ReleaseNotes2_3.md

Release Notes for EPANET 2.3

This document describes the changes and updates that have been made in version 2.3 of EPANET.

• The check for at least two nodes, one tank/reservoir and no unconnected junction nodes was moved from EN_open to EN_openH and EN_openQ so that partial network data files could be opened by the toolkit.

• A EN_setcurvetype function was added to allow API clients to set a curve's type (e.g., EN_PUMP_CURVE, EN_VOLUME_CURVE, etc.).

• A EN_setvertex function was added to allow API clients to change the coordinates of a single link vertex.

• The indices of a General Purpose Valve (GPV) and a Positional Control Valve (PCV) were added to the list of editable Link Properties using the symbolic constant names EN_GPV_CURVE and EN_PCV_CURVE, respectively.

• The EN_getlinkvalue and EN_setlinkvalue functions were updated to get and set the values of EN_GPV_CURVE and EN_PCV_CURVE.

• Negative pressure values for EN_SETTING are now permitted in the EN_setlinkvalue function.

• The EN_STARTTIME parameter was added into the EN_settimeparam function.

• A EN_DEMANDPATTERN parameter was added as the index of the default time pattern used by demands with no specific pattern assigned. It can be set or retrieved with the EN_setoption and EN_getoption functions, respectively, and is saved to the file when the EN_saveinpfile function is called.

• The EN_getaveragepatternvalue function will now accept a pattern index of zero which represents the constant pattern assigned to junction demands by default.

• The adjustment of a tank's minimum volume (Vmin) when its parameters are changed using EN_setnodevalue or EN_settankdata has been corrected.

• A pump whose status is set to CLOSED in the input file now also has its speed setting set to zero which allows a simple pressure control to activate the pump correctly.

• A failure to raise an error condition for a non-positive pipe roughness in the input file has been fixed.

• The calculation of head loss gradient for low flow conditions was corrected.

• Improved updating and convergence tests were added to pressure-dependent demand analysis.

• Improved checks to prevent outflow from empty tanks or inflow to full (non-overflow) tanks, including the case where a link is connected to a pair of tanks, were added.

• The CI regression test protocol was modified by:

  • changing the absolute tolerance used to compare the closeness of test results to benchmark values from 0 to 0.0001
  • dropping the "correct decimal digits" test
  • dropping the check for identical status report content since it prevents accepting code changes that produce more accurate solutions in fewer iterations.

• A possible loss of network connectivity when evaluating a Pressure Sustaining Valve was prevented.

• Having the implied loss coefficient for an active Flow Control Valve be less than its fully opened value was prevented.

• A new type of valve, a Positional Control Valve (PCV), was added. It uses a valve characteristic curve to relate its loss coefficient to a percentage open setting (parameter - EN_PCV).

• EN_VALVE_CURVE can now be used with the EN_getcurvetype and EN_setcurvetype to get or set the valve position curve.

• A new set of functions has been added to get information about upcoming time step events. Users will now see what type of event is going to cause the end of a time step to occur. See EN_timetonextevent.

• A new set of functions has been added to allow users to set a reporting callback function. The user-supplied function will receive all output normally directed to the report file.

• A EN_EMITBACKFLOW option was added that either allows emitters to have reverse flow through them (the default) or not.

• An incorrect tank elevation value set using EN_settankdata with SI units has been fixed.

• The EN_INITSETTING option in function EN_getlinkvalue will now return EN_MISSING for a valve whose initial status is fixed to EN_OPEN or EN_CLOSED.

• The functions EN_getnodevalue and EN_getlinkvalue now include the options EN_NODE_INCONTROL and EN_LINK_INCONTROL to determine whether a node or link appears in any simple or rule-based control.

• An error is no longer raised when a minor loss coefficient of zero is assigned in EN_setlinkvalue(ph, index, EN_MINORLOSS, 0).

• The incorrect display of unconnected nodes has been fixed.

• A header file for binding C# to the Toolkit has been added.

• A new error code 263 - node is not a tank is returned when EN_settankdata or EN_setnodevalue attempts to set a tank-only parameter for a non-tank node.

• The function EN_saveinpfile was corrected for simple controls on GPV's by saving their status instead of the index of their head loss curve.

• Support was added for Conan dependency manager.

• The internal Qualflag variable is now adjusted when an EPANET input file has a QUALITY option not equal to NONE and a simulation duration of zero.

• Support was added for cubic meters per second (EN_CMS) flow units.

• An EPANET input file with simple timer control that has more than 9 input tokens no longer results in an incorrect hour setting.

• Errors in node and link vertex coordinates are now ignored when reading an EPANET input file.

• Only non-zero demands are now included in the [DEMANDS] section of the input file produced by EN_saveinpfile.

• EN_SET_CLOSED and EN_SET_OPEN constants were added that can be used with EN_setcontrol to fix the status of pipes and valves to completely closed or completely open.

• EN_EMITTERFLOW can now be used with EN_getnodevalue to retrieve a node's emitter flow rate.

• EN_STATUS_REPORT can now be used with EN_getoption and EN_setoption to get or set the type of status report that EPANET will generate (EN_NO_REPORT, EN_NORMAL_REPORT or EN_FULL_REPORT).

• A possible parser error that could result in a Trace Node ID in an input file not being recognized was fixed.

• Additional API functions for enabling/disabling controls and rules were added (EN_getcontrolenabled, EN_setcontrolenabled, EN_getruleenabled, EN_setruleenabled).

• Updated the internal function getclosedlink in report.c to use a loop instead of recursion to prevent a stack overflow during the analysis of very large disconnections.

• Setting the demand multiplier within the [DEMANDS] section of INP has been depreciated, please use DEMAND MULTIPLIER inside [OPTIONS] instead.

• EN_PRESS_UNITS can now be used with EN_getoption and EN_setoption to get or set the pressure unit used in EPANET.

• Continuous barrier functions were added to constrain emitter flows to allowable values.

• The EN_openX function has been added to enable the opening of input files with formatting errors through the API. This allows users to continue using toolkit functions even when such errors are present.

• The EN_getnodesvalues and EN_getlinksvalues were added to retrieve a property value for all nodes or links in the network.

• Fixed a bug in EN_setnodevalue with EN_EMITTER option that could cause NaN results.

• Support has been added for FAVAD (Fixed And Variable Area Discharge) modeling of pipe leaks:

  • A new [LEAKAGE] section has been added to the input file format where each line contains the ID name of a pipe, its leak area in sq. mm per 100 length units, and its leak expansion rate in sq. mm per unit of pressure head.
  • EN_LEAK_AREA and EN_LEAK_EXPAN can be used with the functions EN_getlinkvalue and EN_setlinkvalue to retrieve and assign values for a pipe's leak area and expansion properties.
  • EN_LINK_LEAKAGE can be used with EN_getlinkvalue to retrieve a pipe's leakage rate at a given point in time.
  • EN_LEAKAGEFLOW can be used with EN_getnodevalue to retrieve the leakage demand generated at a node from all its connecting pipes at a given point in time.
  • EN_LEAKAGELOSS can be used with EN_getstatistic to retrieve the the total leakage loss in the system at a given point in time as a percentage of total flow entering the system.

• A new Flow Balance Report has been added to end of a simulation run's Status Report that lists the various components of the system's total inflow and outflow over the simulation period. It also displays the ratio of outflow to inflow as a check on flow continuity.

• The following constants can be used with EN_getnodevalue to retrieve the components of a node's total demand at a given point in time:

  • EN_FULLDEMAND - the consumer demand requested
  • EN_DEMANDFLOW - the consumer demand delivered
  • EN_DEMANDDEFICIT - the difference between the consumer demand requested and delivered
  • EN_EMITTERFLOW - the node's emitter flow
  • EN_LEAKAGEFLOW - the node's leakage flow
  • EN_DEMAND - the sum of the node's consumer demand, emitter flow, and leakage flow