1729 Mini-Blogs for EPASWMM5, AutoDesk Innovyze ICM SWMM, SWMM5+

Tuesday, January 28, 2014

Snippet of 25 Water Quality Constituents for SWMM 5

This is for students of SWMM 5 who want to quickly have many water quality constituents in their model. You can copy and paste this snippet to your SWMM5.INP file and change the coverages sections to have 25 Pollutants with Buildup and Washoff Sections. I hope this helps you in your water quality modeling.

[POLLUTANTS]
;; Mass Rain GW I&I Decay Snow Co-Pollut. Co-Pollut. DWF
;;Name Units Concen. Concen. Concen. Coeff. Only Name Fraction Concen.
;;-------------- ------ ---------- ---------- ---------- ---------- ----- ---------------- ---------- ----------
AmmonicalNitrogenNH3-N MG/L 1 0 0 0 NO * 0 0
BiochemicalOxygenDemand(BOD) MG/L 1 0 0 0 NO * 0 0
CalciumHardness MG/L 1 0 0 0 NO * 0 0
ChemicaOxygenDemandCOD MG/L 1 0 0 0 NO * 0 0
ChorideasCL MG/L 1 0 0 0 NO * 0 0
Colour uG/L 1 0 0 0 NO * 0 0
Conductivity MG/L 1 0 0 0 NO * 0 0
DissolvedPhosporus mg/l 1 0 0 0 NO * 0 0
FecalColiform UG/L 1 0 0 0 NO * 0 0
FlavourThresholdTest uG/L 1 0 0 0 NO * 0 0
MagnesiumHardness MG/L 1 0 0 0 NO * 0 0
Odor uG/L 1 0 0 0 NO * 0 0
Oil&Grease MG/L 1 0 0 0 NO * 0 0
pH MG/L 1 0 0 0 NO * 0 0
Sulfide MG/L 1 0 0 0 NO * 0 0
TotalColiform #/L 1 0 0 0 NO * 0 0
TotalDissolvedSolids MG/L 1 0 0 0 NO * 0 0
TotalHardness MG/L 1 0 0 0 NO * 0 0
TotalNitrogen mg/l 1 0 0 0 NO * 0 0
TotalPhosporus MG/L 1 0 0 0 NO * 0 0
TotalSolids MG/L 1 0 0 0 NO * 0 0
TotalSuspendedSolids(TSS) MG/L 1 0 0 0 NO * 0 0
Turbidity MG/L 1 0 0 0 NO * 0 0

[LANDUSES]
;; Cleaning Fraction Last
;;Name Interval Available Cleaned
;;-------------- ---------- ---------- ----------
Residential 1 0 0
Commercial 1 0 0
MixedUse 1 0 0

[COVERAGES]
;;Subcatchment Land Use Percent
;;-------------- ---------------- ----------
Thaltej Residential 39.23
Thaltej Commercial 3.23
Thaltej MixedUse 9.35
Bodakdev Residential 29.29
Bodakdev Commercial 6.88
Bodakdev MixedUse 5.67
Memnagar Residential 53.77
Memnagar Commercial 1.99
Memnagar MixedUse 18.41
Vastrapur Residential 49.85
Vastrapur Commercial 5.51
Vastrapur MixedUse 13.2
Prahladnagar Residential 42.92
Prahladnagar Commercial 4.96
Prahladnagar MixedUse 15.7
Makarba Residential 26.66
Makarba Commercial 1.61
Makarba MixedUse 8.7

[LOADINGS]
;;Subcatchment Pollutant Loading
;;-------------- ---------------- ----------

[BUILDUP]
;;LandUse Pollutant Function Coeff1 Coeff2 Coeff3 Normalizer
;;-------------- ---------------- ---------- ---------- ---------- ---------- ----------
Residential Colour NONE 0.15 0.5 0 AREA
Residential Odor NONE 0.15 0.5 0 AREA
Residential FlavourThresholdTest NONE 0.15 0.5 0 AREA
Residential Conductivity NONE 0.15 0.5 0 AREA
Residential TotalSolids NONE 0.15 0.5 0 AREA
Residential TotalDissolvedSolids NONE 0.15 0.5 0 AREA
Residential TotalSuspendedSolids(TSS) NONE 0.15 0.5 0 AREA
Residential ChorideasCL NONE 0.15 0.5 0 AREA
Residential Oil&Grease NONE 0.15 0.5 0 AREA
Residential
Residential TotalHardness NONE 0.15 0.5 0 AREA
Residential CalciumHardness NONE 0.15 0.5 0 AREA
Residential MagnesiumHardness NONE 0.15 0.5 0 AREA
Residential Sulfide NONE 0.15 0.5 0 AREA
Residential pH NONE 0.15 0.5 0 AREA
Residential AmmonicalNitrogenNH3-N NONE 0.15 0.5 0 AREA
Residential ChemicaOxygenDemandCOD NONE 0.15 0.5 0 AREA
Residential BiochemicalOxygenDemand(BOD) NONE 0.15 0.5 0 AREA
Residential TotalColiform NONE 0.15 0.5 0 AREA
Residential FecalColiform NONE 0.15 0.5 0 AREA
Residential TotalPhosporus NONE 0.15 0.5 0 AREA
Residential DissolvedPhosporus NONE 0.15 0.5 0 AREA
Residential TotalNitrogen NONE 0.15 0.5 0 AREA
Commercial Colour NONE 0.15 0.5 0 AREA
Commercial Odor NONE 0.15 0.5 0 AREA
Commercial FlavourThresholdTest NONE 0.15 0.5 0 AREA
Commercial Conductivity NONE 0.15 0.5 0 AREA
Commercial TotalSolids NONE 0.15 0.5 0 AREA
Commercial TotalDissolvedSolids NONE 0.15 0.5 0 AREA
Commercial TotalSuspendedSolids(TSS) NONE 0.15 0.5 0 AREA
Commercial ChorideasCL NONE 0.15 0.5 0 AREA
Commercial Oil&Grease NONE 0.15 0.5 0 AREA
Commercial
Commercial TotalHardness NONE 0.15 0.5 0 AREA
Commercial CalciumHardness NONE 0.15 0.5 0 AREA
Commercial MagnesiumHardness NONE 0.15 0.5 0 AREA
Commercial Sulfide NONE 0.15 0.5 0 AREA
Commercial pH NONE 0.15 0.5 0 AREA
Commercial AmmonicalNitrogenNH3-N NONE 0.15 0.5 0 AREA
Commercial ChemicaOxygenDemandCOD NONE 0.15 0.5 0 AREA
Commercial BiochemicalOxygenDemand(BOD) NONE 0.15 0.5 0 AREA
Commercial TotalColiform NONE 0.15 0.5 0 AREA
Commercial FecalColiform NONE 0.15 0.5 0 AREA
Commercial TotalPhosporus NONE 0.15 0.5 0 AREA
Commercial DissolvedPhosporus NONE 0.15 0.5 0 AREA
Commercial TotalNitrogen NONE 0.15 0.5 0 AREA
MixedUse Colour NONE 0.15 0.5 0 AREA
MixedUse Odor NONE 0.15 0.5 0 AREA
MixedUse FlavourThresholdTest NONE 0.15 0.5 0 AREA
MixedUse Conductivity NONE 0.15 0.5 0 AREA
MixedUse TotalSolids NONE 0.15 0.5 0 AREA
MixedUse TotalDissolvedSolids NONE 0.15 0.5 0 AREA
MixedUse TotalSuspendedSolids(TSS) NONE 0.15 0.5 0 AREA
MixedUse ChorideasCL NONE 0.15 0.5 0 AREA
MixedUse Oil&Grease NONE 0.15 0.5 0 AREA
MixedUse
MixedUse TotalHardness NONE 0.15 0.5 0 AREA
MixedUse CalciumHardness NONE 0.15 0.5 0 AREA
MixedUse MagnesiumHardness NONE 0.15 0.5 0 AREA
MixedUse Sulfide NONE 0.15 0.5 0 AREA
MixedUse pH NONE 0.15 0.5 0 AREA
MixedUse AmmonicalNitrogenNH3-N NONE 0.15 0.5 0 AREA
MixedUse ChemicaOxygenDemandCOD NONE 0.15 0.5 0 AREA
MixedUse BiochemicalOxygenDemand(BOD) NONE 0.15 0.5 0 AREA
MixedUse TotalColiform NONE 0.15 0.5 0 AREA
MixedUse FecalColiform NONE 0.15 0.5 0 AREA
MixedUse TotalPhosporus NONE 0.15 0.5 0 AREA
MixedUse DissolvedPhosporus NONE 0.15 0.5 0 AREA
MixedUse TotalNitrogen NONE 0.15 0.5 0 AREA

[WASHOFF]
;; Cleaning BMP
;;Land Use Pollutant Function Coeff1 Coeff2 Effic. Effic.
;;-------------- ---------------- ---------- ---------- ---------- ---------- ----------
Residential Colour EMC 1 0 0 0
Residential Odor EMC 1 0 0 0
Residential FlavourThresholdTest EMC 1 0 0 0
Residential Conductivity EMC 1 0 0 0
Residential TotalSolids EMC 1 0 0 0
Residential TotalDissolvedSolids EMC 1 0 0 0
Residential TotalSuspendedSolids(TSS) EMC 1 0 0 0
Residential ChorideasCL EMC 1 0 0 0
Residential Oil&Grease EMC 1 0 0 0
Residential
Residential TotalHardness EMC 1 0 0 0
Residential CalciumHardness EMC 1 0 0 0
Residential MagnesiumHardness EMC 1 0 0 0
Residential Sulfide EMC 1 0 0 0
Residential pH EMC 1 0 0 0
Residential AmmonicalNitrogenNH3-N EMC 1 0 0 0
Residential ChemicaOxygenDemandCOD EMC 1 0 0 0
Residential BiochemicalOxygenDemand(BOD) EMC 1 0 0 0
Residential TotalColiform EMC 1 0 0 0
Residential FecalColiform EMC 1 0 0 0
Residential TotalPhosporus EMC 1 0 0 0
Residential DissolvedPhosporus EMC 1 0 0 0
Residential TotalNitrogen EMC 1 0 0 0
Commercial Colour EMC 1 0 0 0
Commercial Odor EMC 1 0 0 0
Commercial FlavourThresholdTest EMC 1 0 0 0
Commercial Conductivity EMC 1 0 0 0
Commercial TotalSolids EMC 1 0 0 0
Commercial TotalDissolvedSolids EMC 1 0 0 0
Commercial TotalSuspendedSolids(TSS) EMC 1 0 0 0
Commercial ChorideasCL EMC 1 0 0 0
Commercial Oil&Grease EMC 1 0 0 0
Commercial
Commercial TotalHardness EMC 1 0 0 0
Commercial CalciumHardness EMC 1 0 0 0
Commercial MagnesiumHardness EMC 1 0 0 0
Commercial Sulfide EMC 1 0 0 0
Commercial pH EMC 1 0 0 0
Commercial AmmonicalNitrogenNH3-N EMC 1 0 0 0
Commercial ChemicaOxygenDemandCOD EMC 1 0 0 0
Commercial BiochemicalOxygenDemand(BOD) EMC 1 0 0 0
Commercial TotalColiform EMC 1 0 0 0
Commercial FecalColiform EMC 1 0 0 0
Commercial TotalPhosporus EMC 1 0 0 0
Commercial DissolvedPhosporus EMC 1 0 0 0
Commercial TotalNitrogen EMC 1 0 0 0
MixedUse Colour EMC 1 0 0 0
MixedUse Odor EMC 1 0 0 0
MixedUse FlavourThresholdTest EMC 1 0 0 0
MixedUse Conductivity EMC 1 0 0 0
MixedUse TotalSolids EMC 1 0 0 0
MixedUse TotalDissolvedSolids EMC 1 0 0 0
MixedUse TotalSuspendedSolids(TSS) EMC 1 0 0 0
MixedUse ChorideasCL EMC 1 0 0 0
MixedUse Oil&Grease EMC 1 0 0 0
MixedUse
MixedUse TotalHardness EMC 1 0 0 0
MixedUse CalciumHardness EMC 1 0 0 0
MixedUse MagnesiumHardness EMC 1 0 0 0
MixedUse Sulfide EMC 1 0 0 0
MixedUse pH EMC 1 0 0 0
MixedUse AmmonicalNitrogenNH3-N EMC 1 0 0 0
MixedUse ChemicaOxygenDemandCOD EMC 1 0 0 0
MixedUse BiochemicalOxygenDemand(BOD) EMC 1 0 0 0
MixedUse TotalColiform EMC 1 0 0 0
MixedUse FecalColiform EMC 1 0 0 0
MixedUse TotalPhosporus EMC 1 0 0 0
MixedUse DissolvedPhosporus EMC 1 0 0 0
MixedUse TotalNitrogen EMC 1 0 0 0

Sunday, January 26, 2014

How InfoSewer and InfoSWMM are Extensions in Arc Map with Add On Extensions with Applications

How InfoSewer and InfoSWMM are Extensions in Arc Map with Add On Extensions with Applications

A Possible Arc Map Extensions
B Possible InfoSWMM Add On Extensions to the basic Arc Map Program
C Applications such as InfoSWMM 2D, RDII Analyst and Risk Assessment Manager that work alongside of InfoSWMM or InfoSewer

How InfoSewer and InfoSWMM are Extensions in Arc Map with Add On Extensions with Applications

Return Periods Using The SWMM 5 Statistics Tool

Return Periods Using The SWMM 5 Statistics Tool

A great feature in SWMM 5 is the Statistics tool which allows you compute the long term statistics for 10, 25, 50, 100, 500 or 1000 years (and probably longer). You run the simulation, pick a parameter to analyze then compute the:
A. Return Period of all of the Events,
B. Based on the Overall Time Series of Results, and
C. The Frequency Graph of the Found Events.

The Return Period is normally the Simulation Length + 1, For example, a 100 year simulation has a return period of 101 years. Or in terms of the SWMM 5 Delphi Code

K := E^.Rank;
R := (Results.Duration + 1 - 2*Stats.PlotParameter)/(K - Stats.PlotParameter);

where the PlotParameter is normally zero so the value for R ends up being

R := (Results.Duration + 1 )/(K);

Return Periods in SWMM 5 Statistics

Saturday, January 25, 2014

New Box Folder containing the SWMM 4 Fortran Files from 2004

The SWMM4 Fortran Connection to the EPA Water Quality Program WASP

The SWMM4 Fortran Connection to the EPA Water Quality Program WASP for future developers and those who want to connect SWMM5 to WASP

For @mmjay27 from @PCSWMM All models are wrong, so honest modellers report their uncertainty first and foremost

For @mmjay27 and @PCSWMM All models are wrong, so honest modellers report their uncertainty first and foremost http://t.co/RWOVgJSojK
— RDickinson (@RDickinson) January 25, 2014

Did you ever wonder how to Twitter efficiently? Use a twitter name and a keyword to find the tweets

Did you ever wonder how to Twitter efficiently? Use a twitter name and a keyword to find the tweets http://t.co/gb7Pbqo1l7
— RDickinson (@RDickinson) January 25, 2014

Thursday, January 23, 2014

The Life-Cycle of a Single Water Drop, in a Pop-Up Book Animated in Stop-Motion

From Maria Popova

The Life-Cycle of a Single Water Drop, in a Pop-Up Book Animated in Stop-Motion

by Maria Popova

Nature’s rhythms in masterful paper engineering.

Given my soft spot for pop-up books, I was instantly taken with this collaboration between paper engineer extraordinaire Helen Friel (who brought us those amazing 3D paper sculptures of Euclid’s elements), photographerChris Turner, and animator Jess Deacon, visualizing the life-cycle of a single drop of water as a pop-up book animated in stop-motion, nearly a year in the making:

Sunday, January 19, 2014

How to Diagnose a SWMLive Model using InfoSWMM

How to Diagnose a SWMLive Model using InfoSWMM http://t.co/ijMCU0SMdf from @Innovyze
— RDickinson (@RDickinson) January 19, 2014

Introduction to Running SWMMLive from @Innovyze

Introduction to Running SWMMLive from @Innovyze

A new product from Innovyze is SWMMLive which combines our InfoSWMM or H2OMap SWMM engine with the power and features of ICMLive and the ICM Interface. This will be a continuation of my blogs on SWMMLive and for this blog we will discuss the basics of getting an InfoSWMM model to run in SWMMLive. The 1^st step is to use the Add On extension in InfoSWMM and H2OMap SWMM from the tools menu (Figure 1). This will start the SWMMLive Manager where you can export your InfoSWMM or H2OMap SWMM model to SWMMlive (which is a different Innovyze product) and Diagnose the SWMMLive Model if needed (Figure 2). Once you have exported the InfoSWMM model then you can import the model to SWMMLive as the network in the Live Group of your Master Group (Bullet 1 in Figure 3). You run the model using the ICM like Run Manager but using the InfoSWMM engine (currently based on SWMM 5.0.022) as you can see in Bullet 2 of Figure 3. You can run multiple scenarios in a run (Bullet 3 in Figure 3) along with many of the ICMLive features such as Ground Tin's, Queries, Spatial Databases and Selection lists (Bullet 4 in Figure 3). Once you run the model you can use the ICM tools to select (Bullet 5), Select (Bullet 6) and View the Graphs or Grid Views (Bullet 7). In the next blogs we will show how to set up Alerts and Other More Advanced Features.

Figure 1 SWMMLIve is an Add On Extension to H2OMap SWMM and InfoSWMM

Figure 2. In InfoSWMM and H2oMap SWMM you export a file to SWMMLIVE using the SWMMLive Manager

Figure 3. An Introduction to Running SWMMLive

How SWMM5 uses zero Subcatchment Slope in its Runoff Calculations

This is just a note on how SWMM5 uses zero Subcatchment Slope in its Runoff Calculations:

1. If the slope is zero then the engine will NOT calculate Runoff as the WCON parameter is zero (Bullet 4 in Figure 1)

2. If you do want Runoff from all of your Subcatchments then you need to check the slope value in your Hydrology by doing a data query (Bullet 2 in Figure 2)

3. If you want to use the zero slope as a facility manager in your models then you can use a zero slope and have no Runoff. it is a way to deactivate a portion or section of your model.

Figure 1. How SWMM5 Uses Zero Subcatchment Slope

Saturday, January 18, 2014

Graphical and Database Tools for Checking your InfoSWMM, H2OMap SWMM and SWMM 5 Models

If you are running a large InfoSWMM, H2OMap SWMM or SWMM 5 model is it often hard to see all of the details for the Runoff Hydrology at one glance. A few quick checks on the overall balance sometimes help speed up the model greatly for new runs:

1. Check the Overall Runoff Balance (Bullet 1 in Figure 1)
2. Check the overall Hydraulic Balance (Bullet 2 in Figure 1)
3. Check the average time step (Bullet 3 in Figure 1). If the average time step is much less than the Maximum time step the Maximum time step should be reduced in the next run.
4. Do have pervious infiltration in every Subcatchment? (Bullet 4 in Figure 1)
5. The Min, Mean and Max Infiltration Rate can be found with the DB Statistics Tool.
6. A Scatter Plot of Runoff Coefficient versus Infiltration for all the Subcatchments to show any outlying Subcatchments - this can show an improper setup for the Infiltration in InfoSWMM DB Table (Figure 2).

Figure 1. Mass Balance Items to Check in the InfoSWMM or H2OMap SWMM Output Run Manager

Figure 2. A Scatter Plot of Runoff Coefficient versus Infiltration can also Show Outlying Subcatchments

A few suggestions for InfoSWMM RAM if a DEM is Not Acceptable to Arc Map

A few suggestions for InfoSWMM RAM if you get an Arc Map Error Message:

1.       The Elevation TIM or DEM you were using seemed problematic based on the Arc Map Error message (I searched the ESRI database and could not see any easy remedy)
2.      You can make a Contour from the Rim Elevations of your InfoSWMM model
3.      The contours will cover the outline of the nodes and junctions
4.      Convert the Contour to a DEM using the Arc Map Toolbox or the InfoSWMM Subcatchment Manger Convert Tools
5.      Use InfoSWMM Ram to create a flood map
6.      Use the Created DEM (Elevation1) and use the option Based on Maximum Head
7.      A Flood Map shape file will be created
8.     It will overlay the node and link layers of InfoSWMM
9.      The bullet points in this list correspond to the Bullet points in Figure 1

Figure 1: Using InfoSWMM Risk Assessment Manager

Thursday, January 16, 2014

How an Inflow Time Series is Used in ICM compared to SWMM5 using H2OMap SWMM and InfoSWMM

How an Inflow Time Series is Used in ICM compared to SWMM5 using H2OMap SWMM and InfoSWMM. The main points are illustrated by blue bullet points in Figure 1. ICM and SWMM 5 both use time series but in SWMM 5 one time series can be applied to multiple nodes.

1. Inflow Time Series Name uses a CSV file
2. The CSV file has time rows, flows for the number of nodes with inflow and column headers with the names of the nodes,
3. InfoSWMM, H2OMap SWMM and SWMM 5 have a user defined time series at loading nodes in the Inflow Icon,
4. A time series is used as the source of flow and the time series can be the same for multiple nodes.

Figure 1. Inflow Time Series in ICM and SWMM5

Wednesday, January 15, 2014

How the 14 InfoSWMM 2D polygons work in Arc Map

@Innovyze How the 14 InfoSWMM 2D polygons work in Arc Map http://t.co/ZHgqYVmGYf
— RDickinson (@RDickinson) January 16, 2014

Sunday, January 12, 2014

How to Create a Geodatabase in InfoWater, InfoSWMM or InfoSewer and InfoSWMM Data Sharing Ideas

How to Create a Geodatabase in InfoWater, InfoSWMM or InfoSewer (Figure 1) and Ideas for Data Sharing for InfoSWMM or InfoSewer (Figure 2)

How to Create a Geodatabase in InfoWater, InfoSWMM or InfoSewer

Data Sharing Ideas for InfoSWMM and InfoSewer

SCS Hydrology In InfoSWMM and H2OMap SWMM Initial Abstraction Values

If you are using one of the SCS Options in InfoSWMM and H2OMap SWMM (Bullet 1 in Figure 1) then you should:
1. The CN, Time of Concentration and an optional Initial Abstraction in the Subcatchment DB Table (Bullet 2)
2. If the Initial Abstraction is zero then the default SCS Storage Equation or S = 0.2 (1000/CN - 10)
3. The losses from the Subcatchment occur the start and during the simulation (Bullet 3) and the Runoff is delayed compared to the Rainfall.
4. If you do not want to use S = 0.2 (1000/CN - 10) then a positive value based on alternatives such as S = 0.1 (1000/CN - 10) or S = 0.05 (1000/CN - 10)

Figure 1. SCS Hydrology In InfoSWMM and H2OMap SWMM

Saturday, January 11, 2014

Dummy Outfall for Dynamic Wave Models converted from Kinematic Wave Models in SWMM 5

If you are using Kinematic Wave Routing in SWMM 5 you can switch to Dynamic Wave if you have any issues with a continuity error. There is on potential issue, however, as you need to have an outfall in your dynamic wave model. You can get around this issue by adding a dummy isolated outfall but it would be better to have an actual outfall.

Adding a Dummy Outfall in SWMM 5

Additional SWMM4 and SWMM5 files on Box

What is the Blog about? It describes the background of some files uploaded to Box from the history of SWMM 4 and SWMM 5. I have uploaded many more additional files to the Box site for SWMM 5 https://app.box.com/files These files are the files we used to test SWMM 4 in the late 1980's and also that we imported into SWMM 5 for SWMM 5 Testing between 2003 and 2005. There are over 500 files so some of them might be in the beta version of SWMM 5 but hopefully someone in the future can use these for their various projects or a future SWMM 6 or just to learn from small examples of SWMM 5 files.

Folder Names on Box

Sunday, January 5, 2014

Box SWMM 5 Related Files

Thursday, January 2, 2014

From 3QD - WATER RISK AS WORLD WARMS

WATER RISK AS WORLD WARMS

Quirin Schiermeier in Nature:

When pondering the best way to study the impact of climate change, researcher Hans Joachim Schellnhuber liked to recall an old Hindu fable. Six men, all blind but thirsty for knowledge, examine an elephant. One fumbles the pachyderm’s sturdy side, while others grasp at its tusk, trunk, knee, ear or tail. In the end, all are completely misled as to the nature of the beast.

The analogy worked. Although many researchers had modelled various aspects of the global-warming elephant, there had been no comprehensive assessment of what warming will really mean for human societies and vital natural resources. But that changed last year when Schellnhuber, director of the Potsdam Institute for Climate Impact Research in Germany, and other leading climate-impact researchers launched the Inter-Sectoral Impact Model Intercomparison Project. This aims to produce a set of harmonized global-impact reports based on the same set of climate data, which will for the first time allow models to be directly compared. Last month it published its initial results in four reports in Proceedings of the National Academy of Sciences^1–4. These suggest that even modest climate change might drastically affect the living conditions of billions of people, whether through water scarcity, crop shortages or extremes of weather. The group warns that water is the biggest worry. If the world warms by just 2 °C above the present level, which now seems all but unavoidable by 2100, up to one-fifth of the global population could suffer severe shortages.

More here.
- See more at: http://www.3quarksdaily.com/#sthash.OdCTZwaq.dpuf

RDII Components at a node for a 100 year simulation in SWMM 5

Introduction: This set of blogs uses the 1000 year rainfall/runoff/hydraulics model that you can download at http://swmm2000.com/forum/topics/1000-year-simulation-with-rainfall-in-swmm-5 to show the inner workings of SWMM 5 and by extension InfoSWMM and H2oMap SWMM using a QA/QC version of SWMM 5 with extended graphics. I always hope that seeing the inner workings of a SWMM 5 feature helps to understand the code, sensitivity and importance of a parameter. It also helps show sometimes when a parameter is not important. In this example, we show some of the internal working of the RDII estimation for SWMM5.

Discussion: There are nine main parameters for estimating RDII in SWMM 5:

1.       Slow response or R1, T1 and K1
2.      Medium response R2, T2 and K2
3.      Fast Response or R3, T3 and K3
4.      The RDII flow is associated with a Node in SWMM 5 (Figure 1)
5.      The RDII flow is composed of three separate time series generated from the slow, medium and fast R, T and K values (Figure 2)
6.      If you look at the total number of RDII events for the 100 years, the number of events goes down based on the value of the Time Base of the UH or T*K (also Figure 2)

Figure 1. RDII at a node for a 100 year simulation in SWMM 5

Figure 2. RDII Component Events over the 100 year period using the SWMM 5 statistics block

Wednesday, January 1, 2014

My Twiiter Video as Of 2013/2014

Hey @boonsri, @Innovyze, @ArenMatta, you were my golden followers in #2013! See the video: https://t.co/7wyJMN14Ok #Vizify
— RDickinson (@RDickinson) January 1, 2014

@Innovze has RDII Flow at the Subcatchment Level in ICM and IWCS and at the node level in InfoSWMM and H2OMap SWMM.

Lateral Inflow In InfoSWMM and SWMM5 consists of Runoff, DWF, Inflow and RDII Flow pic.twitter.com/QHqwo6Fs2K
— RDickinson (@RDickinson) January 1, 2014

Sunday, December 29, 2013

The total losses include both evaporation and infiltration for a 100 Year SWMM 5 Simulation

Introduction: This set of blogs uses the 1000 year rainfall/runoff/hydraulics model that you can download at http://swmm2000.com/forum/topics/1000-year-simulation-with-rainfall-in-swmm-5 to show the inner workings of SWMM 5 and by extension InfoSWMM and H2oMap SWMM using a QA/QC version of SWMM 5 with extended graphics. I always hope that seeing the inner workings of a SWMM 5 feature helps to understand the code, sensitivity and importance of a parameter. It also helps show sometimes when a parameter is not important. In this example, the components of the total losses in SWMM 5 which are the infiltration from the pervious area and the evaporation from the impervious and pervious area are shown (Figure 1)

Discussion: The total losses (Figure 1) are:

1.       The infiltration only losses from the pervious area,
2.      Evaporation losses from the pervious and impervious area weighted by areal coverage
3.      The total losses which are the sum of the evaporation plus infiltration losses

a. In a continuous simulation the times of infiltration only loss is less than the total losses due to the times when evaporation only is occurring from the depression storage of the Subcatchment

b. The Statistics assume an inter-event time of 0 hours to capture all of the one hour saved time increments

Figure 1. The total losses include both evaporation and infiltration for a 100 Year SWMM 5 Simulation

SWMM456.COM

SWMM456.COM (previously known as SWMM5.NET) is a mini-blog that provides short and concise articles about various topics related to Stormwater Management Model (SWMM). Each post on the blog is no more than 150-200 words (about 1300 characters) in length and aims to deliver instant information, opinion, or introduction on a specific topic related to SWMM. The blog covers a wide range of topics, including tips and tricks for using SWMM, case studies, software updates, and news related to the field of stormwater management. The goal of the blog is to provide useful and relevant information to SWMM users and professionals in the stormwater management industry in a quick and easy-to-digest format.

Information

You can see recent Posts in the Recent Post Section, Top Labels, Older Alphabetical Labels and Dated Archives. You can also search for Tags in the Google Search Box or the Custom Search Box. The above Tabs in the Menu are those sites and blogs that I think can help you. Pleasse send any further questions to robert.dickinson@gmail.com or robert.dickinson@innovyze.com if you have further questions or ideas. If you are a student and you want a general introduction to SWMM 5 please visit Wikipedia or the EPA Tab. Thanks for visiting!

Best New Blog: http://blog.innovyze.com/2014/11/30/advanced-calibration-graphs-and-advanced-reference-graphical-comparisons-in-infoswmm-13/ The Current InfoSWMM Version is InfoSWMM v14 which is based on EPA SWMM 5.1.010 You can read about SWMM5 on Wikipedia and InfoSWMM vs SWMM 5 on this blog post. An advantage of updating to the newer version of Info/Map/SWMM/Sewer is a newly designed help file with many more FAQ’s and the User Guide as part of the help file. You can use the Google translate tool at the top of the right hand side to translate any and all blog posts.