#INFOSWMM

SWMM 5.1 Update History up to SWMM 5.1.013 and Link to New EPASWMM 5.1013 Install

SWMM 5.1 Update History

New SWMM 5.1.013 is now available http://t.co/v8QVy5c3UI

Build 5.1.013 (05/10/18)

————————

 

Engine Updates:

  1. A subcatchment’s depression storage depth, its pervious surface roughness

(Mannings n) and its hydraulic conductivity can now be adjusted on a

monthly basis by assigning monthly time patterns to these properties.

For conductivity, a subcatchment-specific adjustment pattern will

override any project-wide set of climate adjustment factors.

2018-09-03_1341

Figure 5.1.013.1  A subcatchment’s depression storage depth, its pervious surface roughness
(Mannings n) and its hydraulic conductivity can now be adjusted on a
monthly basis by assigning monthly time patterns to these properties.
For conductivity, a subcatchment-specific adjustment pattern will
override any project-wide set of climate adjustment factors.

  1. LID controls can now treat a designated portion of a subcatchment’s

pervious area runoff (previously they could only treat impervious area

runoff).

2018-09-03_1353

Figure 5.1.013.2 LID controls can now treat a designated portion of a subcatchment’s
pervious area runoff (previously they could only treat impervious area
runoff).

  1. Permeable pavement LID units subjected to clogging over time can now

have their permeability only partly restored at periodic time

intervals

2018-09-03_1355

Figure 5.1.013.3 Permeable pavement LID units subjected to clogging over time can now
have their permeability only partly restored at periodic time
intervals

  1. The following options were added to control flow out of LID units

through their underdrains:

– A storage layer water depth above which a closed drain automatically

opens.

– A storage layer water depth below which an open drain automatically

closes.

– A control curve that specifies how the nominal drain flow rate is

adjusted as a function of the head seen by the drain.

2018-09-03_1400

Figure 5.1.013.4 A storage layer water depth above which a closed drain automatically opens.
– A storage layer water depth below which an open drain automatically
closes.
– A control curve that specifies how the nominal drain flow rate is
adjusted as a function of the head seen by the drain.

  1. Pollutant removal percentages can now be assigned to LID processes that

have underdrains. The removals apply to flow leaving the unit through the

drain and not to any surface overflow from the unit.

2018-09-03_1404

Figure 5.1.013.5 Pollutant removal percentages can now be assigned to LID processes that have underdrains. The removals apply to flow leaving the unit through the drain and not to any surface overflow from the unit.

  1. The Subcatchment Runoff Summary Report now includes both pervious and

impervious total runoff volumes (prior to any LID treatment) for each

subcatchment.

2018-09-03_1341_001

Figure 5.1.013.6 The Subcatchment Runoff Summary Report now includes both pervious and
impervious total runoff volumes (prior to any LID treatment) for each
subcatchment.

  1. A choice of method used to handle surcharging has been added to the list

of Dynamic Wave options. The EXTRAN method continues to use the traditional

Surcharge Algorithm to update the head at surcharged nodes. The new SLOT

option attaches a Preissmann Slot to closed conduits flowing more than 98.5%

full that eliminates the need to switch to the Surcharge Algorithm for

surcharged nodes.

2018-09-03_1339_001

Figure 5.1.013.7 A choice of method used to handle surcharging has been added to the list of Dynamic Wave options. The EXTRAN method continues to use the traditional Surcharge Algorithm to update the head at surcharged nodes. The new SLOT option attaches a Preissmann Slot to closed conduits flowing more than 98.5% full that eliminates the need to switch to the Surcharge Algorithm for surcharged nodes.

  1. A closed vessel can now be modeled as a storage unit node that is allowed

to pressurize up to a designated Surcharge Depth value. If this depth is 0

then the unit is modeled as before as an open vessel.

2018-09-03_1407

Figure 5.1.013.8  A closed vessel can now be modeled as a storage unit node that is allowed
to pressurize up to a designated Surcharge Depth value. If this depth is 0
then the unit is modeled as before as an open vessel.

  1. A weir’s discharge coefficient can now be allowed to vary with head across

the weir by assigning it a Weir Curve (see Weir Properties). Weir curves

tabulate coefficient values at specific head levels.

2018-09-03_1411

Figure 5.1.013.9   A weir’s discharge coefficient can now be allowed to vary with head across
the weir by assigning it a Weir Curve (see Weir Properties). Weir curves
tabulate coefficient values at specific head levels.

  1. When the upstream offset of a regulator link is below the invert of its

downstream node it is now automatically raised only for Dynamic Wave flow

routing with a warning message issued. For other flow routing choices only

the warning message is issued and no automatic offset adjustment is made.

 

  1. Users can now choose to set a periodic time step for control rule evaluation.

If this step is 0 then rules are tested as before at every routing time step.

2018-09-03_1339

Figure 5.1.013.11  Users can now choose to set a periodic time step for control rule evaluation.
If this step is 0 then rules are tested as before at every routing time step. 

  1. The option was added to have time series results for a project’s nodes and

links be reported as average values computed over a reporting time step

instead of being interpolated point values at the end of the reporting time

step.

2018-09-03_1338

Figure 5.1.013.12  The option was added to have time series results for a project’s nodes and
links be reported as average values computed over a reporting time step
instead of being interpolated point values at the end of the reporting time
step.

  1. The following bugs were fixed:

–  Unused rain gages are no longer examined when adjusting the wet runoff

time step.

–  The surface inflow rate to a permeable pavement LID unit is not allowed

to exceed the pavement’s permeability.

–  The Minimum Nodal Surface Area dynamic wave routing option was being used

as surface area always available at a node instead of an amount available

only when the surface area of the node’s connecting links fell below it.

–  The top width of a full closed rectangular cross section shape is now set

to 0 since it can no longer supply any surface area.

–  The ‘C’ parameter value for a Mitered Corrugated Metal Arch culvert was

corrected.

–  An incorrect reporting of flow continuity error for systems with backflow

through outfall nodes was fixed.

 

GUI Updates

 

  1. Various property editors and dialog forms were updated to accommodate the newly

added engine features (monthly time patterns for subcatchment properties, LID

underdrain parameters, LID pollutant removal, choice of surcharge method,

storage unit surcharge depth, weir coefficient curve, control rule time step,

and reporting of average values).

 

  1. A bug that failed to record the choice of number of barrels for rectangular

conduits in the Cross-Section Editor form was fixed.

 

  1. A bug in the GetLinkOutVal function of the Uoutput.pas unit was fixed.

 

 

————————

Build 5.1.012 (03/14/17)

————————

 

Engine Updates:

 

  1. The direct.h header is now only #included in the swmm5.c file when

compiled for Windows. (swmm5.c)

 

  1. Engine Update #7 in Build 5.1.011 (internally aligning the wet time

step with the reporting time step) was redacted since it caused

problems for certain combinations of time steps. (runoff.c)

 

  1. A subcatchment’s bottom elevation is now used instead its parent

aquifer’s value when saving a water table value to the binary results

file. (subcatch.c)

 

  1. A bug that failed to limit surface inflitration into a saturated rain

garden LID unit was fixed. (lidproc.c)

 

  1. Calculation of the maximum limit on LID drain flows was modified to

produce smoother results at low depths above the drain offset.

(lidproc.c)

 

  1. A variable used for reporting detailed LID results is now properly

initialized. (lid.c & lid.h)

 

  1. The occasional writing of duplicate lines to the detailed LID results

file was fixed. (lidproc.c)

 

  1. The conversion from conduit seepage rate per unit area to rate per unit

of length was changed to use top width instead of wetted perimeter since

only vertical seepage is assumed to occur. (link.c)

 

  1. The coefficient of the evaporation/seepage term in the dynamic wave

equation for updating conduit flow was corrected (from 1.5 to 2.5).

(dwflow.c)

 

  1. The Engels flow equation for side flow weirs was corrected (the original

equation used in SWMM 3 & 4 was incorrect). (link.c)

 

  1. Crest length reductions for end contractions are no longer used for

trapezoidal weirs. (link.c)

 

  1. The Slope Correction Factor for culverts with mitered inlets was corrected.

(culvert.c)

 

  1. An entry in the table of gravel roadway weir coefficients was corrected.

(roadway.c)

 

  1. The user supplied minimum slope option is now initialized to 0.0

(meaning none is provided). (project.c)

 

  1. NO/YES are no longer accepted as attributes for the NORMAL_FLOW_LIMITED

dynamic wave simulation option (only SLOPE/FROUDE/BOTH are valid).

(project.c)

 

  1. Changes were made so that the Routing Events and Skip Steady Flow

options work correctly together. (routing.c & globals.h)

 

  1. Steady state periods with no flow routing no longer contribute to the

routing time step statistics. (stats.c and report.c)

 

  1. When compiling statistics on the frequency of full conduit flow the

number of barrels is now accounted for. (stats.c)

 

  1. Under kinematic wave or steady flow routing, the water level in

storage nodes that have no outflow links is now updated correctly

over time. (flowrout.c)

 

  1. The formula for the depth at maximum width for the Modified Basket Handle

cross section was corrected. (xsect.c)

 

 

GUI Updates:

 

  1. Profile plots now correctly update the main and axis title text when

changed via the Profile Plot Options dialog. Also the downstream

offset height of non-conduit links is set to 0 on the plot.

 

  1. The LID Control Editor now sets the Storage Layer Thickness to 0 when

a Rain Garden is selected as the type of LID being edited.

 

  1. An OnChange event handler was added to each of the LID Control Editor’s

data fields to record when a value is changed.

 

————————

Build 5.1.011 (08/22/16)

————————

 

Engine Updates:

 

  1. Detailed flow routing can now be restricted to a set of pre-defined

event periods. The event periods are listed in an [EVENTS] section

of the SWMM input file, where each line contains a start date,

start time, end date and end time for each event.

 

  1. New functions, swmm_getError() and swmm_getWarnings(), were added to

the API used for interfacing SWMM with other applications (see the

updated Interfacing Guide for details).

 

  1. The error codes returned by the API functions (swmm_open, swmm_start,

swmm_step, etc.) were corrected.

 

  1. The new format for precipitation amounts in rainfall files downloaded

from the NCDC’s Climate Data Online service are now recognized.

 

  1. Monthly adjustments for hydraulic conductivity are now also

applied to the internal Green-Ampt “Lu” parameter which varies with

the square root of conductivity.

 

  1. A check was added to insure that subcatchment imperviousness does

not exceed 100 percent.

 

  1. Runoff time steps are now adjusted to stay aligned with the Report

time step (making model validation easier).

 

  1.  A time step correction was made when computing the outflow volume

produced by an outfall that sends its outflow back onto a designated

subcatchment.

 

  1. The LID routines were modified so that native soil infiltration is

satisfied first when it occurs along with underdrain flow, instead

of the other way around.

 

  1. The allowable offset height for an LID underdrain is no longer

limited to the top of the storage layer thus allowing upturned

drains to be modelled.

 

  1. The detailed LID report file now lists results by both date/time

and elapsed hours and reports water level instead of moisture

content for permeable pavement.

 

  1. If the offset of the opening of a regulator link is below its

downstream node invert it is now raised to the invert level

and a warning message is still issued.

 

  1. A weir with an open rectangular shape and non-zero slope parameter

will no longer generate an input error message – the slope value is

now ignored.

 

  1. An illegal array index bug that could occur when checking the pump

curve type for an Ideal Pump in dynamic wave flow routing was fixed.

 

  1. A redundant unit conversion of max. reported depth from the Node

Depth Summary table was removed.

 

  1. Node surcharging is now only reported for dynamic wave flow routing

and storage nodes are never classified as surcharged.

 

  1. A failure to convert a storage unit’s surface area curve from metric

to internal units when computing bottom exfiltration was fixed.

 

  1. A bug that caused a link’s TIMEOPEN variable (used in control rule

conditions) to be re-set to 0 when its setting changed from one

partly opened state to another was fixed.

 

  1. The Status Report no longer lists control actions taken by modulated

controls since they occur continuously over time and can produce an

enormous number of actions.

 

  1. A failure to convert a Roadway Weir’s road width that was in metric

units was fixed.

 

  1. A bug that caused the saved link settings read from a hot start

file to be incorrect in a model containing pollutants was fixed.

 

  1. Rule premises can now include SIMULATION DAYOFYEAR as a condition,

where day of year is either in month/day format or a number between

1 and 365.

 

  1. A refactoring bug that affected water quality mass balance results

for Steady Flow routing was fixed.

 

  1. The function that decodes the fractional part of a date/time value

into hours:minutes:seconds was modified so that rounding doesn’t

cause the time to exceed 24 hours.

 

  1. Microsoft exception handling statements are now only enabled when

the engine is compiled with the Microsoft C compiler.

 

GUI Updates:

 

  1. A new sub-category of simulation options named Events was added along

with an Event Editor dialog to allow users to restrict detailed flow

routing calculations to specific periods of time. See the Help file

topic under Reference | Special Dialog Forms | Events Editor.

 

  1. When a Rain Garden is selected in the LID Control Editor, the Storage

layer tab now appears so that a bottom Seepage Rate can be specified.

This fixes the problem of having no inflitration out of a Rain Garden.

 

  1. After a simulation has been completed the Run Status dialog box now

indicates if any warning messages have been issued.

 

  1. A previously uninitialized variable (elapsed simulation time) passed

between the GUI and the engine is now assigned an initial value.

 

  1. The ground surface line on a Profile Plot can now be made visible or

not via the Profile Plot Options dialog, with the default being visible.

 

  1. An option to use thick lines to outline conduits and the ground surface

in Profile Plots was added.

 

 

————————-

Build 5.1.010 (08/05/15)

————————-

 

Engine Updates:

 

  1. A modified version of Green-Ampt infiltration (MODIFIED GREEN AMPT) was

added that no longer redistributes upper zone moisture deficit during

low rainfall events. The original authors of SWMM’s Green-Ampt model

have endorsed this modified version. It will produce more infiltration

for storm events that begin with low rainfall intensities, such as the

SCS design storm distributions.

 

  1. A new type of weir, a ROADWAY weir, has been added. It models roadway

overtopping using the FHWA HDS-5 method and would typically be used in

parallel with a culvert conduit.

 

  1. Rule premises can now test whether a link has been open (or closed) for

a specific period of time. See the Help file for more details.

 

  1. Unsaturated hydraulic conductivity (“K”) was added to the list of

variables that can be used in a user-supplied groundwater flow equation.

 

  1. A bug introduced in update 2 of release 5.1.008 that failed to include

infiltration from LID units into the groundwater routine was fixed.

 

  1. A bug that failed to properly initialize the flag indicating that one or

more LID controls was initially wet was fixed.

 

  1. Duplicate printing of the first line of an LID detailed report file was

corrected.

 

  1. The Hargreaves evaporation forumla was modified to use a 7-day running

average of daily temperatures, instead of just single day values, as

recommended by the formula’s authors.

 

  1. Daily potential evapotranspiration (PET) was added as a system output

variable.

 

  1. The qualrout.c module was refactored to make it more compact and easier

to follow.

 

  1. Storage seepage and evaporation losses are now based on the storage volume

at the end, not the start, of the prior time step.

 

  1. The command line used to build the engine included in the “makefile”

for the GNU C/C++ compiler was corrected to include the OpenMP libraries.

 

GUI Updates:

 

  1. Potential evapotranspiration (PET) was added as new system-wide variable

whose time series can be viewed with a graph or table.

 

  1. A bug in the Number of Threads dropdown list on the Dynamic Wave Options

dialog was fixed.

 

  1. Additional bugs in the Cross Section Editor remaining from changes made

in release 5.1.008 were fixed.

 

  1. Changes were made to accommodate the new Modified Green-Ampt infiltration

option and the new Roadway weir option.

 

  1. The automatic scaling of plots with all y-values the same was improved.

 

  1. The automatic scaling of profile plots was improved and the ground surface

line was removed to improve clarity.

 

  1. The function that automatically converts all link depth offsets to

elevation offsets now uses the node invert elevation value rather

than ‘*’ for a zero offset.

 

  1. A bug in using the Macro List on the Add-In Tools Properties form to

insert a selection into the Working Directory edit box was fixed.

 

 

————————–

Build 5.1.009 (04/30/2015)

————————–

 

General:

 

  1. A missing DLL file used to parallelize SWMM’s flow routing

routine was added to the installation package.

 

Engine Updates:

 

  1. A re-factoring bug that prevented running simulations longer

than 68 years was fixed.

 

  1. An input parsing error that prevented the program from

recognizing a comparison between two variables in a

control rule premise was fixed.

 

  1. A new warning message was added for when a control rule

premise compares two different types of variables.

 

  1. When implementing 5.1.008 update 12, the runon to a

subcatchment fully occupied by LIDs was not being included

in the subcatchment’s Summary Report.

 

  1. A bug was fixed that allowed LID units to return outflow to

a subcatchment’s pervious area even though LIDs occupied the

entire subcatchment.

 

  1. For quality routing the definition of a dry conduit/storage

node was changed to <= 1 mm of depth to avoid concentrations

from blowing up due to evaporation losses.

 

  1. The units label for Total Inflow Volume in the Node Inflow

Summary table of a saved report file was corrected.

 

GUI Updates:

 

  1. A bug introduced as a result of 5.1.008 GUI Update 11 that

prevented the name of a conduit’s Transect or Shape Curve

from appearing in the Cross Section Editor was fixed.

 

  1. A nicer default axis scaling routine is now used for time

series and scatter plots.

 

  1. The user-supplied custom scaling for the vertical axis of a

profile plot is now recognized.

 

 

 

————————–

Build 5.1.008 (04/02/2015)

————————–

 

Engine Updates:

 

New Features:

=============

 

  1. Monthly adjustments for hydraulic conductivity used for

rainfall infiltration and for exfiltration from storage

nodes and conduits was added.

 

  1. LID drains can now send their outflow to a different node

or subcatchment than the parent subcatchment in which they

were placed.

 

  1. Conveyance system Outfall nodes now have the option to

send their outflow onto a subcatchment, to simulate

irrigation or complex LID treatment options.

 

  1. A new LID practice, Rooftop Disconnection, has been added.

It allows one to explicitly model roof runoff with an

optional limit on the flow capacity of their downspouts.

Disconnection is specified by setting the Return To Pervious

Area field in the [LID_USAGE] section to 1.

 

  1. An optional soil layer has been added to Permeable Pavement

LIDs so that a sand filter or bedding layer beneath the

pavement can be modeled.

 

  1. Several new built-in variable names can now be used in

custom groundwater flow equations for porosity, unsaturated

hydraulic conductivity, infiltration rate, and percolation

rate. See the Help file for more details.

 

  1. A Groundwater Summary table has been added that reports

several groundwater statistics for each subcatchment.

 

  1. A new option, the Minimum Variable Time Step, was added that

limits the smallest time step that can be computed under

variable time stepping for dynamic wave flow routing. In

previous releases it was fixed at 0.5 seconds which remains

the default. The smallest value it can now have is 0.001 sec.

 

  1. The dynamic wave routing procedure was parallelized to take

advantage of multiple processors, making it run several times

faster. A new option, THREADS, sets the number of parallel

threads to use, where the default is 1.

 

  1. A new column was added to the Node Depth Summary report table

that shows the maximum depth recorded at the Reporting Time Step

so it can be compared to the maximum depth attained over all

routing time steps also shown in the table.

 

  1. Control rule premises can now contain conditions that compare

the values of a node or link variable at two different locations

(e.g. IF NODE 123 HEAD > NODE 456 HEAD) and node volume was

added as a condition clause variable.

 

Improvements:

=============

 

  1. When a subcatchment with LID controls receives runon from another

source (e.g., a subcatchment, LID drain or outfall node) the

runon is now distributed only across the non-LID area of the sub-

catchment instead of the full area. If a single LID takes up the

full subcatchment area then the runon is directed onto the LID.

 

  1. Storage node HRT was added to the state variables saved in the

Hot Start file.

 

  1. The threshold value for reporting a non-zero runoff result

was changed from 0.001 cfs to 0.001 inches/hr.

 

  1. The calculation of overall flow routing mass balance was

modified to account for cases where some flow streams, like

total external inflow, are negative.

 

  1. The “Surface Runoff” label in the Runoff Continuity Report was

replaced with “Total Runoff” since the value reported consists

of both surface runoff and LID drain flow.

 

  1. The “Internal Outflow” label in the Flow Routing Continuity

Report was replaced with “Flooding Losses” to improve clarity.

 

  1. The pollutant washoff routines were moved to a new code module

(surfqual.c) and revised to account for the reduction in

pollutant load that results from runoff flow reduction by LID

units.

 

  1. Initial flows for Steady Flow routing are now ignored since they

are not used in the routing calculation and the initial volume

associated with them contributed to system mass balance error.

 

  1. The various types of lateral inflows to conveyance system nodes

are now evaluated at the date/time for the start of the routing

time step instead of at the end of the time step.

 

  1. The final runoff and routing time steps are adjusted to insure

that the simulation’s total duration is not exceeded.

 

  1. When evaluating user-supplied math expressions, any NaN (Not a

Number) result (caused by an underflow, overflow or divide by zero)

is set to 0 so that the NaN doesn’t propagate through subsequent

calculations.

 

Bug Fixes:

==========

 

  1. The evaporation rates read from a time series would only change

when a new day was reached (even though values at more frequent

intervals were present) and could cause a run to stop pre-

maturely in some rare cases.

 

  1. The runoff read from a Hot Start file should have been assigned

to a subcatchment’s newRunoff property, not to oldRunoff.

 

  1. An indexing bug that caused Hot Start files with snowmelt

parameters to be read incorrectly was fixed.

 

  1. The setting for a non-conduit link read from a Hot Start file

was not being used to initialize the link.

 

  1. A bug in adjusting snowmelt for snow covered area derived from

an areal depletion curve was fixed.

 

  1. Snowmelt should not have been included in the total

precipitation reported for a subcatchment since the snowfall

which produced it was already accounted for.

 

  1. When computing a flow rate through the Drainage Mat of a Green

Roof LID unit, the mat’s void ratio was being applied to the

water depth instead of to the mat’s area.

 

  1. The state of LID controls was not being considered when

choosing to use the wet or dry runoff time step which sometimes

lead to excessive LID continuity errors.

 

  1. A re-factoring bug that left reporting time in minutes instead

of hours in the detailed LID results file was fixed and results

are now written to the file at each runoff time step where the

state of the LID unit changes.

 

  1. Failure to initialize groundwater evaporation loss to 0 was

causing problems with the reported groundwater mass balance

for subcatchments that had no pervious area.

 

  1. Excessive continuity errors for systems having conduits with

large seepage rates was fixed.

 

  1. Pollutant loss through seepage in conduits and storage nodes was

not being included in the mass balance calculations.

 

  1. Concentrations in conduits and storage nodes were not being

increased to account for loss of water volume when evaporation

was occurring.

 

  1. Premature exiting of the routine that checks for capacity limited

links whenever a non-conduit link was encountered was fixed.

 

  1. A bug in identifying the percent of time that a conduit has either

end full was fixed.

 

  1. A re-factoring bug that prevented surcharged weirs (see Update 5

for 5.1.007) from passing any flow was fixed.

 

  1. A bug in evaluating recursive calls to nodal water quality treatment

functions was fixed.

 

 

GUI Updates:

 

  1. The missing July – December column labels were restored on both

the evaporation and wind speed tables in the Climatology Editor.

 

  1. The label “Surface Water Height (Hsw)” in the Groundwater Flow

Editor was changed to “Surface Water Depth” to make clear that

it is the depth of water at the receiving node and not the height

of water above the aquifer bottom (or Hsw as shown in the dialog’s

diagram).

 

  1. The label “Channel Bottom Height (Hcb)” also in the Groundwater

Flow Editor was changed to “Threshold Water Table Elev.” to make

clear that it is an elevation and not a height above the aquifer

bottom (as Hcb is in the dialog’s diagram).

 

  1. A Groundwater Summary table was added to the form that displays

summary results tables.

 

  1. Groundwater upper zone soil moisture and node lateral inflow are

now included in the abridged Hot Start file that the GUI can

produce (using the File | Export | Hot Start File command).

 

  1. The column labels in the various sections of the SWMM input file

generated by the GUI were modified to better match the labels used

to describe the input file format in Appendix D of the Users Manual.

 

  1. A “Route To” field was added to the Outfall Node property editor to

accommodate the new option of allowing outfall nodes to discharge

onto a subcatchment.

 

  1. The Dynamic Wave page of the Simulation Options dialog was modified

to include the new Minimum Routing Time Step option and the new

Number of Threads option.

 

  1. The LID Control Editor was updated to include the new Rooftop

Disconnection LID practice and the option to add a soil layer

to the Permeable Pavement practice.

 

  1. A Drain Outlet field was added to the LID Usage Editor.

 

  1. The conduit Cross Section Editor dialog was enhanced to display

a selectable list of standard size codes and their dimensions for

elliptical and arch pipes.

 

  1. Custom changes made to the Map’s Legends are now saved with the

rest of a  project’s settings in its .ini file.

 

  1. Word wrapping was added to the Title/Notes display in the

Project Browser to make the contents easier to read.

 

  1. Modal dialog message windows now appear centered over the form that

generates them instead of in the middle of the full display screen.

 

  1. The style of all dropdown list boxes was changed to make them more

visually appealing.

 

 

————————-

Build 5.1.007 (9/15/2014)

————————-

 

Engine Updates:

 

  1. A new feature that provides monthly adjustments for

temperature, evaporation rate, and rainfall was added.

 

  1. Support for reading the new GHCN-Daily climate data

files available from NCDC’s Climate Data Online service

was added.

 

  1. In addition to lateral groundwater flow, a custom

equation can now also be used for seepage flow to

a deeper groundwater aquifer.

 

  1. The [GW_FLOW] section of the project file was renamed

to [GWF] and its format was changed to accommodate

both lateral and deep groundwater flow equations.

 

  1. A new Weir parameter was added that specifies if the

weir can surcharge using an orifice equation or not.

Surcharging was the only option in SWMM 5.0 but was

switched to no surcharing in earlier 5.1 releases.

This new parameter accommodates both closed top weirs

that can surcharge and open channel weirs that cannot.

 

  1. The formula used to recover infiltration capacity during

dry periods for the Modified Horton method was revised.

 

  1. The initial cumulative infiltration into the upper soil

zone for Green-Ampt infiltration had been incorrectly

set to the maximum value instead of zero.

 

  1. All of the Green-Ampt infiltration functions were

re-factored to make the code easier to follow.

 

  1. The calculation of infiltration out of the bottom of a

Bio-Retention Cell or Permeable Pavement LID unit with a

zero-depth storage layer was corrected.

 

  1. Most of the LID simulation routines were modified to

provide more accurate results under flooded conditions.

 

  1. Results written to the detailed LID results report now

always correspond to a full reporting time step.

 

  1. The name of the variable used to represent the height of

the receiving channel bottom in a user-defined groundwater

flow equation was corrected to match the name displayed

in the GUI’s Groundwater Editor dialog (Hcb).

 

  1. A problem with the program crashing when a climate file

was used to provide evaporation rates for open channels

and storage nodes when runoff was not computed (as when

there were no subcatchments in the project) was fixed.

 

  1. Flow and pollutant routing mass balance accounting was

modified to correctly handle negative external inflows.

 

  1. The procedure for computing the area available for seepage

out of a storage node that has a tabular storage curve was

corrected.

 

  1. Seepage from storage units can now be modeled using Green-

Ampt infiltration, which makes the seepage rate a function

of storage level. The constant seepage rate option can

still be used by setting the G-A initial moisture deficit

to 0.

 

  1. The function that finds depth as a function of volume from

a storage curve was corrected for the case where the depth

falls within a portion of the curve where area is constant

with depth (i.e., vertical side walls).

 

GUI Updates:

 

  1. The Object Toolbar was restored.

 

  1. A new page was added to the Climatology Editor to edit

values for monthly adjustments for temperature, evaporation,

and rainfall.

 

  1. A field for the new weir surcharge option was added to the

Weir Property editor.

 

  1. A problem with the current project being closed without

asking if it should be saved first whenever a new style

theme was selected from the Program Preferences dialog

has been fixed.

 

  1. The default seepage rate from an LID storage layer was changed.

 

  1. The Infiltration Editor was restored for editing Green-Ampt

parameters for storage unit seepage loss.

 

  1. The Groundwater Flow Equation Editor was extended to accept

equations for deep groundwater flow.

 

 

————————-

Build 5.1.006 (5/19/2014)

————————-

 

Engine Updates:

 

  1. The updating of the next time that detailed LID results

should be written to file during a simulation was modified

to avoid an off-by-one error.

 

  1. The number of decimal places for hourly evaporation written

to a detailed LID report was increased.

 

  1. The amount of soil water available for evaporation in

LID units with soil layers wasn’t being limited by the

water remaining below the wilting point.

 

  1. The equation that computes the rate of water infiltrating

into permeable pavement LIDs had a misplaced parenthesis.

 

  1. There was a units conversion error in computing the

contribution of a pollutant in direct precipitation

to the water quality on a subcatchment.

 

GUI Updates:

 

  1. As a result of the switch to Delphi XE2 some components on

the Options and Climatology dialogs were not recording that

project data had changed after edits were made.

 

 

————————-

Build 5.1.005 (4/23/2014)

————————-

 

Engine Updates:

 

  1. A problem with reading hydraulic results from a hot start

file was fixed.

 

GUI Updates:

 

  1. The appearance of the Open File Dialog with preview panel

was improved.

 

  1. In the property Editor for storage nodes, the Ponded Area

property was made read-only since storage nodes are not

allowed to pond water.

 

  1. Some issues with pop-up topic windows in the Help file

being obscured by the main Help window were fixed.

 

 

————————-

Build 5.1.004 (4/14/2014)

————————-

 

Engine Updates:

 

  1. Support for the Ignore RDII analysis option was added to

the engine.

 

GUI Updates:

 

  1. A refactoring bug that ignored any changes to numerical

precision made in the Program Preferences dialog was fixed.

 

  1. Another refactoring bug from 5.1.003 that caused projects

with groundwater aquifers not to run was fixed.

 

 

————————

Build 5.1.003 (4/8/2014)

————————

Engine Updates:

 

  1. A new property, the Upper Zone Evap. Pattern, was added to

the Aquifer object. It allows one to adjust the aquifer’s

upper zone evaporation fraction by month of the year.

 

  1. A bug in writing/reading RDII flows to the new binary RDII

file was fixed.

 

GUI Updates:

 

  1. A refactoring bug that prevented SWMM from working

correctly for users with non-US Windows regional settings

was fixed.

 

  1. A refactoring bug the prevented the Group Delete feature from

working was fixed.

 

  1. Issues with stay-on-top forms obscuring modal dialog forms,

with the Browser panel disappearing if its width was made too

small and with not being able to browse the Help system when a

modal form had focus were fixed (these unforseen issues were

caused by the switch to Delphi XE2 from Delphi 7).

 

  1. The Aquifer Editor form was updated to accept the new upper

evaporation pattern property.

 

 

————————-

Build 5.1.002 (3/31/2014)

————————-

Engine Updates:

 

  1. A bug that prevented hotstart files with the latest format

from being read was fixed.

 

  1. Only non-ponded surface area is saved for use in the dynamic

wave surcharge algorithm (when water depth is close to the

node’s crown elevation).

 

GUI Updates:

 

  1. Creation of auxilary forms on startup was moved from the

main form’s OnActivate event to its OnCreate event, while

creation of the map form was moved tothe OnShow event.

 

  1. The routines for saving and reading the main form’s position

and size in the swmm5 .ini file were modified.

 

  1. A memory leak related to copying cells from the grid editor

used in various dialogs was fixed.

 

 

————————-

Build 5.1.001 (3/24/2014)

————————-

Engine Updates

 

New Features:

=============

  1. SWMM can now read the new file format for precipitation

data retrieved online from NOAA-NCDC.

 

  1. A new choice of infiltration method, the Modified Horton

method, has been added. This method uses the cumulative

infiltration in excess of the minimum rate as its state

variable (instead of time along the Horton curve),

providing a more accurate infiltration estimate when

low rainfall intensities occur.

 

  1. RDII interface files created internally by SWMM are now

saved in a binary format to reduce storage space. The ASCII

text format for these files is still supported for users

that find it desireable to create the files outside of SWMM.

 

  1. Two new categories of LID controls, one for Green Roofs and

another for Rain Gardens, have been added so they no longer

have to be configured from the Bio-Retention Cell control

(although that option still remains). The Green Roof uses

a new Drainage Mat layer to store and convey the water that

percolates through the soil layer.

 

  1. Users can now add their own groundwater outflow equation to

a subcatchment, to be used in place of or in addition to the

standard equation. Similar to treatment functions, the equation

can be any mathematical expression that uses the same ground-

water variables that appear in the standard equation.

 

  1. Evaporation of water from open channels has been added.

 

  1. A new conduit property named Seepage Rate (in/hr or mm/hr)

has been added to model uniform seepage along the bottom

and sloped sides of a conduit.

 

  1. Infiltration from storage units is now referred to as

seepage, to be consistent with seepage from conduits. The

only required parameter is a seepage rate (in/hr or mm/hr).

Previous data files that supply a set of Green-Ampt

infiltration parameters will still be recognized.

 

  1. Separate accounting and reporting of evaporation and

seepage losses in storage units is now made.

 

  1. Open rectangular channels now have a new parameter that

specifies if one or both side wall surfaces should be

ignored when computing a hydraulic radius (to provide

improved support for quasi-2D modeling of wide channels

and overland flooding).

 

  1. New Dynamic Wave Analysis options have been added for

the maximum number of iterations and head tolerance used

at each time step. The percentage of time steps where

convergence is not achieved is also now reported.

 

  1. Users can now set the flow tolerances that determine if

flow routing calculations can be skipped because steady

state conditions hold.

 

  1. Control rules can now use a conduit’s OPEN/CLOSED status

in both premise conditions and action clauses.

 

  1. The meaning of the link view variable “Capacity” has been

changed. For conduits it is now the fraction of the full

cross section area filled by the flow, while it is the

control setting for all other types of links (the meaning

of the control setting varies by link type — see the Help

file or the Users Manual).

 

  1. The link Froude number view variable has been replaced with

the link’s flow volume, the subcatchment Losses variable has

been replaced by two new variables – Evaporation and

Infiltration, and upper groundwater zone Soil Moisture has

been added as a new view variable.

 

  1. The Node Inflows Summary table of the Status Report now

includes a new column that lists the mass balance error

in volume units for each node.

 

  1. A new summary table, Link Pollutant Load, has been added

that displays the total mass load of each pollutant that

flows through each link.

 

Improvements:

=============

  1. Using a Drain Delay time of 0 for Rain Barrel LIDs now means

that the barrel is allowed to drain continuously, even as it

is filling during wet weather periods.

 

  1. The requirement that an impervious surface must be dry

(have no more than 0.05 inches of standing water) before

it could be subjected to street sweeping has been dropped.

 

  1. After runoff ceases and a land surface goes dry due to

evaporation, any remaining mass of pollutant originating

from direct deposition or upstream runon is assumed to be

unavailabe for future washoff (it shows up as Remaining

Buildup in the mass balance report).

 

  1. The way that wet weather washoff inflow loads are

interpolated across a flow routing time step was modified

to produce a better match between the reported total runoff

load and total quality routing inflow load.

 

  1. The method used to select a time step for processing RDII

unit hydrographs was modified to consider the case where

K (the ratio of rising limb to falling limb duration) is

below 1.0.

 

  1. When the moisture content of the upper groundwater zone

reaches saturation, the depth of the lower saturated zone

is now set equal to the full aquifer depth (minus a small

tolerance).

 

  1. Conduits with negative slopes whose absolute value is

below the Minimum Slope option will have their slope

changed to the positive minimum value, thus allowing

them to be analyzed using the Steady Flow and Kinematic

Wave routing options.

 

  1. The Avg. Froude Number and Avg. Flow Change columns in the

Flow Classification Summary table have been replaced with the

fraction of time steps that flow is limited to normal flow

and the fraction of time steps that flow is inlet controlled

(for culverts).

 

  1. An error condition now occurs if a pump’s startup depth

is less than its shutoff depth.

 

  1. Only the upstream node for orifice and weir links is now

checked to see if its maximum depth needs to be increased

to meet the top elevation of the orifice or weir opening.

 

  1. Weirs are no longer allowed to operate as an orifice when

they surcharge. Instead any excess flow will flood the

upstream node.

 

  1. A warning message is now written to the Status Report if

the crest elevation of a regulator link is below its

downstream node’s invert.

 

  1. When a reporting time falls in between a computational time

step during which a pump’s on/off status changes, the reported

pump flow is the value at either the start or end of the time

step depending on which is closer to the reporting time (i.e.,

no interpolation is used).

 

  1. Control rule conditions can now accept elapsed time or

time of day values as decimal hours in addition to hours:

minutes:seconds.

 

  1. The test for a control rule condition equaling a specified

elapsed time or time of day was modified to more accurately

capture its occurrence.

 

  1. If the Water Quality analysis option is disabled then the

binary results file no longer contains any pollutant values

(of 0) for all time periods.

 

  1. Hot Start files now contain the complete state of the watershed

and conveyance system, so that future simulations can start up

correctly where they left off.

 

  1. The following changes to error reporting were made:

– Error 319 was re-numbered to 320 and a new Error 319

was added for a rainfall data file with unknown format.

– Format errors in external time series files are now

listed as Error 363 (invalid data) instead of Error

173 (time series out of sequence).

 

  1. Warning messages written to the Status Report are now

single spaced instead of double spaced. See report.c.

 

  1. The Link Summary table in the Status Report now lists conduits

with negative slopes in their original orientation instead of

in their reversed state.

 

Bug Fixes:

==========

  1. A refactoring bug from 5.0.022 that prevented snowmelt

from infiltrating has been fixed.

 

  1. Snowmelt rate during rainfall conditions and the updating

of the antecedent temperature index were were not being

converted from the six hour time interval used in Anderson’s

original NWS snowmelt model to the hourly basis used in SWMM.

 

  1. A refactoring bug that failed to set the maximum number of

characters high enough for a line read from a user-prepared

rainfall data file has been fixed.

 

  1. The optional Maximum Volume parameter for Horton

infiltration was not allowing any recovery of infiltration

capacity between storm events.

 

  1. Evaporation from the lower groundwater zone was being

computed from the rate remaining after surface and upper

zone evaporation was considered instead of from the

unadjusted rate (with a reduction afterwards if it exceeds

the remaining available rate).

 

  1. An error in applying the Vegetation Volume Fraction parameter

to swales was corrected.

 

  1. The time from the last rainfall used to determine when a

Rain Barrel should begin to empty wasn’t being computed

correctly.

 

  1. An erroneous error message for Rain Barrel LIDs with a

zero Void Ratio has been fixed (the Void Ratio parameter

should be ignored for Rain Barrels).

 

  1. The display of extraneous infiltration results in detailed

reports for Rain Barrel LIDs has been eliminated.

 

  1. The check on no street sweeping for a subcatchment during

wet periods was checking rainfall over the entire study

area instead of just the subcatchment.

 

  1. An erroneous warning message regarding negative offsets for

pumps when elevation offsets are used has been eliminated.

 

  1. A possible divide by zero error for trapezoidal channels

with zero bottom width has been eliminated.

 

  1. A program crash that occurred when the Ignore Routing

option was selected and results were to be saved to a

Routing Interface file has been fixed.

 

  1. Projects that had no subcatchments or had the Ignore

Runoff switch selected were not able to evaporate water

from storage units.

 

  1. Weekday and weekend hourly time patterns for Dry Weather

inflows are now correctly applied in a mutually exclusive

manner.

 

  1. The Node Flooding Summary table in the Status Report now

correctly lists the peak depth of ponded water above the

node’s maximum depth (i.e., its rim or ground elevation)

instead of above its invert elevation.

 

  1. Occasional problems caused by the date/time functions not

returning an hour between 0 and 23 (for hourly time patterns)

and being off by 1 second (when writing results to outflow

interface files) have been fixed.

 

  1. A bug introduced in release 5.0.017 that caused the

concentration after first-order decay in a storage node to

be ignored has been fixed.

 

  1. A bug in the Total Elapsed Time listed at the end of the

Status Report for runs taking longer than 24 hours of

computer time was fixed.

 

  1. A correction was made for the slope correction factor used

for mitered culvert inlets.

 

  1. The procedure for finding the surface area of a storage unit

given its volume was corrected for the case where the

storage curve has a section of decreasing area with depth.

 

  1. The procedure for finding a cross-section area given a

section factor value was corrected for the case where the

section factor table does not have its highest value as

the last entry in the table.

 

  1. An error in computing the hydraulic radius of the Rectangular-

Triangular conduit shape as a function of flow depth was

corrected.

 

GUI Updates

 

  1. The entire GUI code was ported from Delphi 7 into Delphi XE2.

 

  1. Different color themes for the user interface can be

selected from the Program Preferences dialog.

 

  1. The “Data” Browser panel is now named as the “Project”

Browser.

 

  1. The Object Toolbar has been eliminated. Visual objects

are now added to the map in the same manner as non-visual

objects — by selecting their category from the Project

Browser and then clicking the Browser’s “+” button (or

by selecting Project | Add… on the main menu).

 

  1. The LID Control and LID Usage editors were re-designed to

accomodate the new LID control options.

 

  1. Modifications were made to accept the new engine features

mentioned above (modified Horton infiltration, seepage rate

parameter for conduits, side wall option for rectangular

channels, and the additional Dynamic Wave routing options).

 

  1. Modifications were made to accept the updated set of output

view variables.

 

  1. The summary results tables that used to appear as part of the

Status Report have been moved into a separate Summary Report

that makes it easier to view and sort them.

 

  1. The Time Series Plot selection dialog was modified to allow

more than one kind of object/variable pair to be plotted.

 

  1. The Graph Options dialog was modified to allow a vertical

axis to be inverted (as when plotting an inverted rainfall

hyetograph on the same graph as a runoff hydrograph).

 

  1. The option to compute evaporation using the Hargreaves

equation wasn’t being saved along with the rest of a project.

 

  1. If pollutants are defined for a project but the Water Quality

analysis option is not selected, then after a new analysis is

made pollutants will no longer be listed as theme variables in

the Map Browser nor will they be available for graphs, tables

or statistical reports.

 

  1. The columns for the [XSECTIONS] section of a saved project

file now includes a heading label for “Culvert Code”.

 

 

SWMM 5.0 Update History

=======================

 

————————

Build 5.0.022 (04/21/11)

————————

Engine Updates

 

  1. The following fixes and updates were made to the LID

module of the code (lid.c):

 

  1. The Drain Delay time for a Rain Barrel LID is now

correctly converted internally from hours to seconds.

 

  1. The meaning of the Conductivity property of an LID’s

Storage layer has been changed. It is now defined as

the saturated hydraulic conductivity of the native soil

below the layer instead of the conductivity of the layer

itself.

 

  1. Storage layers are now optional for Bio-Retention Cells

and Permeable Pavement LIDs by allowing the layer height

to be zero. One should still enter a non-zero conductivity

for the layer if infiltration into native soil is allowed.

 

  1. If the top width of the overland flow surface for an LID

is zero then any excess water above the surface storage

depth simply spills out instantaneously.

 

  1. The calculation of infiltration in a Vegetative Swale

was corrected so that a swale with vertical sides will

produce the same results as a fully pervious subcatchment

with the same dimensions, roughness, and slope.

 

  1. The water initially stored in all LID units is now reported

in the Status Report’s Runoff Continuity table.

 

  1. Error messages are now generated if the surface layer

vegetation volume fraction is less than 1, if the area of

all LIDs in a subcatchment is greater than the total area

or if the total capture area of all LIDs is greater than

the subcatchment’s total impervious area.

 

  1. Missing values for accumulation periods within an NWS rain

file are now processed correctly. See rain.c.

 

  1. A new error message (318) is now generated if a user-prepared

rainfall file has its dates out of sequence. See rain.c, err.h,

and err.c.

 

  1. Evaporation during wet time periods was including rainfall and

run-on as moisture available for evaporation when it should

only be the current ponded depth. See subcatch.c.

 

  1. Curve Number infiltration was modified to use only direct

precipitation, not including runon or internally routed flow,

to compute an infiltration rate. See infil.h, infil.c,

subcatch.c and lid.c.

 

  1. A new error message (110) is now generated if the ground

elevation of a subcatchment is less than the initial water

table elevation of its groundwater aquifer. See gwater.c,

err.h, and err.c.

 

  1. A check was added to the tailwater term of the groundwater flow

equation to insure that the term is zero when no tailwater depth

exists. See gwater.c.

 

  1. Checks were added to the solution of the governing groundwater

mass balance equations to catch conditions where the lower zone

depth is greater than the total depth or when the upper zone

moisture content is greater than the porosity. See gwater.c.

 

  1. A divide by zero error no longer occurs when computing the

hydraulic radius of an empty Filled Circular pipe whose filled

depth is zero. A similar error for the hydraulic radius of an

empty trapezoidal channel whose bottom width was zero was also

eliminated. See xsect.c.

 

  1. The critical or normal depth adjustment made for a conduit is

no longer allowed to set the depth to zero — some small depth

level is always maintained. See dynwave.c.

 

  1. The Pump Summary Report was expanded to include number of start-

ups, minimum flow, and time off both the low and high ends of

the pump curve. See objects.h, link.c, stats.c, and statsrpt.c.

 

  1. When the setting of an orifice or weir was changed to 0 (to

completely block flow) the flow depth in the element wasn’t

being set to 0. This was only a reporting error and had no

effect on the flow routing calculations. See link.c.

 

  1. The Node Surcharge Summary in the Status Report did not report

a ponded node as being surcharged. This was only a reporting

error and had no effect on the flow routing calculations. See

stats.c.

 

GUI Updates

 

  1. A new map view variable for subcatchments, the percent of area

occupied by LID controls, was added. This view allows one to

easily distinguish which subcatchments have been assigned LIDs

and which haven’t.

 

  1. The LID Control Editor now checks to see that data fields that

require fractions (such as vegetative volume, void volumes,

soil porosity, etc.) contain valid entries.

 

  1. The LID Group Editor now checks that the total area of all LIDs

assigned to a subcatchment does not exceed the area of the

subcatchment and that the total percentage of impervious area

treated by these LIDs does not exceed 100.

 

  1. Comments applied to Time Patterns are no longer lost when a

project is saved and re-opened at a later time.

 

  1. The File | Export | Hostart option now saves the current

groundwater state correctly.

 

 

————————

Build 5.0.021 (09/30/10)

————————

Engine Updates

 

  1. A code refactoring error in build 5.0.019 that resulted in no

recovery of infiltration capacity during dry periods has been fixed.

See subcatch.c.

 

  1. The pervious area adjustment used in 5.0.019 for evaporation and

infiltration to a subcatchment’s groundwater zone was corrected.

See gwater.c.

 

  1. The accounting of evaporation loss from just the pervious area of a

subcatchment has been corrected. See subcatch.c.

 

  1. The rainfall + runon used to compute infiltration is no longer

pre-adjusted by subtracting any evaporation loss. See subcatch.c.

 

  1. The rate for Green-Ampt infiltration is no longer allowed to be

less than the smaller of the saturated hydraulic conductivity and

the available surface moisture. See infil.c.

 

  1. The available surface moisture for Green-Ampt infiltration is

considered 0 if its value is less than a small tolerance. See

infil.c.

 

  1. Evaporation and infiltration losses from Storage nodes under

Kinematic Wave and Steady Flow routing are now accounted for

properly. See flowrout.c.

 

  1. The Pollutant Loading summary tables in the Status Report now

lists results for all pollutants in a single table instead of

listing just 5 pollutants per table. See report.c.

 

GUI Updates

 

  1. The anchoring of the components on either side of the splitter

bar on the Data Browser panel was changed to insure that the

main window is displayed correctly when SWMM is first launched.

 

  1. The incorrect display of link slopes on the study area map under

the Elevation Offsets option was corrected.

 

 

 

————————

Build 5.0.020 (08/23/10)

————————

Engine Updates

 

  1. A refactoring bug that prevented SWMM from reading rainfall data

from external rainfall files was fixed. See gage.c.

 

 

————————

Build 5.0.019 (07/30/10)

————————

Engine Updates

 

  1. The ability to explicitly model five different types of Low Impact

Development (LID) practices at the subcatchment level has been

added. Consult the LID Controls topic in the Help file for details.

See lid.c, lid.h, infil.c, infil.h, input.c, inputrpt.c, project.c,

statsrpt.c, and subcatch.c.

 

  1. Pollutant buildup over a given landuse can now be specified by a time

series instead of just a buildup function. Consult the Land Uses /

Buildup topic in the Help index for more details. See landuse.c and

keywords.c.

 

  1. An option was added to allow evaporation of standing water to occur

only during periods with no precipitation (the default is the current

practice of allowing evaporation in both wet and dry periods). See

climate.c, enums.h, keywords.c, objects.h, project.c, subcatch.c,

and text.h.

 

  1. Storage node losses from evaporation and infiltration are now computed

directly within the flow routing routines to produce better

conservation of mass. See objects.h, routing.c, dynwave.c and node.c.

 

  1. The check to see if flow in a link should not exceed the normal flow

now uses just the upstream Froude number rather than both up and

downstream numbers. See dynwave.c.

 

  1. The maximum trials used when evaluating the flow and head equations at

a given time period for dynamic wave routing was increased from 4 to 8.

See dynwave.c.

 

  1. The Ponding calculation for dynamic wave flow routing was changed once

again to obtain better continuity results. The depth in a surcharged

node that can pond is not allowed to rise higher than just beyond full

depth in any single time step. After that, its change in depth is

determined by the node’s ponded area. Similarly, the depth of a ponded

node is not allowed to drop more than just below full depth in any

single time step. See dynwave.c and node.c.

 

  1. For Kinematic Wave and Steady Flow routing, a node’s ponded area is

no longer used to infer a ponded depth when a node floods with Ponding

turned on. Instead, the water depth is simply set to the node’s maximum

depth and the ponded area parameter is simply used as a indicator as

to whether the node can pond or not. (This differs from dynamic wave

routing where the ponded area directly influences ponded depth through

the solution of the momentum and flow conservation equations.) See

flowrout.c.

 

  1. As a consequence of the preceeding update, the Node Flooding Summary

table in the Status Report no longer displays the maximum ponded volume

in acre-inches (or hectare-mm). Instead it displays the maximum ponded

depth (ft or m) for Dynamic Wave flow routing or the maximum ponded

volume (1000 ft3 or 1000 m3) for other forms of routing. See stats.c

and statsrpt.c.

 

  1. The groundwater mass balance equations were returned to the form they

had in release 5.0.013 since they were not correctly accounting for

the water volume transferred between the saturated and unsaturated

zones due only to a change in the water table depth. See gwater.c.

 

  1. Controls based on flow rates now properly account for the direction of

flow when they are evaluated. This may require users to add an extra

condition clause to a rule that only applies for flow in the positive

direction (e.g., AND Link XXX FLOW >= 0.0). See controls.c.

 

  1. The Villemonte correction for downstream submergence is now also used

for partly filled orifices (instead of just for weirs). See link.c and

dynwave.c.

 

  1. A missing term in the equation used to check for submerged inlet

control for Culvert conduits was fixed. See culvert.c.

 

  1. If a non-conduit link is connected to a storage node then its

contribution to the node’s surface area is now ignored. See

dynwave.c.

 

  1. The automatic adjustment of the maximum depth of a link’s end nodes

to be at least as high as the link’s crown no longer applies when

the link is a bottom orifice. See link.c.

 

  1. A fatal error message is now generated if a conduit’s entrance,

exit, or average loss coefficient value is negative. See link.c.

 

  1. Requests to do internal routing of runoff between impervious and

pervious sub-areas of a subcatchment when only one type of sub-area

exists are now ignored. See subcatch.c.

 

  1. The check on the error condition of a node having both incoming and

outgoing dummy conduits was modified so as not to get fooled by

Outlet-type links. See toposort.c.

 

  1. The Ignore Snowmelt switch is now internally set to true whenever

there are no snow pack objects defined, so that precipitation is not

mistakenly converted to snow for a project with temperature data.

See gage.c and project.c.

 

  1. When reading min/max daily temperatures from a climate file, the

values are now swapped if the minimum is greater than the maximum.

See climate.c.

 

  1. When the Hargreaves method is used to compute an evaporation rate

from daily temperature values, negative rates are no longer allowed.

See climate.c.

 

  1. Several bugs that prevented SWMM from detecting and reading Canadian

DLY02/04 climate files correctly were fixed. See climate.c.

 

  1. An error message is now generated if a time series used for rainfall

is also used for another purpose in a project (since it will cause

the two uses to be out of synch). See error.h, error.c, gage.c,

climate.c, control.c, and inflow.c.

 

  1. An error message is now generated if two Rain Gages with files as

their data source use the same Station IDs but different names for

the data file. See rain.c, error.h, and error.c.

 

  1. When zero rainfall values appear in a rain file or time series they

are now skipped over and treated as a dry period, the same as would

occur had they not been entered in the first place. See gage.c.

 

  1. A bug that caused the data in an evaporation time series to be out

of synch with the simulation time clock has been fixed. This only

affected evaporation data supplied from time series and not monthly

average data or data from climate files. See climate.c.

 

  1. The water quality mass balance now correctly accounts for any initial

mass in the system created by using a hot start file. See massbal.c.

 

  1. For models that only compute runoff and have a reporting time step

less than the wet time step, the latter is internally set equal to

the former. See swmm5.c.

 

GUI Updates

 

  1. The Data Browser was updated to include the newly added Low Impact

Development (LID) objects and new dialog forms were added to specify

LID design data and their placement within a project’s subcatchments.

 

  1. You can now open a project input file by dragging it from Windows

Explorer (or the Desktop) and dropping it anywhere in SWMM’s main

window.

 

  1. A new checkbox was added to the Evaporation page of the Climatology

Editor to include the option to evaporate only in dry periods.

 

  1. The choices for Function type on the Buildup page of the Land Use

Editor were extended to include an external time series (EXT).

 

  1. SWMM will now continue to use the period (“.”)  as the decimal

separator even if the user or the system changes the Windows Regional

Settings while the program is running.

 

  1. A new installer program is now used that places the example data sets

in the user’s My Documents\EPA SWMM Projects folder.

 

  1. The components below the horizonal splitter bar on the Data Browser

panel were placed in their own panel component so that the splitter

would work correctly under Windows 7.

 

————————

Build 5.0.018 (11/18/09)

————————

Engine Updates

 

  1. Reporting of the total infiltration + evaporation loss for each

Storage Unit (as a percent of total inflow to the unit) was added

to the Storage Volume Summary table in the Status Report. See

objects.h, node.c, stats.c, and statsrpt.c.

 

  1. Double counting the final stored volume when finding the nodes with

the highest mass balance errors has been eliminated. See stats.c.

 

  1. A warning message was added for when a Rain Gage’s recording

interval is less than the smallest time interval appearing in its

associated rainfall time series. (An error message is issued if

the recording interval is greater than the smallest time series

interval.) See gage.c and text.h.

 

  1. Hot Start interface files now contain the final state of each

subcatchment’s groundwater zone in addition to the node and

link information they have always had. See routing.c.

 

  1. To avoid confusion, the actual conduit slope is now listed in the

Link Summary table of the Status Report rather than the adjusted

slope that results from any conduit lengthening. See link.c and

dynwave.c.

 

  1. The Status Report now displays only those summary tables for

which results have been obtained (e.g., if the Flow Routing

option is turned off, then no node or link tables are displayed).

See massbal.c and statsrpt.c.

 

  1. Some code re-factoring was done to place rain gage validation

and initialization in separate functions. See project.c, gage.c,

and funcs.h.

 

  1. The engine version number was updated to 50018 (this update had

been overlooked since release 5.0.010). See consts.h.

 

GUI Updates

 

  1. A bug that prevented Status Report files from being deleted from

a users TEMP folder when they were no longer in use was corrected.

Users should check their TEMP folders (usually in

c:\Documents and Settings\<User Name>\Local Settings\Temp)

for old files that begin with “swm”. These can safely be deleted.

 

  1. The project input file created for use by SWMM’s Add-On Tools now

contains all project data, including map coordinates and element

tags.

 

 

———————–

Build 5.0.017 (10/7/09)

———————–

Engine Updates

 

  1. The Ponding routine for dynamic wave flow routing was once

again modified, this time to account for the special case

where a node transitions between surcharged and ponded

conditions within a single time step. This should correct

the large continuity errors experienced with ponding under

release 5.0.016. See dynwave.c.

 

  1. Error 112 (a conduit’s elevation drop exceeds its length)

is now treated as a Warning condition and not a fatal error.

In this case the conduit’s slope is computed as in earlier

versions of SWMM (elevation drop / length) instead of using

the more rigorous right-triangle method of HEC-RAS. See

link.c and text.h.

 

  1. Inflow interface files no longer have to contain data for

all of the same pollutants defined in the current project

(e.g., they can contain just flows or some subset of the

pollutants). See iface.c.

 

  1. Instead of using the rain gage’s recording interval as the

time step for processing a set of RDII unit hydrographs, the

smaller of the wet runoff time step and the time to peak of

the shortest unit hydrograph in the set is now used. As a

result, it is now permissible to use hydrographs whose time

to peak is shorter than the rain gage recording interval.

See rdii.c.

 

  1. Under Curve Number infiltration, infiltration now stops when

the maximum capacity (initially equal to 1000/CN – 10 inches)

is completely used up. See infil.c.

 

  1. The small tolerance used to determine how much ponded depth

in excess of depression storage is needed to initiate runoff

was removed. This produces a smoother runoff response for

some data sets. See subcatch.c.

 

  1. A default concentration for dry weather flow has been added

to the Pollutant object. It can be overriden for any specific

node by editing the node’s Inflows property. See landuse.c,

routing.c, and objects.h.

 

  1. For water quality routing, the simplified analytical

solution to the CSTR mixing equation was replaced with a

more robust finite difference approximation. This seems

to avoid numerical problems with high decay rates. See

qualrout.c.

 

  1. First order decay was not being applied to pollutants

transported through conduits under Steady Flow routing. To

do this correctly required writing a special water quality

routine just for Steady Flow routing. See qualrout.c.

 

  1. A small minimum depth tolerance was introduced for treatment

to occur at nodes and to have non-zero concentrations in

conduits. See qualrout.c.

 

  1. Large water quality mass balance errors in systems that

provide treatment at nodes were eliminated by correctly

accounting for both the inflow mass and mass in storage

when computing the mass lost to treatment. See treatmnt.c.

 

GUI Updates

 

  1. The property editor for Pollutant objects was modified to

accommodate the new default dry weather flow concentration

property.

 

  1. The default dry weather runoff time step was reduced from

15 to 5 minutes and the default total duration was changed

from 0 to 6 hours.

 

  1. The Ruler tool now displays a small square where the user

begins their measurement so that its easier to create a

closed polygon when measuring an area.

 

 

———————–

Build 5.0.016 (6/22/09)

———————–

Engine Updates

 

  1. A new option was added to compute daily evaporation from the

daily temperature values contained in a climate file using

Hargreaves’ method. (See climate.c, enums.h, keywords.h, and

text.h).

 

  1. When the Ponding option is turned on, nodes that can pond are no

longer always treated like storage nodes that never surcharge.

Now they are only treated this way after ponding occurs. Otherwise

they behave like a normal node. (See dynwave.c).

 

  1. The small tolerance used to decide when a storage node was full or

not has been removed since for very small time steps it could cause

a currently full storage unit to remain full even if there was some

small net outflow from it. (See node.c).

 

  1. Spurious warnings for negative elevation offsets no longer appear

when the “*” entry is used for the offset value or when the offset

elevation value is within a small tolerance of the node invert

elevation. (See link.c).

 

  1. When the water level at a storage node exceeds the highest level

supplied in its Storage Curve, an extrapolated surface area from

the curve is now used only if the curve is sloping outward (i.e.,

surface area is increasing with depth at the top of the curve). If

instead it slopes inward then the last surface area entry in the

curve is used. (See table .c).

 

  1. Comma delimited NCDC rainfall files, both with and without station

name, can now be recognized and read correctly by SWMM. (See rain.c).

 

  1. Space delimited NCDC rainfall files with empty spaces in the condition

code fields can now be read correctly. (See rain.c).

 

  1. A bug created in release 5.0.015 that caused incorrect RDII inflows

to be computed when the rain gage recording interval was less than

the runoff wet time step has been fixed. (See rdii.c).

 

  1. A new error check was added to detect if the time base of an RDII

unit hydrograph is less than its rain gage recording interval.

(See rdii.c).

 

GUI Updates

 

  1. The Evaporation page of the Climate Editor was modified to accommodate

the new option for computing evaporation from daily temperatures.

 

  1. Evaporation Rate has been added to the list of System variables that

can be viewed in time series plots and tables.

 

  1. The term “Shape Curve” was replaced by “Storage Curve” in the Storage

Unit Property Editor to remove any confusion with the Shape Curve used

to define custom closed cross-section shapes.

 

 

———————–

Build 5.0.015 (4/10/09)

———————–

Engine Updates

 

  1. Storage unit nodes have a new optional property named Infiltration

that can store Green-Ampt infiltration parameters for the unit and

thus allow it to serve as an infiltration basin. The Green-Ampt

infiltration model was modified to explicitly include the effect

of ponded water depth on infiltration rate. (See infil.c,

massbal.c, node.c, and objects.h).

 

  1. Different sets of Initial Abstraction parameters (maximum depth,

initial depth, and recovery rate) can now be specified for each

of the three unit hydrographs (short term, medium term, and long

term) that comprise an RDII Unit Hydrograph group (see keywords.h,

keywords.c, objects.h, rdii.c, and text.h).

 

  1. A Meander Modifier was added to a Transect’s parameters. It is the

ratio of the length of a meandering main channel to the length of

the overbank area that surrounds it. This modifier is applied to

all conduits that use this particular transect for their cross

section. It assumes that the length supplied for these conduits is

that of the longer main channel. SWMM will use the shorter overbank

length in its calculations while internally increasing the main

channel roughness to account for its longer length. (See dynwave.c,

flowrout.c, link.c, objects.h, and transect.c).

 

  1. NWS files in space delimited TD 3240 or 3260 format that include a

station name field have been added to the types of rainfall files

that are automatically recognized by SWMM (see rain.c).

 

  1. The 2 GB binary output file size limit for runs made under the GUI

that was inadvertently added into release 5.0.014 was removed

(see output.c).

 

  1. Any backflow that flows into an outfall node due to the head

condition at the node is now correctly reported as part of the

node’s Total Inflow result (see node.c).

 

  1. A fatal error is now generated if the smallest time interval between

values in a rainfall time series does not match the recording time

interval specified for the associated rain gage object (instead of

internally adjusting the gage interval and issuing a warning message)

(see error.c, error.h, and gage.c).

 

  1. The normal flow limitation for dynamic wave flow routing based on

the Froude number now requires that the latter be greater or equal

to 1.0 for both the upstream and downstream flow depths rather just

for either of these (see dynwave.c).

 

  1. A reporting error for the overflow rate into the ponded volume for

a node that floods under dynamic wave flow routing was corrected

(see dynwave.c).

 

  1. The practice of not allowing a computed top surface width to be less

than the width at 4% of the full conduit depth for dynamic wave flow

routing has been dropped in favor of using the actual width, no matter

how small (see dynwave.c).

 

GUI Updates

 

  1. Data entry forms were modified to support the new modeling features

described in the Engine Updates items (1) – (3).

 

  1. A problem with the way that conduits with elevation offsets were

displayed in profile plots drawn prior to a run was corrected.

 

———————–

Build 5.0.014 (1/21/09)

———————–

Engine Updates

 

Rain Gages (gage.c, table.c, error.c, error.h, and objects.h)

  1. The recording interval for a rain gage is now automatically adjusted

to be no greater than the smallest time interval for the gage’s time

series data (with a warning message written to the Status Report).

  1. When two or more rain gages reference the same time series data, a

fatal error message is now generated if the Rainfall Formats

(intensity, volume, or cumulative volume) for the gages are not all

the same.

 

Infiltration (infil.c)

  1. The Green-Ampt infiltration rate was corrected for the case when

the surface becomes saturated part way through the current time step.

  1. The saturated hydraulic conductivity is no longer needed by the

Curve Number method to compute a regeneration rate for infiltration

capacity. The latter is now set simply to the reciprocal of the user

supplied drying time. Thus the CN method now requires only two param-

eters (the CN and the drying time).

  1. An optional monthly adjustment pattern can now be used to modify the

recovery rate of infiltration capacity by month of year. The name of

this pattern is specified as part of the Evaporation data. See the

Help file or the Users Manual for details. (This also affects files

climate.c, keywords.c, project.c, enums.h, objects.h, and text.h).

 

Flow Routing (flowrout.c, node.c, inflow.c, link.c, and objects.h)

  1. A new Minimum Slope option has been added. When this option is non-

zero a computed conduit slope is not allowed to be below this value.

The default is 0. (Note: the slope of a conduit whose elevation

difference is below 0.001 ft is first computed using this elevation

difference and then is compared to the Minimum Slope value.) (The

following files were also changed for this feature: keywords.c,

project.c, enums.h, globals.h, text.h).

  1. An optional Baseline Time Pattern was added for external inflows at

nodes. It can be used to apply a periodic adjustment to the baseline

inflow value by month of year, day of week, etc. See the Help file or

the Users Manual for more details.

  1. Specific conduits can now be designated as Culverts and have Inlet

Control flow computed for them under Dynamic Wave flow routing.

  1. The rating curve used to determine flow through an Outlet can now be

based on either the freeboard depth above the outlet bottom (as

before) or on the head difference between the upstream and downstream

nodes.

  1. The calculation of the maximum outflow that a node can release over

a time step should be based on the initial volume, not the final

volume, at the node.

  1. A problem with the program not accepting an ideal pump when the

connecting upstream conduit had an adverse slope was fixed.

  1. The formula used to compute conduit slope was modified to match that

used by HEC-RAS.

  1. A problem with the program crashing when the No Routing option was

selected in combination with the Save Outflows Interface File option

was fixed (see output.c).

  1. Under Steady Flow and Kinematic Wave routing one can now use a Dummy

conduit that connects to a node at higher elevation without having

to specify an inlet offset.

 

Dynamic Wave Flow Routing (dynwave.c, link.c, and node.c)

  1. Under-relaxation of flows for pumps between iterations of the

governing equations is no longer used since it can produce a

solution that does not conform to the pump’s operating curve.

  1. Instead of the average area, the upstream weighted area that

accounts for near-supercritical flow is now used in the dQ/dH

term for conduits.

  1. The upstream/downstream Froude numbers used to check for normal

flow are now computed using hydraulic depth rather than flow depth.

  1. When ponding is allowed, ponded volume is now computed from the

computed nodal depth rather than adjusting the depth to accommodate

the ponded volume based on the excess of inflow versus outflow. This

is a return to the original method that was used up until Release

5.0.010 and makes ponding (which is actually a form of storage)

consistent with the way that storage nodes are normally treated.

  1. The volume at the inlet node of Type I pumps (where an implicit

wet well is assumed to occur) is now determined on the basis of

computed depth, just as with storage nodes, rather than computing

depth from the change in volume.

  1. The possible closing of tide gates on outfalls directly connected

to orifice, weir, or outlet links is now correctly accounted for.

 

Conduit Cross-Sections (xsect.c)

  1. The modified baskethandle (MODBASKETHANDLE) cross-section shape

was extended to allow the circular top to have any desired radius

equal or greater than half the section’s width. It thus becomes

an upside down version of the Rectangular-Round shape. The section

geometry functions for both shapes received extensive revision.

 

Control Rules (controls.c)

  1. “SIMULATION MONTH” and “SIMULATION DAY” (meaning month of the year

and day of the week, respectively) have been added to the types of

time conditions that can be used in a control rule condition clause.

 

Pollutant Buildup/Washoff (subcatch.c,  landuse.c, and consts.h)

  1. Washoff of a user-specified initial buildup when there is no buildup

function specified now works correctly.

  1. The way that concentrations in runoff are combined with those

from runon and direct rainfall was modified so as to produce more

consistent results, especially when a BMP removal value is appled.

 

Water Quality Routing (qualrout.c, routing.c, treatmnt.c)

  1. For storage units, the finite difference form of the mass balance

equation was replaced with the analytical CSTR solution.

  1. An inflow rate adjustment was added when routing quality through

conduits under Dynamic Wave flow routing to help lower the mass

continuity error.

  1. The formula for updating the hydraulic residence time (HRT) in a

storage node was revised.

  1. Quality routing under Steady Flow routing is now treated as a

special case where the concentration within a conduit simply equals

that of the upstream node.

  1. Any reverse flow into the system that occurs at an Outfall node is

now treated as an external inflow with respect to water quality and

will therefore contain whatever pollutant concentration was specified

for external inflows at the node even if no external flow inflow was

defined. This feature can be used to model saltwater or contaminant

intrusion in tidally influenced channels.

 

Groundwater (gwater.c):

  1. The mass balance equations were re-formulated in a simpler fashion.
  2. The flow equation was re-expressed in terms of distances above the

aquifer bottom instead of absolute elevations.

  1. The equation for computing the maximum infiltration rate that the

upper zone can accept was corrected.

 

Snowmelt (snow.c)

  1. Snow removal for a subcatchment now works by removing snow once the

“Depth at which removal begins” is reached. The fraction of this

amount that remains on the surface is whatever is left over after

all of the redistribution options are satisfied.

  1. The “Depth at which removal begins” value is now correctly converted

to internal units of feet.

 

RDII (rdii.c)

  1. A problem with no RDII being produced when two or more RDII unit

hydrographs utilized the same rain gage was fixed.

 

Time Series (table.c, error.c, error.h, objects.h)

  1. Time Series data can now be imported from an external file instead

of having to be listed in the project’s input file. See the Users

Manual or the Help file for details.

 

Simulation Options

  1. A user can now choose to ignore any combination of the following

process models when running a simulation: Rainfall/Runoff, Snowmelt,

Groundwater, Flow Routing and Water Quality (swmm5.c, project.c,

runoff.c, subcatch.c, routing.c, keywords.c, keywords.h, text.h,

and globals.h).

 

Status Report (statsrpt.c)

  1. The heading for the maximum flow column in the Link Flow Summary table

was changed to “|Flow|” to show that the flows listed are absolute

values.

  1. The labels “Mgal” and “Mltrs” were replaced with “10^6 gal” and

“10^6 ltr”, respectively.

  1. The widths for the various types of flow volume fields (e.g., runoff

volume, node inflow volume, etc.) were increased in size.

 

Binary Output File (output.c)

  1. The Report Start Time written to the binary results is now

adjusted to be be one reporting period prior to when the first

result is reported so that the GUI uses the correct date when it

displays results.

 

Output Report (command line version) (report.c)

  1. Time series tables for reported subcatchments now report Snow Depth,

Groundwater Elevation, and Groundwater Flow (provided that snowmelt

and groundwater processes are included in the simulation).

 

 

GUI Updates:

 

  1. Support was added for the following new engine features:
  2. minimum conduit slope option
  3. culvert designation for specific conduits
  4. monthly infiltration recovery Pattern
  5. Baseline Time Pattern for external inflows
  6. updated Modified Baskethandle cross-section shape
  7. either depth-based or head-based Outlet rating curves
  8. options to ignore selected process models
  9. use of an external file as source of time series data.

 

  1. Regarding 1h above, the Time Series Editor dialog was modified to

include the external data file option.

 

  1. A new category of Simulation Options named Reporting has been

added. When this category is selected for editing in the Data

Browser, a Reporting Options dialog appears from which one can

limit the number of objects whose simulation results are saved

and can be reported. The default is to save results for all

objects.

 

  1. The Group Editing feature was extended to include subcatchment

Snow Packs and Groundwater Flow parameters.

 

  1. The Help -> Tutorial menu command now works correctly to launch the

newer HTML version of the SWMM5 Tutorial Help file.

 

  1. The File -> Export -> Hotstart File command now converts metric

results to internal SWMM US units before saving them to the hotstart

file.

 

  1. Commas are no longer recognized as item separators when reading input

files since this was causing problems when a comma was used in the ID

name of an object (which is allowable).

 

  1. The coordinates of the default natural areal depletion curve for snow

packs were changed to correspond to those appearing in the National

Weather Service publications on which SWMM’s snow melt routines were

based.

 

  1. A problem with not loading a specified startup input file when

epaswmm5.exe is launched from the command line (or from an Explorer

shortcut) was fixed.

 

  1. A problem with the simulation progress meter not displaying the correct

number of elapsed days during long-term simulations was fixed.

 

  1. A problem with Profile Plots not being updated correctly when users

changed certain display options was corrected.

 

  1. The following updates to the Profile Plot feature were made:
  2. The selected links are now checked to make sure that they exist

and form a connected path.

  1. The vertical axis scaling can now be set from the Profile Plot

Options dialog.

iii. The filled-in water level at junctions is now drawn only as high

as the maximum junction depth (i.e., the ground surface), even if

the HGL is higher.

 

  1. A problem with copying just a single column of a Tabular Report to the

clipboard or to a file was corrected.

 

  1. A problem with the selection buttons on the Time Series and Tablular

Report Selection dialog becoming stuck in the disabled mode was fixed.

 

  1. If an external file (such as a rainfall climate, or interface file)

resides in the same directory as the project file then the directory

path portion of the file name is omitted when the file name is saved

within the project file. This will make it easier to share project

files with other users and computers.

 

  1. The name of the “Rainfall” theme variable was changed to “Precipitation”.

 

  1. When the Auto-Backup program preference is selected, a backup file is now

created whenever the current project file is saved to disk, not just when

the project is first opened.

 

 

———————–

Build 5.0.013 (3/11/08)

———————–

Engine Updates:

 

  1. The check on acceptable values for site latitude was

corrected (see climate.c).

 

  1. The definition and implementation of the PID controller

was changed. See the Help file or the Users Manual for

details (see controls.c).

 

  1. The following changes were made to the dynamic wave flow

routing routine in dynwave.c:

  1. A new method that places more weight on upstream conduit

geometry as the Froude number approaches 1 was added.

  1. A code re-factoring error that crept into the inertial

term of the momentum equation was corrected.

  1. The flow in a fully flowing open channel can no longer be

greater than the full normal flow.

  1. The Normal Flow Limit based on both slope and Froude number

was modified to simply implement the two criteria together

in the same fashion as they are done individually.

  1. A check was added that prevents any flow out of a node that

is dry.

  1. The ponding computation was reverted back to that of 5.0.009

(depth is computed from volume rather than volume computed

from depth) to better maintain flow continuity.

  1. Using the maximum allowable change in depth at a node as a

criterion for selecting a variable time step was restored.

 

  1. The crown elevations of any connecting non-conduit links are

now considered when determining a node’s crown elevation (see

flowrout.c).

 

  1. The possibility that the initial setting of an orifice was not

being made correctly was eliminated (see link.c).

 

  1. Error checks were added to test for invalid numbers in a hot

start file (see routing.c).

 

GUI Updates:

 

  1. Checks were added to test for erroneous values in an INI file

that would prevent a graph from displaying properly.

 

 

———————-

Build 5.0.012 (2/4/08)

———————-

Engine Updates:

 

  1. The summary results tables written to the Status Report file

have been updated and expanded. See the Users Manual for more

details. Code changes to support this were made to dynwave.c,

flowrout.c, funcs.h, inputrpt.c (a new module), keywords.c,

keywords.h, link.c, objects.h, output.c, report.c, stats.c,

statsrpt.c (a new module), and text.h.

 

  1. Conduit offsets can now be specified as an absolute

elevation or, as before, a relative depth above the node

invert. The same is true for the bottom of orifices, weirs,

and outlets. The “Link Offsets” setting in the GUI and the

corresponding LINK_OFFSETS entry in the project’s input file

determine which option, DEPTH or ELEVATION, is in effect.

(see project.c, link.c, keywords.c, keywords.h, globals.h,

and text.h).

 

  1. A PID-type controller has been added to the types of

modulated control rules that are available. See the Help

file or the Users Manual for instructions on how to use

this feature (see controls.c and keywords.c).

 

  1. In the simulation results, “flooding” is now considered to

occur whenever the water level exceeds the top of a node,

whether ponding occurs or not. Before, flooding was only

recorded when there was no ponding and node overflow was lost

from the system (see dynwave.c, flowrout.c, massbal.c, node.c,

stats.c, and statsrpt.c).

 

  1. The point at which the time to drain the upper soil zone for

Green-Ampt infiltration is first calculated was moved from time

0 to the time when the first rainfall period occurs. This fixes

a problem where different runoff hydrographs were being produced

when a project’s start date was shifted slightly (see infil.c).

 

  1. The criteria used to determine when steady state flow

conditions exist were changed to more closely follow those

used in SWMM 4 (see routing.c and the Help File or Users

Manual for the Skip Steady Periods option).

 

  1. The optional user-assigned maximum flow limit for conduits was

made operational for all flow routing options, not just Dynamic

Wave routing (see link.c).

 

  1. SI unit conversion problems for both a pump’s on/off depth

settings and its pump curve slope values were fixed (see link.c).

 

  1. The possibility that ponding could occur at the inlet (wet well)

node for a Type I pump was added (see dynwave.c).

 

  1. A mistake in the Hazen-WIlliams head loss formula for force

main conduits was corrected (see forcmain.c).

 

  1. The minimum limit of 0.0001 on flow area and hydraulic radius

computed from flow depth during dynamic wave routing was removed

since flow depth is already limited by this amount (see dynwave.c).

 

  1. The flow direction test added for checking UPSTREAM CRITICAL and

DOWNSTREAM CRITICAL flow conditions in dynamic wave flow routing

was removed to prevent solutions from becoming stuck (see

dynwave.c).

 

  1. The use of a maximum allowable change in depth at a node as a

criterion for selecting a variable time step for dynamic wave

flow routing was dropped (see dynwave.c).

 

  1. A more refined method for computing the flow across a bottom

orifice at low heads was implemented. (see link.c).

 

  1. The head loss calculation caused by flap gates in weirs was

extended to orifices as well (see link.c).

 

  1. The computation of depth as a function of area for a trapezoidal

channel was extended to consider the case where the user used

0 for the side slopes (making it a rectangular channel – a

holdover from SWMM 4) (see xsect.c).

 

  1. A bug introduced in 5.0.010 that was preventing RDII from being

computed for unit hydrographs that used the same rain gage as

another unit hydrograph was fixed (see rdii.c and objects.h).

 

  1. Pollutant loading from RDII was corrected to be based on the

pollutant’s specified RDII quality rather than its rainfall

quality (see routing.c).

 

  1. The “Snow Only” option for the buildup of a pollutant was never

actually implemented and has now been added (see subcatch.c).

 

  1. Additional error checking for valid snow melt and snow pack

input parameters was added (see snow.c, error.c, and error.h).

 

  1. The same runoff threshold is now used for both pollutant washoff

(when above the threshold) and buildup (when below the threshold)

to avoid non-zero runoff concentrations from being reported

during periods with negligible runoff (see subcatch.c).

 

  1. The values for total system outflow and system flooding that are

saved to the binary results file at each reporting time step are

now set equal to the same values that are used for computing the

overall flow continuity error, thus avoiding inconsistent system

outflow values being generated for some data sets (see output.c).

 

  1. For the command line version of SWMM, the default END_TIME option

was corrected from being 24 days to 0 days (i.e., midnight of the

END_DATE value) (see project.c and swmm5.c).

 

GUI Updates:

 

  1. The Status Bar on the bottom of the main window was given a new look,

with drop down buttons added for changing the Link Offsets convention

and the project’s flow units.

 

  1. A combo-box was added to the Nodes/Links page of the Project Defaults

dialog to select the Link Offsets convention (in addition to the

button on the Status Bar).

 

  1. The choice of Flow Units was removed from the General Options page

of the Simulations Options dialog and placed into a drop down button

on the main window’s Status Bar. (As before, one can also set flow

units from the Nodes/Links page of the Project Defaults dialog.

 

  1. A Bookmarks panel was added to the Status Report window to make it

easier to navigate between different sections within the report.

 

  1. A new Measurement Tool button was added to the Map Toolbar that

allows one to measure the distance of a polyline or the area of a

polygon drawn directly on the study area map.

 

  1. Storage Units were added to the choice of objects that can be

edited using the Group Editor dialog.

 

  1. The length assumed for non-conduit objects displayed on a profile

plot was reduced from 100 ft to 10 ft.

 

  1. A “View Conduits Only” option was added to the Profile Plot Options

dialog that makes the plot display just the water depth in the

conduits along the profile and not show the HGL and ground surface.

This allows one to get a better view of how full a conduit is.

 

  1. The Project Data viewer (launched when Project | Details is selected)

can now be split into two views by selecting Window | Split from its

menu bar (or Window | Remove Split to remove the split view).

 

  1. The number of decimal places set for each computed variable on the

Number Formats page of the Program Preferences dialog is now saved

between sessions as the other preferences are.

 

  1. Current simulation results are now always saved between sessions

(if requested by the user) even if data were modified after the

last run was made. In this case, when the project is opened again,

the Run Status icon will show that results are available but need

updating.

 

  1. If the user changes the display format of a Date/Time axis in the

Graph Options dialog and checks the Default box in the dialog, then

this format will be used for all future time series plots for the

current project.

 

  1. A problem with the Profile Plot dialog not always identifying the

path of fewest links between two nodes when asked to do so was

corrected.

 

  1. Entries in the [REPORT] section of a project input file that were

used to define reporting options for the command line version of

SWMM 5 will no longer be lost when the project is run under the

GUI version of SWMM. The GUI version simply ignores them but adds

them into the project file whenever it is saved.

 

  1. Conduit lengths and areas were always being re-computed after the

study area map’s dimensions or distance units were changed with the

Map Dimensions dialog rather than only when the user selected the

re-compute option on the dialog.

 

  1. The backdrop map now pans to the correct position when the Edit |

Find Object command is used to locate an object that is currently

not in view on the staudy area map.

 

  1. The problem of having the name of a subcatchment’s outlet node

or groundwater node be lost whenever that node was converted to

another type using the study area map’s right-click popup menu

was fixed.

 

  1. The Statistics Report analyzer was failing to include the last

event in its calculations for some data sets.

 

  1. Additional input validation was added to the Snow Pack editor form.

 

———————-

Build 5.0.011 (7/16/07

———————-

Engine Updates:

 

  1. A bug that prevented Weir and Outlet settings from being

updated after they were changed by control rules was fixed

(see link.c).

 

  1. The control setting for a Weir was not being accounted

for when computing an equivalent orifice coefficient for

surcharged flow or when computing flow through a V-notch

weir (see link.c).

 

  1. The reported depth of flow through a Weir was not taking into

account the Weir’s control setting (see link.c).

 

  1. An update made in 5.0.010 to how ponded depths and volumes are

computed under dynamic wave flow routing was corrected (see

dynwave.c).

 

  1. The equations used to mix the quality of runon, rainfall and

ponded water over a subcatchment were revised to prevent

numerical instability at very low volumes (see subcatch.c).

 

  1. Missing values in NCDC rainfall files that use the ‘M’ flag

are now added to the total number of missing records reported

(see rain.c).

 

GUI Updates

 

  1. A bug introduced in release 5.0.010 that neglected to place

quotation marks around Map Labels and backdrop file names

(which can have spaces in them) when a project was saved to

file and which caused problems when the project was re-opened

has been fixed.

 

 

———————–

Build 5.0.010 (6/19/07)

———————–

Engine Updates:

 

  1. All “float” variables were re-declared as “doubles”

(except for those variables written to binary interface

files) and the engine was re-compiled using the Microsoft

VC++ 2005 compiler.

 

  1. A new NO ROUTING option was added which allows a run to

ignore any flow routing and only compute runoff (see

swmm5.c, keywords.c, stats.c, and enums.h).

 

  1. A new type of pump, an Ideal Pump, was added which pumps at a

rate equal to the inflow to its inlet node and does not use a

pump curve (see enums.h, link.c, and flowrout.c).

 

  1. A new type of conduit shape, a Custom Shape, was added which

allows users to define their own cross-sectional geometry for

closed conduits. To implement this feature, a new type of curve,

a Shape Curve, was added which records how the width of the

cross-section varies with height. (See keywords.c, link.c,

project.c, report.c, shape.c, xsect.c, enums.h, funcs.h,

globals.h, objects.h, and text.h).

 

  1. Another new type of conduit shape, a Circular Force Main, was

added. It is a circular pipe that uses either the Hazen-Williams

or Darcy-Weisbach equations, instead of the Manning equation,

for pressurized flow only. The Hazen-Williams C-factor or the

Darcy-Weisbach roughness height is one of the shape’s parameters.

The choice of which equation to use (for Force Mains only) is a

new global option. (See project.c, forcmain.c, dynwave.c,

keywords.c, link.c, xsect.c, enums.h, globals.h and text.h).

 

  1. Pumps can now have startup and shutoff inlet node depths supplied

directly as part of a pump’s properties rather than as part of a

control rule. (See link.c, routing.c, objects.h, and funcs.h).

 

  1. Orifices can now have timed gate openings and closings as in

SWMM 4 (i.e., the SWMM 4 ORATE parameter). (See link.c and

objects.h).

 

  1. Unit Hydrographs used for RDII inflows can now have an initial

abstraction loss associated with them. Consult the Users Manual

or the Help file for details. (See rdii.c and objects.h).

 

  1. A new criterion was added to determine when a conduit has

supercritical flow and therefore normal flow conditions

might apply. It is based on both water surface slope and

the Froude number (as opposed to just one or the other).

(See dynwave.c, project.c, keywords.c, enums.h, and text.h).

 

  1. A Flow Instability Index is now computed for each non-pump link.

It counts the number of time steps in which the link’s flow is

either higher or lower than the flows at the previous and next

time steps. The Status Report lists the links with the five

highest indexes. (See objects.h, stats.c, and report.c).

 

  1. Node volumes are now initialized to take account of any initial

ponding that may be implied by the node depth stored in a hot

start file (see flowrout.c).

 

  1. The area corrections to the inlet and outlet loss terms under

dynamic wave flow routing that were introduced in Build 5.0.008

were removed (see dynwave.c).

 

  1. To comply more closely with standard hydraulic practice, the

head across an orifice is now computed with respect to the

midpoint of its opening, rather than to the bottom. Also,

orifices are now treated the same as weirs in terms of not

contributing any surface area to their end nodes (see link.c

and dynwave.c).

 

  1. The partly opened setting for an orifice is now interpreted as

fraction of the full orifice opening height available rather

than as the fraction of the full area available. Also, the

equivalent discharge coefficient for a partly full orifice is

now re-computed whenever the setting of the orifice changes

(see link.c).

 

  1. In kinematic wave flow routing, when a conduit’s inflow is

limited to its maximum normal flow, its corresponding inflow

area is now correctly normalized to the full flow area (see

kinwave.c).

 

  1. For dynamic wave flow routing, the criteria used to check if

a node is not full before using its depth to compute a variable

time step was corrected to avoid excessively small time steps

(see dynwave.c).

 

  1. The width v. depth table for circular shapes was expanded to 51

entries to match that of the other tables for this shape (see

xsect.dat).

 

  1. The number of entries in the geometry tables for irregular

cross-sections was increased to 51 entries (see objects.h).

 

  1. For Divider nodes, both end nodes of the diversion link are now

checked to see if one of them is connected to the divider node

(see node.c).

 

  1. Conditions on Outlet links are now correctly recognized in control

rule statements and an error message is now generated if more than

one rule clause is placed on the same line (see controls.c).

 

  1. When the Ignore Rainfall option is used, a rain gage’s rainfall is

now properly initialized to 0 to prevent a spurious rainfall value

from being reported (see gage.c).

 

  1. An explicit check is now made in the engine (which already exists

in the GUI) to see if the ID name of the outlet of a subcatchment

exists as both a node and a subcatchment. If so, then Error 108

is thrown. (See subcatch.c).

 

  1. The column in the Node Depth Summary of the Status Report that

previously displayed the total volume of ponded water at each

node (but was labelled “Total Flooding”) now displays the maximum

volume of ponded water at each node and is labelled “Max Vol. Ponded”.

Also, flow values appearing in the Status Report’s tables were expanded

to 3 decimal places for MGD and CMS units, and an additional

decimal place was added to ponded area and conduit length in the

report’s Input Summary tables (see stats.c and report.c).

 

  1. When a node is ponded under dynamic wave routing, the water depth

is now always set equal to the ponded depth rather than the smaller

of the ponded and dynamic depths (see dynwave.c).

 

  1. A more efficient way of processing the mathematical expressions

used in treatment functions has been implemented (see mathexpr.h,

mathexpr.c, and objects.h).

 

  1. A bug in the Groundwater routine that allowed infiltration to

continue even when the entire groundwater table was saturated was

fixed as was a metric units conversion error on computed groundwater

flow (see gwater.c).

 

  1. The locations of the left and right overbank stations for an

irregular channel transect are now adjusted by the Station Modifier

multiplier, in the same way as all of the other station locations

across the transect are.

 

  1. An error in computing the flow contribution of the triangular

ends of a trapezoidal weir was corrected (see link.c).

 

  1. A roundoff error under kinematic wave and steady flow routing that

sometimes caused nodes to be incorrectly reported as ponded was

fixed (see flowrout.c).

 

GUI Updates:

 

  1. A “Tools” item was added to SWMM’s main menu. The existing menu

options to set Program Preferences and Map Display Options were

moved there. In addition, it contains a “Configure Tools” option

that can be used register add-in tools with SWMM 5. Consult the

Users Manual or the Help file for more information regarding add-

in tools.

 

  1. A “None” option was added to the choice of routing methods on the

General page of the Simulation Options dialog to accommodate the

new No Routing analysis option.

 

  1. The Property Editor for Pumps was modified to allow the Pump Curve

field to remain blank (or accept a *) to signify the new Ideal type

pump and to accept startup and shutoff depths.

 

  1. The Property Editor for orifices was modified to include a Time To

Close/Open field.

 

  1. The Unit Hydrograph Editor dialog was modified to include the new

Initial Abstraction parameters.

 

  1. The Analysis Options dialog was modified to accommodate the new

supercritical flow criterion.

 

  1. The Cross-Section Editor and the Curve Editor were modified to

accommodate the new Custom cross-section shape feature as well as

the new Circular Force Main shape.

 

  1. The File | Export menu has a new option that, once a run has been

successfully made, will export the node and link results at the

current time period being viewed to a Hotstart file.

 

  1. The popup menu for toggling the map’s Auto-Length feature was

replaced with a check box on the Status Panel.

 

  1. A check box was added to the Map Dimensions dialog to ask if conduit

lengths and subcatchment areas should be recomputed when the Auto-

Length setting is on.

 

  1. The Group Delete feature now offers the option of only deleting

objects with a specific value for their Tag property.

 

  1. Ponded Area was added to the list of node parameters that can be

assigned a default value through the Project >> Defaults menu item.

 

  1. The epaswmm5.ini file that contains a user’s program preferences

is now saved to the users Application Data folder, in a sub-folder

named EPASWMM, rather than to the user’s home folder.

 

  1. Conduit slopes are no longer displayed as absolute values, so that

negative slopes will show up on a thematic display on the study area

map and will also be identified when a map query is made.

 

  1. The bitmap image on the Run speed button was replaced.

 

  1. The automatic identification of a connected path of links between

two nodes specified on the Profile Plot dialog now uses the path

with the smallest number of links.

 

  1. The Study Area Map’s Zoom Out feature no longer uses a zoom out

to previous extent. Instead it zooms out relative to the current

center of the map.

 

  1. The Animator toolbar was made a permanent part of the Map Browser

panel.

 

  1. The operation of the date and time controls on the Map Browser panel

were modified to work correctly with reporting times that are larger

than 1 day.

 

  1. The options on the Map Query dialog were extended to allow one to

identify all nodes on the map that have been assigned a particular

type of external inflow (Direct, Dry Weather, RDII, or Groundwater).

 

 

———————–

Build 5.0.009 (9/19/06)

———————–

Engine Updates:

  1. A climate file in the user-prepared format will no longer

be confused with one using the Canadian format (see

climate.c).

  1. The minimum runoff which can generate pollutant washoff was

changed from 0.001 in/hr to 0.001 cfs (see subcatch.c).

  1. A new RDII event now begins when the duration of a

continuous run of dry weather exceeds the base time of

the longest unit hydrograph rather than arbitrarily being

set at 12 hours (see rdii.c).

  1. Problems with dynamic flow routing through long force mains

connected to Type 3 and Type 4 pumps have been corrected (see

dynwave.c and link.c).

 

GUI Updates:

  1. A problem in displaying profile plots when all elevations

are below zero has been corrected.

 

———————-

Build 5.0.008 (7/5/06)

———————-

Engine Updates:

  1. The conversion from the Horton infiltration drying

time input parameter to an equivalent regeneration

curve constant was corrected.

  1. Pipe invert elevations at outfalls are now measured

relative to the outfall stage elevation rather than

the outfall’s invert elevation.

  1. Entrance/exit minor loss terms for dynamic wave flow

routing are now adjusted by the ratio of the mid-point

to entrance/exit areas to improve the energy balance.

  1. A possible error in computing flow depth from head when

checking the normal flow limitation based on the Froude

number for dynamic wave flow routing was corrected.

  1. A potential problem with converting the units of rainfall

read from an external file was corrected.

  1. The equivalent length of orifices and weirs was changed

from being a minimum of 200 ft to a maximum of 200 ft.

  1. Problems in displaying washoff mass balance results for

pollutants expressed as Counts/Liter were fixed.

  1. The reporting of total system maximum runoff rate in the

Status Report’s Subcatchment Runoff Summary table has been

corrected.

  1. The subcatchment pollutant washoff process was

reprogrammed to provide more rigorous mass balance

results for the case where runoff from one subcatchment

is routed over another subcatchment or when there is

direct deposition from rainfall.

  1. Checks for non-negative conduit offsets and orifice/

weir/outlet heights have been added.

  1. A constant value and a scaling factor have been added to

Direct External inflows. See the Inflows Editor – Direct

Page topic in the Help file for more details.

  1. A listing of total washoff loads for each pollutant for

each subcatchment has been added to the Status Report.

  1. A new summary table of Node Inflows and Flooding has been

added to the Status Report.

  1. A new summary table of Outfall flows and pollutant loads

has been added to the Status Report.

  1. The 5.0.006 Engine Update #12 has been revoked.

 

GUI Updates:

  1. The Inflows Editor was modified to accommodate the baseline

and scaling parameters added to direct external inflows.

  1. The .INI file that saves a user’s program preferences is now

saved to the user’s home directory rather than the SWMM

installation directory.

  1. The Select All command was extended to apply to the Status

Report display.

  1. A new text file viewer component was used for the Status

Report to speed up the display of the report’s contents.

  1. A formating error on the Horizontal Axis page of the Graph

Options dialog form was corrected. This required making

changes to the custom Chart Dialog component that is included

with the GUI’s source code.

  1. Some cosmetic changes were made to the look of Tabular

reports.

  1. Type 3 pump curves (head v. flow) are now displayed with

head on the vertical axis and flow on the horizontal axis

when the View option is selected in the Curve Editor dialog.

 

 

———————–

Build 5.0.007 (3/10/06)

———————–

Engine Updates:

  1. An “Ignore Rainfall” analysis option was added that causes

the program to only consider user-supplied external inflow

time series and dry weather flows and ignore any rainfall

inputs that would otherwise produce runoff.

  1. The hydraulic radius calculations for Rectangular-Closed,

Rectangular-Triangular, and Rectangular-Round conduit shapes

were modified to account for the increase in wetted perimeter

that occurs under full flow due to the top surface.

  1. Refinements were made in several places in the code that need

to distinguish between Full Flow and Maximum Flow conditions in

closed conduits.

  1. The code now properly accounts for the case where the depth at

which the maximum normal flow occurs through an irregular shaped

cross section is less than the full depth.

  1. The final volume of any ponded water (caused by node flooding)

is now included in the reported flow continuity error.

  1. Peak runoff flow was added to the Subcatchment Summary table

in the Status Report.

  1. Non-conduit links are now included in the Link Flow Summary table

of the Status Report.

 

GUI Updates:

  1. The Maximum Depth field in the Property Editor for a conduit with

an irregular shape now shows the correct value for any set of

transect elevation values.

  1. The “Save Profile to File” button is now enabled when the user

manually adds a specified set of links to the Profile Plot dialog.

  1. Link Flow Depth and Link Velocity have been added as choices for

calibration variables.

  1. The way that non-conduit links are displayed on profile plots was

changed to avoid problems that occurred for weirs and orifices with

crest heights above the node invert.

  1. A problem with the way that the Group Editing function was handling

the case of irregular shaped cross sections was fixed.

 

 

————————-

Build 5.0.006a (10/19/05)

————————-

Engine Updates:

  1. The formula for snow melt rate during periods with rainfall

was corrected to return its value in ft/sec rather than in/hr.

  1. A problem with generating routing interface files for systems

with just nodes and no links was corrected.

 

GUI Updates:

  1. Numerical precision problems in computing centroids for

subcatchments with very small distances between vertices

were fixed.

  1. A problem with no calibration data being shown on a time

series graph when some of the data were outside the range

of the graph was fixed.

  1. A problem with calibration data represented as dates (not

elapsed time) being shifted one reporting period over in

time series graphs that used elapsed time was fixed.

 

 

———————-

Build 5.0.006 (9/5/05)

———————-

Engine Updates:

  1. A new summary table of maximum volumes and outflow rates

for each storage unit has been added to the Status Report.

  1. The SWMM 4 BC parameter, which specifies a minimum groundwater

table elevation for groundwater flow to occur, was added as an

optional groundwater flow parameter. If not provided then as

before, the invert of the receiving node defines the minimum

groundwater table elevation for flow to begin.

  1. A new option was added to the Action clause of a control rule that

allows the control setting for pumps, orifices, weirs, and outlets

to be defined either by a curve (of setting versus node depth, for

example) or by a time series. See the “Modulated Controls” topic

in the Help file for more details.

  1. The problem with interior nodes being mistaken for outfall nodes

(depending on the orientation of the connecting links) under water

quality analyses was fixed.

  1. Geometry tables for standard size elliptical pipes were added

(the standard size code number in the input file was being mistaken

for an actual dimension).

  1. Storage curves of area versus depth are now linearly extrapolated

when a depth exceeds the table limit (as in SWMM 4) rather than just

keeping the area constant.

  1. Evaporation is no longer computed from a storage unit when it

becomes dry.

  1. In water quality routing, concentrations in storage units are now

adjusted to reflect any evaporation loss over each time step.

  1. It is now permissible to use the same hotstart file to both provide

initial values for a run and to save the final values from a run.

  1. The code was modified to be able to read evaporation values from a

climate file during runs where no runoff computations are being

made (previously any evaporation in such files was being ignored in

data sets with no subcatchments).

  1. A problem in the way that water quality was being routed through

dummy conduits was fixed.

  1. For pollutant treatment functions that define fractional removal in

a storage unit node as a function of concentration, the concentration

used is now the inflow concentration into the node (as is done for

non-storage nodes), rather than the concentration in the storage unit.

  1. The global first-order decay reaction assigned to specific pollutants

is not applied to any storage unit that has a treatment function

defined for the pollutant.

  1. The total moisture available for infiltration at each time step of

the runoff process now has evaporation subtracted from it before

infiltration is computed.

  1. Corrections were made to the way that the water volume in the upper

soil zone is depeleted during dry periods under Green- Ampt

infiltration.

  1. A climate file is now positioned to begin reading at the start of the

simulation period (rather than the start of the file) unless the user

supplies a specific starting date to begin reading from the file.

  1. A fatal error is now generated if the end of a climate file is reached

when seeking climate data during a run (rather than just maintaining

the same climate values for the remainder of the run).

  1. The Node and Conduit flow statistics that appear in the Status Report

are now only collected over the reporting period of the simulation,

not the entire period (as would be the case when the user specifies

a Report Start Date that comes after the Simulation Start Date).

  1. The computation of the initial and final groundwater storage volumes

used in the Groundwater Continuity table were corrected. This error

only affected the continuity numbers and not the computed flows and

water table levels.

 

GUI Updates:

  1. The File >> Reopen command will now list up to 10 most recently used

files.

  1. Map coordinates are now displayed with 3 decimal places in the Status

Bar.

  1. The File >> Preferences dialog now contains a “Prompt to Save Results”

option. If left unchecked, simulation results will always be saved when

a project file is closed and will be available for viewing the next

time the project is opened.

  1. A “Report Elapsed Time by Default” option was also added to the File >>

Preferences dialog. If checked, then time series graphs and tables will

default to using elapsed time, rather than date/time, as the time

variable. This choice can always be changed in the dialog box that

appears when a graph or table is first created.

  1. Additional reporting variables were added to the list of parameters

for which Calibration Files can be used (e.g., groundwater elevation,

node flooding, etc.).

  1. Percent impervious was added to the list of subcatchment themes that

can be viewed on the Study Area Map.

  1. An Exceedance Frequency plot panel was added to the output produced

when a Statistics report is generated.

  1. Users can now add, delete, or re-position items in the list of

links selected for a Profile Plot in the Profile Plot dialog using a

new set of buttons added to the dialog. Links are added to the list

by selecting the link either on the Map or from the Data Browser and

then clicking the PLUS button on the dialog.

  1. Profile Plots can now be generated before any simulation results are

available. They include an Update button that allows one to update

the plot after editing changes have been made to any nodes or links

contained in the plot.

  1. The Edit >> Find menu command (and its associated speed button) was

split into two sub-commands, one for finding objects on the map (as

before) and another for finding text within a Status Report.

  1. Problems with the wrong data fields sometimes being updated in the

Group Editor were fixed.

  1. The Interface File Combine utility was not working at all (the format

of the interface file had changed since the original code was written).

This has been fixed.

  1. The centroids of subcatchment polygons on the map are now computed as

true centroids rather than being merely the average of the vertex

coordinates.

  1. The Maximum Depth property is now preserved when a storage unit is

converted to a junction (by right-clicking on it and selecting

Convert To from the popup menu).

  1. Map and Profile Plot animation is now turned off whenever the Animator

Toolbar is closed.

  1. More universal support was provided for entering numerical values in

scientific notation throughout the GUI’s various data entry fields.

  1. Display problems with zoom-ins on the preview plots of Transects,

Curves, and Time Series in their respective Editor dialogs were fixed.

  1. In the GUI source code:
  2. The custom TOpenTextFileDialog component was renamed to

TOpenTxtFileDialog so as not to conflict with a Delphi 2005

component of the same name.

  1. The custom ChartDlg component was modified to add support for a

chart axis that uses Date/Time labels.

  1. A new unit named Ucalib.pas was added that includes the code for

reading data from Calibration Files that was previously contained

in the Fgraph.pas unit.

  1. The Delphi DFM files for the project are now packaged as text

files, not binaries, in the source code distribution.

 

 

————————

Build 5.0.005b (6/15/05)

————————

Engine Updates:

  1. The end node offsets for conduits with the partly filled

circular cross-section shape were not being increased to

account for the depth of fill.

  1. Flow through a weir was not necessarily zero when the

water level on the side of the weir at higher head was

zero.

  1. The “crest height” for a Bottom Orifice is now

interpreted as having the orifice lie in a horizontal

plane the specified distance above its upstream node’s

invert. This allows riser outlet pipes in storage units

to be simulated.

 

GUI Updates:

  1. The keyword “WEIR” was not being recognized as a

legitimate type of Flow Divider node by the GUI’s

input data file parser.

  1. The Profile Plot could display hydraulic grade lines

that dropped below the invert of a conduit.

 

 

————————

Build 5.0.005a (5/25/05)

————————

Engine Updates:

  1. An erroneous error message that appears when a node has

multiple outflow links with one of them being an Outlet

link has been fixed.

 

GUI Updates:

  1. Corrections were made for the way a Profile Plot is

drawn when negative elevation values occur.

 

 

————————

Build 5.0.005 (5/20/05)

————————

Engine Updates:

  1. An error in computing ponded depths at flooded nodes under

Dynamic Wave flow routing was corrected.

  1. The wrong lookup function was being used to find water

elevations at Time Series type outfall nodes.

  1. An error in interpolating values stored on a routing interface

file was corrected.

  1. The rainfall file reader was confusing the standard space-

delimted format with other file formats.

  1. A reporting error for rainfall time series that had no ending

zero value was corrected.

  1.  A problem with neglecting to compute a snowmelt coefficient

for pervious areas was fixed.

  1. The keyword for specifying that pollutant buildup be normalized

to curb length was modified to accept either CURB or CURBLENGTH.

  1. The conversion factor the user supplies for external pollutant

mass inflows must now convert time series values into mass

concentration units per second (e.g., 5.25 will convert from lbs/

day to mg/sec). Flow units are no longer part of the conversion.

  1. The ratio of maximum to design flow listed for each conduit in

the status report was corrected to account for the number of

barrels included in the conduit.

  1. The minimum elevation change applied to a flat conduit was

changed to 0.001 feet, as used in SWMM 4.

  1. The maximum depth of an irregular cross-section transect is now

based on the highest elevation of all stations, rather than just

the higher of the first and last station, and vertical walls

extending up to the higest elevation are added at the first and

last station if need be.

  1. The nominal width property of an irregular cross-section transect

is now taken as the top width at full depth rather than the

maximum width over all depths.

  1. At outfalls where the user-specified water elevation is below

that of a free outfall, the free outfall elevation is now used.

  1. A new property, the maximum allowable flow, was added to the

Conduit object. The default value is 0.0, which indicates that

no maxmimum flow is prescribed.

  1. Depths at outfall nodes under Steady and Kinematic Wave flow

routing are now reported as the depth in the connecting

conduit.

  1. The calculation of the head over a non-surcharged, submerged weir

was corrected to be based on the height of water above the weir

crest, rather than the difference in heads on either side of the

weir.

  1. The equation used to reduce the length of a weir with side

contractions was modified to fix a bug in SWMM 4.

  1. A new water quality routing algorithm was written that produces

more robust results under Dynamic Wave flow routing.

  1. The Compatibility Mode option under Dynamic Wave flow routing was

removed. Now there is just a single method used which has been

designed to be compatible with SWMM 4 yet produce more stable

results.

  1. A new dynamic wave routing option was added that determines which

criterion decides when conduit flow is limited to normal flow (it

represents the KSUPER parameter used in SWMM 4).

  1. A new flow routing option was added that allows routing calculations

to be skipped during periods of steady flow which can greatly reduce

the time required for continuous simulations.

 

GUI Updates:

  1. An error in reading the flapgate parameter for Weirs in an input

file was corrected.

  1. Having the Property Editor positioned outside the viewable screen

area when the user changed the video settings to a lower resolution

was corrected.

  1. The Convert To option to change nodes from one type of object to

another was fixed.

  1. The Routing Time Step option is now entered as fractional seconds

on the Analysis Options form. The older format of hrs:min:sec will

still be imported correctly from previous SWMM5 input files.

  1. The ability to include a startup input file on the command line

that launches the GUI was added (add /f filename to the command

line where filename is the fully qualified name of the input file

to start with).

  1. Support for output results files greater than 2 gigabytes was added.
  2. The display of the hydraulic grade line in Profile Plots, and its

intersection with the flow volume in conduits was improved.

  1. The summary results tables contained in the Status Report were

modified to display more useful information.

  1. The graph options selection dialogs were made to behave more

consistently.

  1. Support was added for copying and printing the graphical views of

curves, time series, and transects from within their respective

editors.

  1. The SWMM 4 flow calibration data file (Extran1.dat) distributed with

the example data set Example2.inp was modified to contain the flows

actually produced by SWMM version 4.4h, rather than the original

numbers printed in the 1988 Extran manual.

 

In addition, the SWMM 5.0 Users Manual and Help file were updated to

reflect these changes and new additions.

 

————————

Build 5.0.004 (11/24/04)

————————

Engine Updates:

  1. Fixes were made to the routines that identify and read data from the

NCDC-formatted external rain files.

  1. The sign of reported velocity in links with adverse slope was

corrected.

  1. Reading of results from previously saved Runoff Interface files

was corrected.

  1. The calculation of a regeneration rate constant from a soil drying

time value for Curve Number infiltration was corrected, and the

method was modified to use a constant infiltration capacity during

each rain event, rather than a continuously declining capacity.

  1. A correction was made to the dynamic wave routing routine for

SWMM4 and SWMM3 compatibility modes that improves the match with

Extran results from these earlier versions of SWMM.

  1. The check for zero-sloped conduits was modified to include any

conduit with elevation difference below 0.01 feet.

  1. The computation of the ponded depth at flooded nodes under dynamic

wave flow routing was corrected.

  1. A check was added to make sure that the reporting time step is

not longer than the run duration.

  1. Surcharged and high Froude number conduits were previously excluded

from consideration when computing a variable time step for dynamic

wave routing; they are now included.

  1. The code numbers for the concentration units used for each pollutant

was added to the binary output file produced from a simulation.

 

GUI Updates:

  1. Negative values can now be entered for temperature values that

appear on several input forms.

  1. The input file reader now checks to make sure that the various time-

of-day option values are valid.

  1. A problem with copying the correct dates for a Tabular Report that

is being copied to the clipboard or to a file was corrected.

  1. The Graph Options dialog form was modified to display the Solid

option for Style whenever a Size greater than 1 is selected. (Due

to a limitation of the Graphics library used in EPA SWMM, only

solid lines can be drawn at a thickness greater than 1.)

 

 

————————

Build 5.0.003 (11/10/04)

————————

Engine Updates:

  1. Modifications were made to full depth entries of width tables for

closed rounded cross-section shapes to improve the numerical

stability for dynamic wave flow routing.

  1. Error 405 was added to detect if the size of the binary results

file would exceed the 2.1 Gbyte system limit.

  1. A units problem for RDII inflows under metric flow units was

corrected.

  1. A problem reading the TEMPDIR option when it contained spaces was

corrected.

  1. Support for Canadian DLY02 and DLY04 temperature files was added.
  2. Rule-based control of crest height for weirs was corrected

(previously the control setting adjusted flow rather than the

relative distance between weir crest and crown).

 

GUI Updates:

  1. A problem with the Group Editing feature for conduits was corrected

(the editor would update the wrong conduit parameter).

  1. Execution time for long term simulations on smaller projects was

speeded up considerably by only refreshing the progress meter every

day rather than every minute.

  1. The time to draw time series graphs and perform statistical analyses

on large data sets was considerably shortened.

 

———————–

Build 5.0.002 (11/1/04)

———————–

Engine Updates

  1. Modifications made to the Picard method used for dynamic wave

flow routing routine.

 

————————

Build 5.0.001 (10/29/04)

————————

First official release of SWMM 5.

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