SWMM56

Subject:    How to Make a Smaller Model out of a Large Model in InfoSWMM InfoSWMM and H2OMAP SWMM will export only those ACTIVE elements to SWMM 5 as defined by the Facility Manager.  You can use the feature to make smaller SWMM 5 models and then reimport the exported smaller SWMM 5 model back into a H2OMAP SWMM or InfoSWMM scenario.

Note:    Maximum Surcharge Height Over Crown Explanation Here is an example of how the Maximum Surcharge Height over the Node Crown is calculated.     Consider a manhole with an invert of 10 feet,  one incoming pipe (Pipe A), one outgoing pipe (Pipe B), both pipes with a diameter of 2 feet, but the invert  of Pipe A is 10 feet and the invert of Pipe B is 11 feet.  What is the Maximum Surcharge height if the HGL at the node is 17 feet?                                                                                 HGL at Node ---- 17 feet                                                                                  Maximum Surcharge Height Over Crown is 4 feet                                                                                                                                                                           Node Crown --- 13 feet          Pipe B Crown --- 13 feet                                      Pipe A Crown --- 12 feet                                        

Subject:    The Importance of Viewing Results at the Proper Time Scale In SWMM 5 when you are simulating rapidly changing flow – such as pump flows – it is important to  remember that you are only seeing the results of the simulation at your selected report time step.  Here is an example model with the same number of pump starts for all three simulations (318), the same  average time step during the simulation (10 seconds) but different report time steps.  The conception of the pump starts is totally different visually depending on the selected report time steps.  You should always compare the starts using the pump graphs and the pump summary table.    The percent utilized and the number of pump start ups tells you  the mean pump start length or in this case 153 seconds or 45.1 percent of 30 hours divided by 318 pump starts. The Importance of Viewing Results at the Proper Time Scale in SWMM5 and InfoSWMM Models by  dickinsonre Subject:    The Importance of Viewing Resu lts at the Prope

Subject:   An Example of the Importance of the Term DQ4 in the SWMM 5 St Venant Solution An Example of the Importance of the Term DQ4 in the SWMM 5 St Venant Solution by  dickinsonre Subject:    An Example of the Importance of the Term DQ4 in the SWMM 5 St Venant Solution The four terms are are used in the new flow for a time step of Qnew: Qnew  = (Qold – dq2 + dq3 + dq4) / ( 1 + dq1) when the force main or gravity main is full dq3 and dq4 are zero and   Qnew  = (Qold – dq2) / ( 1 + dq1) The  dq4  term in dynamic.c uses the area upstream ( a1 ) and area downstream ( a2 ), the midpoint velocity, the sigma factor (a function of the link Froude number), the link length and the time step or dq4  = Time Step * Velocity * Velocity * (a2 – a1) / Link Length * Sigma where Sigma is a function of the Froude Number and the Keep, Dampen and Ignore Inertial Term Options.  Keep sets Sigma to 1 always and Dampen set Sigma based on the Froude number, Ignore sets Sigma to 0 all  of the time during the

Subject:   Use the SWMM 5 Scatter Graph to show the Pump Curve used during the Simulation Use the SWMM 5 Scatter Graph to show the Pump Curve used during the Simulation by  dickinsonre Subject:   Use the SWMM 5 Scatter Graph to show the Pump Curve used during the Simulation   You can use a scatter graph to show the relationship between the pump during the simulation and the Storage Depth.   If the pump is on the curve based on the pump summary table then the scatter graph should  look like the pump curve.  The pump summary table in the  SWMM 5 RPT also shows you the time off the pump curve low and high.   via Blogger  http://www.swmm5.net/2013/08/ use-swmm-5-scatter-graph-to- show-pump.html

Thanks to Plants, We Will Never Find a Planet Like Earth Earth's flora is responsible for the glaciers and rivers that have created this planet's distinctive landscape Perhaps even more surprisingly, vascular plants formed the kinds of rivers we see around us today, according to  another article  by  Martin Gibling  of Dalhousie University in Nova Scotia and Neil Davies of the University of Ghent in Belgium, who analyzed sediment deposition going back hundreds of millions of years. Before the era of plants, water ran over Earth's landmasses in broad sheets, with no defined courses. Only when enough vegetation grew to break down rock into minerals and mud, and then hold that mud in place, did river banks form and begin to channel the water. The channeling led to periodic flooding that deposited sediment over broad areas, building up rich soil. The soil allowed trees to take root. Their woody debris fell into the rivers, creating logjams that rapidly created new channels and

Subject:   How to Import the SWMM 5 Report File as a Layer in InfoSWMM How to Import the SWMM 5 Report File as a Layer in infoSWMM by  dickinsonre Subject:     How to Import the SWMM 5 Report File as a Layer in   infoSWMM   The idea of this blog of note is to show how one may extract information from the SWMM 5 or InfoSWMM RPT file and import the Excel     File as a feature in InfoSWMM.   This blog has an example Excel file to illustrate the linkage. The steps are:   Step 1:     Copy the whole row     from Conduit Summary from the InfoSWMM Browser Step 2:  Add the two columns length and  slope from the Link Summary Table and the InfoSWMM Browser Step 3:  You need a few calculations based on the table values from SWMM 5 to estimate the CFL  time steps in the . Step 4:   Add the Excel Spreadsheet as a layer in InfoSWMM – the  Named Range should be added to insure valid numbers and not Nulls after the join Step 5:  You can now plot the CFL Time Step for the Links using the Layer Propertie

Subject:    How to Approximate a Timer in the RTC Rules of SWMM 5 How to Approximate a Timer in the RTC Rules of SWMM 5 by  dickinsonre Subject:    How to Approximate a Timer in the RTC Rules of SWMM 5   SWMM   5  does not have a explicit  timer  in its Real Time Control ( RTC )  rules  but you can  approximate  it by using a Control Curve as in the attached example model.  The Control Curve will modify the setting of the Weir by the Inflow to the Storage node.  You can have normal weir flow settings based on the invert elevation of the weir and the Surface node water surface elevation but in addition you can control the weir setting by:   1.    Closing the weir when the inflow is low, 2.    Closing the weir by staggered Storage node depth, 3.    Opening the weir gradually when the inflow increases 4.    Closing the weir by a combination of Node Depth IF statements and Control Curve rules   For example, you can have the Weir Setting controlled the Node Depth,  Link Inflow and Node Infl