs storage components, orifices, and weirs. It models an urban catchment akin to…
GIS Tools
User’s Manual » Features » Tool Bar » GIS Tools
With VOSWMM, we are introducing TatukGIS that will be built into the program. No additional GIS license is required to use Tatuk Map. Users can now choose an ArcGIS or TatukGIS map from Home Tab Options. Note that an ArcGIS license is required to use the ArcGIS map. …
VOSWMM Main Interface
User’s Manual » Features » VOSWMM Main Interface
After installation, the initial interface is in VO. To switch to VOSWMM, click File drop-down list. In the New Project, select New SWMM Project. The VOSWMM main interface will show.
4. Low Impact Development
Practical Example of VOSWMM for Students » 4. Low Impact Development
This example shows how to model two Low Impact Development (LID), filter strips and infiltration trenches, within SWMM. Unlike the previous Example 3, which focused on large-scale detention ponds, these LIDs work on a smaller scale and rely on infiltration and…
5. Runoff Water Quality
Practical Example of VOSWMM for Students » 5. Runoff Water Quality
This example demonstrates simulating pollutant accumulation and washoff in an urban area, considering different land uses and using Event Mean Concentrations (EMCs) and exponential functions for washoff. Surface runoff quality is crucial yet complex in wet-weather flow…
Step 26: Save Project and Export INP File
Tutorials » Dual-Drainage Model » Step 26: Save Project and Export INP File
Click the Save Project button in the Home tab. Click the File button on the left upper corner. Navigate to the Export and choose Export to SWMM INP File. In the pop-up window, choose the location where to put the INP file.
Step 1: Open a Saved Project and Set Up Project
Tutorials » Modeling and Analysis of Manhole Inflow & Infiltration Using Dual-Drainage Method » Step 1: Open a Saved Project and Set Up Project
Open the project saved from the tutorial Dual-Drainage Model We will use the model of the tutorial Dual-Drainage Model. Click this link to download the model of the tutorial Dual-Drainage Model.. Open the downloaded project of by navigating to File -> Open Project. …
2. Surface Drainage Hydraulics
Practical Example of VOSWMM for Students » 2. Surface Drainage Hydraulics
While Example 1 demonstrated a hydrologic model for urban runoff, it didn’t include hydraulic routing. In Example 2, we’ll use SWMM’s hydraulic features to model a surface drainage system. We’ll add a conveyance network to the post-development…
New Chicago Design Storm
User’s Manual » Features » Tool Bar » Simulation » Simulation – Data » Resource Library » New Design Storm » New Chicago Design Storm
To add a new Chicago design storm, click the Chicago button. A default Chicago design storm will be added and shown in the main view with its Basic Information, parameters of A, B, C, and Time Series table and graph. The parameters of A, B, C can also be copied…
9.1 Overview of Output Features
VO-SWMM » 9 Working with Output » 9.1 Overview of Output Features
Different outputs are available for single-event simulation and continuous simulation. Hydrograph is the main output from single-event simulation. The hydrograph is for only one event covering a few hours or days. VO provides five (5) different ways to view the…
Step 2: Create a New VOSWMM Project
Tutorials » Quick Start Tutorial » Step 2: Create a New VOSWMM Project
Navigate to Home tab. Select New SWMM Project from the drop-down list of New Project button Turn off BaseMap by unchecking the box in the map layer table. *In this tutorial, we will create a virtual model, so we do not need to show the map. Click the…
Conversion of Modeling Objects
User’s Manual » Features » Tool Bar » File Menu » Import OTTHYMO to VOSWMM » Conversion of Modeling Objects
The modeling objects in OTTHYMO and VO-SWMM projects are different, although they share some similarities. The conversion of all the OTTHYMO objects is described for each of them. *Some assumptions are made to set parameters during the conversion. Users should check…
FAQ
FAQ
Q: Which files should I send for reporting a ticket? A: When reporting an issue, you can send an email to support@smartcitywater.ca by including the following information. Please denote your software version and build numbers. You can find them by clicking the…
Schematic View
User’s Manual » Features » Schematic and Map View » Schematic View
Schematic View is a model focused on the logic relationship of hydraulic objects, not their physical locations or appearance. It will demonstrate in a straightforward way about how those objects are connected with each other. Because of this unique characteristic, it…
Tool Box
User’s Manual » Features » Tool Box
By default, all available hydrologic objects are list in Tool Box on the left of VO-SWMM main interface. Adding objects on to Schematic View To add one hydrologic object on canvas in Schematic View, drag and drop it on canvas. Then it can be moved to any location. …
Step 2: Create a New VOSWMM Project and Change the Scenario Settings
Tutorials » Dual-Drainage Model » Step 2: Create a New VOSWMM Project and Change the Scenario Settings
Navigate to Home tab. Select New SWMM Project from the drop-down list of New Project button Click the Properties tab in Project Manager which by default is on the right side of the VOSWMM main interface. Change the Unit to CMS and the LinkOffset to Elevation. …
E. Capture Curves
VO-SWMM » E. Capture Curves
Emphasis is not only on peak flow reduction but also storm Water Quality Control (WQC). Urban stormwater management practices, therefore, include the designing of retention ponds, infiltration systems, wetlands, etc. Sizing these WQC basins are very important. Contrary…
Step 2: Create a New VOSWMM Project
Tutorials » Post-Development Runoff » Step 2: Create a New VOSWMM Project
Navigate to Home tab. Select New SWMM Project from the drop-down list of New Project button Right-click on the “Scenario1” under Drainage Network Scenarios in the Project Manager tab. In the context menu, choose Rename. The name of…
Manhole Inflow Analysis
User’s Manual » Features » Tool Bar » Simulation » Simulation – Analysis » Manhole Inflow Analysis
Click the Manhole Inflow Analysis button to open the tool window. Choose the desired Run in the drop-down list. Click Yes if users want to update the map automatically with the analysis index Submerged after the analysis is done. Please refer below about the meaning of…
GIS – Snapping
User’s Manual » Features » Tool Bar » GIS Tools » GIS – Snapping
VO-SWMM provides following snapping tools. Icon Command Icon Command Icon Command Icon Command Point Allows to snap to a point. EndPoint Allows to snap to the end point of polyline or polygon. (Available only in ArcGIS)…
Model Setup
Practical Example of VOSWMM for Students » 2. Surface Drainage Hydraulics » Model Setup
Figure 2-4 illustrates the layout of the runoff conveyance system intended for incorporation into the developed site. This system encompasses 7 grass swales, 3 culverts, and a single street gutter. The primary aim here is to assess discharges at the site’s…
Step 3: Undeveloped Site – Add Background Image
Tutorials » Post-Development Runoff » Step 3: Undeveloped Site – Add Background Image
To help facilitate the placement of drainage-system objects, SWMM can utilize an image as a backdrop behind a project’s study area map. This image is typically a site map of some kind with known dimensions. Any bitmap image file (BMP extension), JPEG image file (JPG…
C. Distributed Rainfall Modelling Technique
VO-SWMM » C. Distributed Rainfall Modelling Technique
Rainfall data, an essential element of stormwater management analyses, is recorded at and collected from rain gauges. The location of the rain gauge is therefore important. The closer the rain gauge is to the flow meter the better. However, this may not always be…
Problem Statement
Practical Example of VOSWMM for Students » 3. Detention Pond Design » Problem Statement
Example 1 developed a model for initial runoff on a 29-acre site. Additional models simulated post-development runoff, both with and without surface collection routing (Example 2), for 2-, 10-, and 100-year storms. Example 3 prompts designing a detention pond…
Step 9: Run Simulation
Tutorials » Dual-Drainage Model » Step 9: Run Simulation
In Simulation toolbar, click the Engine Options button. In the pop-up SWMM Engine window, click the Time Step tab. Set Reporting time step as 5 min. Click the Run button in the Simulation toolbar. In the pop-up Batch Run window, click the button to add a…