[TRNSYS-users] SDHW

[Ivan Tombolato <ivan.tombolato@gmail.com>]

Hello every one

Please check the attached file to help me to resolve the problem included in this simple SDHW project.

 

Thanks

Ivan Tombolato

TRNSYS - the TRaNsient SYstem Simulation program
The Solar Energy Lab at the University of Wisconsin - Madison, USA
Le Centre Scientifique et Technique du Batiment, Sophia Antipolis, France
Transsolar Energietechnik GmBH, Stuttgart, Germany
Thermal Energy System Specialists, Madison Wisconsin, USA
Release 16.01.0002
Listing file for: "C:\Program Files\Trnsys16\Examples\SDHW\SDHW.dck"
*** Notice at time : 0.000000
Generated by Unit : Not applicable or not available
Generated by Type : Not applicable or not available
Message : The TRNSYS Executable (TRNExe.exe) and main DLL (TRNDll.dll) are located in "C:\Program Files\Trnsys16\Exe"
*** Pre-Processing the TRNSYS EQUATIONs and CONSTANTs to check for fatal errors.
*** Pre-Processing of EQUATIONs and CONSTANTs completed with no fatal errors found.
*** Evaluating the EQUATIONs and CONSTANTs to determine their initial values.
*** Finished evaluating the EQUATIONs and CONSTANTs and ready to begin processing the remainder of the TRNSYS input file.
VERSION 16
*******************************************************************************
*** TRNSYS input file (deck) generated by TrnsysStudio
*** on mercoledì, giugno 09, 2010 at 12:21
*** from TrnsysStudio project: C:\Program Files\Trnsys16\Examples\SDHW\SDHW-1.TPF
***
*** If you edit this file, use the File/Import TRNSYS Input File function in
*** TrnsysStudio to update the project.
***
*** If you have problems, questions or suggestions please contact your local
*** TRNSYS distributor or mailto:software@cstb.fr
***
*******************************************************************************
*******************************************************************************
*** Units
*******************************************************************************
*******************************************************************************
*** Control cards
*******************************************************************************
* START, STOP and STEP
CONSTANTS 3
START=1
STOP=8760
STEP=1
* User defined CONSTANTS
*					SIMULATION Start time	End time	Time step
SIMULATION 1.0000000000000000E+00 8.7600000000000000E+03 1.0000000000000000E+00
*					Integration	Convergence
TOLERANCES 1.0000000000000002E-03 1.0000000000000002E-03
*					Max iterations	Max warnings	Trace limit
LIMITS 30 30 31
*					TRNSYS numerical integration solver method
DFQ 1
*					TRNSYS output file width, number of characters
WIDTH 80
*					NOLIST statement
LIST
*					MAP statement
MAP
*					Solver statement	Minimum relaxation factor	Maximum relaxation factor
SOLVER 0
01.00.00
01.00.00
*					DEBUG statement
NAN_CHECK 0
OVERWRITE_CHECK 0
TIME_REPORT 0
*					EQUATION SOLVER statement
EQUATION SOLVING METHOD 1
* Model "Weather" (Type 109)
*
UNIT 2 TYPE 109 Weather
*$UNIT_NAME Weather
*$MODEL .\Weather Data Reading and Processing\Standard Format\TMY2\Type109-TMY2.tmf
*$POSITION 103 129
*$LAYER Weather / Data Files # Weather - Data Files #
PARAMETERS 4
* 1 Data Reader Mode
* 2 Logical unit
* 3 Sky model for diffuse radiation
* 4 Tracking mode
2.0000000000000000E+00 4.0000000000000000E+01 4.0000000000000000E+00 1.0000000000000000E+00
INPUTS 3
* [unconnected] Ground reflectance
* [unconnected] Slope of surface
* [unconnected] Azimuth of surface
CONST CONST CONST
*** INITIAL INPUT VALUES
2.0000000000000001E-01 4.5000000000000000E+01 0.0000000000000000E+00
*** External files
ASSIGN ..\..\Weather\Meteonorm\Europe\CH-Zuerich-Kloten-66700.tm2 40
*|? Weather data file |1000
*------------------------------------------------------------------------------
* Model "Collectors" (Type 1)
*
UNIT 3 TYPE 1 Collectors
*$UNIT_NAME Collectors
*$MODEL .\Solar Thermal Collectors\Quadratic Efficiency Collector\2nd-Order Incidence Angle Modifiers\Type1b.tmf
*$POSITION 435 210
*$LAYER Main #
PARAMETERS 11
* 1 Number in series
* 2 Collector area
* 3 Fluid specific heat
* 4 Efficiency mode
* 5 Tested flow rate
* 6 Intercept efficiency
* 7 Efficiency slope
* 8 Efficiency curvature
* 9 Optical mode 2
* 10 1st-order IAM
* 11 2nd-order IAM
1.0000000000000000E+00 5.0000000000000000E+00 4.1899999999999995E+00 1.0000000000000000E+00 4.0000000000000000E+01
8.0000000000000004E-01 1.3000000000000000E+01 5.0000000000000003E-02 2.0000000000000000E+00 2.0000000000000001E-01
0.0000000000000000E+00
INPUTS 9
* Pump:Outlet fluid temperature ->Inlet temperature
* Pump:Outlet flow rate ->Inlet flowrate
* Weather:Ambient temperature ->Ambient temperature
* Weather:total radiation on tilted surface ->Incident radiation
* Weather:total radiation on horizontal ->Total horizontal radiation
* Weather:sky diffuse radiation on horizontal ->Horizontal diffuse radiation
* [unconnected] Ground reflectance
* Weather:angle of incidence for tilted surface ->Incidence angle
* Weather:slope of tilted surface ->Collector slope
4,1 4,2 2,1 2,18 2,12
2,14 CONST 2,22 2,23
*** INITIAL INPUT VALUES
2.0000000000000000E+01 1.0000000000000000E+02 1.0000000000000000E+01 0.0000000000000000E+00 0.0000000000000000E+00
0.0000000000000000E+00 2.0000000000000001E-01 4.5000000000000000E+01 0.0000000000000000E+00
*------------------------------------------------------------------------------
* Model "Pump" (Type 3)
*
UNIT 4 TYPE 3 Pump
*$UNIT_NAME Pump
*$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf
*$POSITION 297 230
*$LAYER Main #
PARAMETERS 5
* 1 Maximum flow rate
* 2 Fluid specific heat
* 3 Maximum power
* 4 Conversion coefficient
* 5 Power coefficient
2.0000000000000000E+02 4.1899999999999995E+00 2.4000000000000000E+02 5.0000000000000003E-02 5.0000000000000000E-01
INPUTS 3
* Tank:Temperature to heat source ->Inlet fluid temperature
* Tank:Flowrate to heat source ->Inlet mass flow rate
* Type2b:Output control function ->Control signal
7,1 7,2 6,1
*** INITIAL INPUT VALUES
2.0000000000000000E+01 1.0000000000000000E+02 1.0000000000000000E+00
*------------------------------------------------------------------------------
* Model "Type2b" (Type 2)
*
UNIT 6 TYPE 2 Type2b
*$UNIT_NAME Type2b
*$MODEL .\Controllers\Differential Controller w_ Hysteresis\for Temperatures\Solver 0 (Successive Substitution) Control Strategy\Type2b.tmf
*$POSITION 345 314
*$LAYER Controls #
*$# NOTE: This control strategy can only be used with solver 0 (Successive substitution)
*$#
PARAMETERS 2
* 1 No. of oscillations
* 2 High limit cut-out
5.0000000000000000E+00 1.0000000000000000E+02
INPUTS 6
* Collectors:Outlet temperature ->Upper input temperature Th
* Tank:Temperature to heat source ->Lower input temperature Tl
* Tank:Temperature to load ->Monitoring temperature Tin
* Type2b:Output control function ->Input control function
* [unconnected] Upper dead band dT
* [unconnected] Lower dead band dT
3,1 7,1 7,3 6,1 CONST
CONST
*** INITIAL INPUT VALUES
2.0000000000000000E+01 2.0000000000000000E+01 2.0000000000000000E+01 0.0000000000000000E+00 1.0000000000000000E+01
2.0000000000000000E+00
*------------------------------------------------------------------------------
* Model "Tank" (Type 4)
*
UNIT 7 TYPE 4 Tank
*$UNIT_NAME Tank
*$MODEL .\Thermal Storage\Stratified Storage Tank\Variable Inlets\Uniform Losses\Type4c.tmf
*$POSITION 519 399
*$LAYER Water Loop #
PARAMETERS 25
* 1 Variable inlet positions
* 2 Tank volume
* 3 Fluid specific heat
* 4 Fluid density
* 5 Tank loss coefficient
* 6 Height of node-1
* 7 Height of node-2
* 8 Height of node-3
* 9 Height of node-4
* 10 Height of node-5
* 11 Height of node-6
* 12 Auxiliary heater mode
* 13 Node containing heating element -1
* 14 Node containing thermostat -1
* 15 Set point temperature for element-1
* 16 Deadband for heating element-1
* 17 Maximum heating rate of element -1
* 18 Node containing heating element -2
* 19 Node containing thermostat -2
* 20 Set point temperature for element-2
* 21 Deadband for heating element-2
* 22 Maximum heating rate of element -2
* 23 Not used (Flue UA)
* 24 Not used (Tflue)
* 25 Boiling point
2.0000000000000000E+00 3.0000000000000004E-01 4.1899999999999995E+00 1.0000000000000000E+03 2.5000000000000000E+00
3.0000000000000004E-01 3.0000000000000004E-01 3.0000000000000004E-01 3.0000000000000004E-01 3.0000000000000004E-01
3.0000000000000004E-01 1.0000000000000000E+00 1.0000000000000000E+00 1.0000000000000000E+00 6.0000000000000000E+01
5.0000000000000000E+00 9.0000000000000000E+03 1.0000000000000000E+00 1.0000000000000000E+00 6.0000000000000000E+01
5.0000000000000000E+00 9.0000000000000000E+03 0.0000000000000000E+00 2.0000000000000000E+01 1.0000000000000000E+02
INPUTS 7
* Collectors:Outlet temperature ->Hot-side temperature
* Collectors:Outlet flowrate ->Hot-side flowrate
* Diverter:Temperature at outlet 1 ->Cold-side temperature
* Diverter:Flowrate at outlet 1 ->Cold-side flowrate
* [unconnected] Environment temperature
* [unconnected] Control signal for element-1
* [unconnected] Control signal for element-2
3,1 3,2 11,1 11,2 CONST
CONST CONST
*** INITIAL INPUT VALUES
4.5000000000000000E+01 0.0000000000000000E+00 1.5000000000000000E+01 0.0000000000000000E+00 2.0000000000000000E+01
1.0000000000000000E+00 0.0000000000000000E+00
DERIVATIVES 6
* 1 Initial temperature of node-1
* 2 Initial temperature of node-2
* 3 Initial temperature of node-3
* 4 Initial temperature of node-4
* 5 Initial temperature of node-5
* 6 Initial temperature of node-6
6.0000000000000000E+01 5.0000000000000000E+01 4.0000000000000000E+01 3.0000000000000000E+01 2.0000000000000000E+01
1.5000000000000000E+01
*------------------------------------------------------------------------------
* Model "Plotter 1" (Type 65)
*
UNIT 5 TYPE 65 Plotter 1
*$UNIT_NAME Plotter 1
*$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf
*$POSITION 727 129
*$LAYER Outputs #
PARAMETERS 12
* 1 Nb. of left-axis variables
* 2 Nb. of right-axis variables
* 3 Left axis minimum
* 4 Left axis maximum
* 5 Right axis minimum
* 6 Right axis maximum
* 7 Number of plots per simulation
* 8 X-axis gridpoints
* 9 Shut off Online w/o removing
* 10 Logical Unit for output file
* 11 Output file units
* 12 Output file delimiter
2.0000000000000000E+00 2.0000000000000000E+00 0.0000000000000000E+00 1.5000000000000000E+02 0.0000000000000000E+00
5.0000000000000000E+03 1.0000000000000000E+00 7.0000000000000000E+00 0.0000000000000000E+00 3.5000000000000000E+01
0.0000000000000000E+00 0.0000000000000000E+00
INPUTS 4
* Pump:Outlet fluid temperature ->Left axis variable-1
* Collectors:Outlet temperature ->Left axis variable-2
* Weather:total radiation on tilted surface ->Right axis variable-1
* Collectors:Outlet flowrate ->Right axis variable-2
4,1 3,1 2,18 3,2
*** INITIAL INPUT VALUES
TiColl ToColl GColl mdCol l
LABELS 3
Temperatures
Heat transfer rates
Weather - Solar Loop
*** External files
ASSIGN C:\Program Files\Trnsys16\Examples\SDHW\SDHW.plt 35
*|? What file should the online print to? |1000
*------------------------------------------------------------------------------
* Model "Plotter 2" (Type 65)
*
UNIT 8 TYPE 65 Plotter 2
*$UNIT_NAME Plotter 2
*$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf
*$POSITION 722 399
*$LAYER Outputs #
PARAMETERS 12
* 1 Nb. of left-axis variables
* 2 Nb. of right-axis variables
* 3 Left axis minimum
* 4 Left axis maximum
* 5 Right axis minimum
* 6 Right axis maximum
* 7 Number of plots per simulation
* 8 X-axis gridpoints
* 9 Shut off Online w/o removing
* 10 Logical Unit for output file
* 11 Output file units
* 12 Output file delimiter
7.0000000000000000E+00 4.0000000000000000E+00 0.0000000000000000E+00 1.0000000000000000E+02 0.0000000000000000E+00
1.0000000000000000E+04 1.0000000000000000E+00 7.0000000000000000E+00 0.0000000000000000E+00 3.7000000000000000E+01
0.0000000000000000E+00 0.0000000000000000E+00
INPUTS 11
* Tank:Temperature to load ->Left axis variable-1
* Tank:Temperature of node 1+-1 ->Left axis variable-2
* Tank:Temperature of node 1+-2 ->Left axis variable-3
* Tank:Temperature of node 1+-3 ->Left axis variable-4
* Tank:Temperature of node 1+-4 ->Left axis variable-5
* Tank:Temperature to heat source ->Left axis variable-6
* Tee piece:Outlet temperature ->Left axis variable-7
* Tank:Auxiliary heating rate ->Right axis variable-1
* Tee piece:Outlet flow rate ->Right axis variable-2
* Diverter:Flowrate at outlet 1 ->Right axis variable-3
* Diverter:Flow rate at outlet 2 ->Right axis variable-4
7,3 7,13 7,14 7,15 7,16
7,1 12,1 7,8 12,2 11,2
11,4
*** INITIAL INPUT VALUES
TTop T2 T3 T4 T5
TBottom TDHW QAux mdDHW mdTank
mdByPass
LABELS 3
Temperatures
Heat transfer rates
Tank
*** External files
ASSIGN C:\Program Files\Trnsys16\Examples\SDHW\SDHW.pl2 37
*|? What file should the online print to? |1000
*------------------------------------------------------------------------------
* Model "Diverter" (Type 11)
*
UNIT 11 TYPE 11 Diverter
*$UNIT_NAME Diverter
*$MODEL .\Hydronics\Tempering Valve\Other Fluids\Type11b.tmf
*$POSITION 539 501
*$LAYER Water Loop #
PARAMETERS 2
* 1 Tempering valve mode
* 2 Nb. of oscillations allowed
4.0000000000000000E+00 7.0000000000000000E+00
INPUTS 4
* Equa:Tcold ->Inlet temperature
* Type9a:Output 1 ->Inlet flow rate
* Tank:Temperature to load ->Heat source temperature
* [unconnected] Set point temperature
TCOLD 24,1 7,3 CONST
*** INITIAL INPUT VALUES
2.0000000000000000E+01 1.0000000000000000E+02 5.5000000000000000E+01 4.5000000000000000E+01
*------------------------------------------------------------------------------
* Model "Tee piece" (Type 11)
*
UNIT 12 TYPE 11 Tee piece
*$UNIT_NAME Tee piece
*$MODEL .\Hydronics\Tee-Piece\Other Fluids\Type11h.tmf
*$POSITION 642 293
*$LAYER Water Loop #
PARAMETERS 1
* 1 Tee piece mode
1.0000000000000000E+00
INPUTS 4
* Tank:Temperature to load ->Temperature at inlet 1
* Tank:Flowrate to load ->Flow rate at inlet 1
* Diverter:Temperature at outlet 2 ->Temperature at inlet 2
* Diverter:Flow rate at outlet 2 ->Flow rate at inlet 2
7,3 7,4 11,3 11,4
*** INITIAL INPUT VALUES
2.0000000000000000E+01 1.0000000000000000E+02 2.0000000000000000E+01 1.0000000000000000E+02
*------------------------------------------------------------------------------
* Model "Daily Integration" (Type 24)
*
UNIT 13 TYPE 24 Daily Integration
*$UNIT_NAME Daily Integration
*$MODEL .\Utility\Integrators\Quantity Integrator\TYPE24.tmf
*$POSITION 101 590
*$LAYER Totals #
PARAMETERS 2
* 1 Integration period
* 2 Relative or absolute start time
2.4000000000000000E+01 0.0000000000000000E+00
INPUTS 4
* Weather:total radiation on tilted surface ->Input to be integrated-1
* Tank:Energy rate from heat source ->Input to be integrated-2
* Tank:Energy rate to load ->Input to be integrated-3
* Tank:Auxiliary heating rate ->Input to be integrated-4
2,18 7,11 7,6 7,8
*** INITIAL INPUT VALUES
0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00
*------------------------------------------------------------------------------
* Model "Simulation Integration" (Type 24)
*
UNIT 14 TYPE 24 Simulation Integration
*$UNIT_NAME Simulation Integration
*$MODEL .\Utility\Integrators\Quantity Integrator\TYPE24.tmf
*$POSITION 94 665
*$LAYER Totals #
PARAMETERS 2
* 1 Integration period
* 2 Relative or absolute start time
8.7600000000000000E+03 0.0000000000000000E+00
INPUTS 4
* Weather:total radiation on tilted surface ->Input to be integrated-1
* Tank:Energy rate from heat source ->Input to be integrated-2
* Tank:Energy rate to load ->Input to be integrated-3
* Tank:Auxiliary heating rate ->Input to be integrated-4
2,18 7,11 7,6 7,8
*** INITIAL INPUT VALUES
0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00 0.0000000000000000E+00
*------------------------------------------------------------------------------
* Model "Daily Results" (Type 25)
*
UNIT 15 TYPE 25 Daily Results
*$UNIT_NAME Daily Results
*$MODEL .\Output\Printer\No Units\Type25c.tmf
*$POSITION 508 593
*$LAYER Outputs #
PARAMETERS 10
* 1 Printing interval
* 2 Start time
* 3 Stop time
* 4 Logical unit
* 5 Units printing mode
* 6 Relative or absolute start time
* 7 Overwrite or Append
* 8 Print header
* 9 Delimiter
* 10 Print labels
2.4000000000000000E+01 1.0000000000000000E+00 8.7600000000000000E+03 3.3000000000000000E+01 0.0000000000000000E+00
0.0000000000000000E+00 -1.0000000000000000E+00 -1.0000000000000000E+00 0.0000000000000000E+00 1.0000000000000000E+00
INPUTS 6
* Daily Integration:Result of integration-1 ->Input to be printed-1
* Daily Integration:Result of integration-2 ->Input to be printed-2
* Daily Integration:Result of integration-3 ->Input to be printed-3
* Daily Integration:Result of integration-4 ->Input to be printed-4
* Efficiencies:EtaColl_d ->Input to be printed-5
* Efficiencies:FSol_d ->Input to be printed-6
13,1 13,2 13,3 13,4 ETACOLL_D
FSOL_D
*** INITIAL INPUT VALUES
IColl QuColl QDHW QAux EtaColl_d
FSol_d
*** External files
ASSIGN Daily.txt 33
*|? Which file should contain the printed results? You can use the deck filename by entering "***", e.g. "***.out", or "***.dat" |1000
*------------------------------------------------------------------------------
* EQUATIONS "Efficiencies"
*
EQUATIONS 4
EtaColl_d = [13,2] / (5*[13,1]+1e-6)
FSol_d = 1 - ( [13,4] / ([13,3] + 1e-6) )
EtaColl = [14,2] / (5*[14,1]+1e-6)
FSol = 1 - ( [14,4] / ([14,3]+ 1e-6) )
*$UNIT_NAME Efficiencies
*$LAYER Main
*$POSITION 241 625
*------------------------------------------------------------------------------
* Model "Totals" (Type 25)
*
UNIT 18 TYPE 25 Totals
*$UNIT_NAME Totals
*$MODEL .\Output\Printer\No Units\Type25c.tmf
*$POSITION 502 662
*$LAYER Outputs #
PARAMETERS 10
* 1 Printing interval
* 2 Start time
* 3 Stop time
* 4 Logical unit
* 5 Units printing mode
* 6 Relative or absolute start time
* 7 Overwrite or Append
* 8 Print header
* 9 Delimiter
* 10 Print labels
8.7600000000000000E+03 8.7600000000000000E+03 8.7600000000000000E+03 3.4000000000000000E+01 0.0000000000000000E+00
0.0000000000000000E+00 -1.0000000000000000E+00 -1.0000000000000000E+00 0.0000000000000000E+00 1.0000000000000000E+00
INPUTS 6
* Simulation Integration:Result of integration-1 ->Input to be printed-1
* Simulation Integration:Result of integration-2 ->Input to be printed-2
* Simulation Integration:Result of integration-3 ->Input to be printed-3
* Simulation Integration:Result of integration-4 ->Input to be printed-4
* Efficiencies:EtaColl ->Input to be printed-5
* Efficiencies:FSol ->Input to be printed-6
14,1 14,2 14,3 14,4 ETACOLL
FSOL
*** INITIAL INPUT VALUES
IColl QuColl QDHW QAux EtaColl
FSol
*** External files
ASSIGN Totals.txt 34
*|? Which file should contain the printed results? You can use the deck filename by entering "***", e.g. "***.out", or "***.dat" |1000
*------------------------------------------------------------------------------
* Model "Type9a" (Type 9)
*
UNIT 24 TYPE 9 Type9a
*$UNIT_NAME Type9a
*$MODEL .\Utility\Data Readers\Generic Data Files\First Line is Simulation Start\Free Format\Type9a.tmf
*$POSITION 177 498
*$LAYER Main #
PARAMETERS 10
* 1 Mode
* 2 Header Lines to Skip
* 3 No. of values to read
* 4 Time interval of data
* 5 Interpolate or not?
* 6 Multiplication factor
* 7 Addition factor
* 8 Average or instantaneous value
* 9 Logical unit for input file
* 10 Free format mode
2.0000000000000000E+00 0.0000000000000000E+00 1.0000000000000000E+00 1.0000000000000000E+00 1.0000000000000000E+00
1.0000000000000000E+00 0.0000000000000000E+00 1.0000000000000000E+00 4.8000000000000000E+01 -1.0000000000000000E+00
*** External files
ASSIGN C:\Users\Administrator\Desktop\smart\DHW profile\portate_DHW1.txt 48
*|? Input file name |1000
*------------------------------------------------------------------------------
* EQUATIONS "Equa"
*
EQUATIONS 1
Tcold = 15
*$UNIT_NAME Equa
*$LAYER Main
*$POSITION 334 456
*------------------------------------------------------------------------------
END
TRANSIENT SIMULATION STARTING AT TIME = 1.0000000000000000E+00
STOPPING AT TIME = 8.7600000000000000E+03
TIMESTEP = 1 / 1
DIFFERENTIAL EQUATION ERROR TOLERANCE = 1.0000000000000002E-03
ALGEBRAIC CONVERGENCE TOLERANCE = 1.0000000000000002E-03
1 TRNSYS COMPONENT OUTPUT MAP
UNIT 2 TYPE109 UNIT/TYPE/INPUT
OUTPUT 1 3 1 3
OUTPUT 18 3 1 4
OUTPUT 12 3 1 5
OUTPUT 14 3 1 6
OUTPUT 22 3 1 8
OUTPUT 23 3 1 9
OUTPUT 18 5 65 3
13 24 1
14 24 1
UNIT 3 TYPE 1 UNIT/TYPE/INPUT
OUTPUT 1 6 2 1
7 4 1
OUTPUT 2 7 4 2
OUTPUT 1 5 65 2
OUTPUT 2 5 65 4
UNIT 4 TYPE 3 UNIT/TYPE/INPUT
OUTPUT 1 3 1 1
OUTPUT 2 3 1 2
OUTPUT 1 5 65 1
UNIT 6 TYPE 2 UNIT/TYPE/INPUT
OUTPUT 1 4 3 3
6 2 4
UNIT 7 TYPE 4 UNIT/TYPE/INPUT
OUTPUT 1 4 3 1
OUTPUT 2 4 3 2
OUTPUT 1 6 2 2
OUTPUT 3 6 2 3
8 65 1
OUTPUT 13 8 65 2
OUTPUT 14 8 65 3
OUTPUT 15 8 65 4
OUTPUT 16 8 65 5
OUTPUT 1 8 65 6
OUTPUT 8 8 65 8
OUTPUT 3 11 11 3
12 11 1
OUTPUT 4 12 11 2
OUTPUT 11 13 24 2
OUTPUT 6 13 24 3
OUTPUT 8 13 24 4
OUTPUT 11 14 24 2
OUTPUT 6 14 24 3
OUTPUT 8 14 24 4
UNIT 5 TYPE 65 UNIT/TYPE/INPUT
UNIT 8 TYPE 65 UNIT/TYPE/INPUT
UNIT 11 TYPE 11 UNIT/TYPE/INPUT
OUTPUT 1 7 4 3
OUTPUT 2 7 4 4
8 65 10
OUTPUT 4 8 65 11
OUTPUT 3 12 11 3
OUTPUT 4 12 11 4
UNIT 12 TYPE 11 UNIT/TYPE/INPUT
OUTPUT 1 8 65 7
OUTPUT 2 8 65 9
UNIT 13 TYPE 24 UNIT/TYPE/INPUT
OUTPUT 1 15 25 1
OUTPUT 2 15 25 2
OUTPUT 3 15 25 3
OUTPUT 4 15 25 4
UNIT 14 TYPE 24 UNIT/TYPE/INPUT
OUTPUT 1 18 25 1
OUTPUT 2 18 25 2
OUTPUT 3 18 25 3
OUTPUT 4 18 25 4
UNIT 15 TYPE 25 UNIT/TYPE/INPUT
UNIT 18 TYPE 25 UNIT/TYPE/INPUT
UNIT 24 TYPE 9 UNIT/TYPE/INPUT
OUTPUT 1 11 11 2
EQUATIONS UNIT/TYPE/INPUT
ETACOLL_D 15 25 5
FSOL_D 15 25 6
ETACOLL 18 25 5
FSOL 18 25 6
TCOLD 11 11 1
DIFFERENTIAL EQUATIONS SOLVED BY MODIFIED EULER
*** Warning at time : 0.000000
Generated by Unit : Not applicable or not available
Generated by Type : Not applicable or not available
TRNSYS Message 196 : With the release of TRNSYS 16.1 drop-in DLLs must be located in the \ReleaseDLLs or in the \DebugDLLs subdirectory of \UserLib.
Reported information : C:\Program Files\Trnsys16\UserLib
2 1 4
3 2 6
4 3 9
5 4 33
6 9 34
7 11 35
8 24 37
11 25 40
12 65 48
13 109
14
15
18
24
*********************************************************************************************************
Total TRNSYS Calculation Time: 1.2800 Seconds