VERSION 16.1 ******************************************************************************* *** TRNSYS input file (deck) generated by TrnsysStudio *** on Friday, August 10, 2007 at 09:19 *** from TrnsysStudio project: C:\Program Files\Trnsys16_01_0002\Examples\Begin\begin.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=0 STOP=1000 STEP=1 * User defined CONSTANTS SIMULATION START STOP STEP ! Start time End time Time step TOLERANCES 0.001 0.001 ! Integration Convergence LIMITS 30 30 30 ! Max iterations Max warnings Trace limit DFQ 1 ! TRNSYS numerical integration solver method WIDTH 80 ! TRNSYS output file width, number of characters LIST ! NOLIST statement ! MAP statement SOLVER 0 1 1 ! Solver statement Minimum relaxation factor Maximum relaxation factor NAN_CHECK 0 ! Nan DEBUG statement OVERWRITE_CHECK 0 ! Overwrite DEBUG statement TIME_REPORT 0 ! disable time report EQSOLVER 0 ! EQUATION SOLVER statement * Model "Type109-TMY2" (Type 109) * UNIT 2 TYPE 109 Type109-TMY2 PARAMETERS 4 2 ! 1 Data Reader Mode LU_TMY2 ! 2 Logical unit 4 ! 3 Sky model for diffuse radiation 1 ! 4 Tracking mode INPUTS 3 0,0 ! [unconnected] Ground reflectance 0,0 ! [unconnected] Slope of surface 0,0 ! [unconnected] Azimuth of surface *** INITIAL INPUT VALUES 0.2 45 0 *** External files ASSIGN ".\Weather\US-TMY2\US-WI-Madison-14837.tm2" 35 ASSIGN ".\Weather\US-TMY2\US-AK-Anchorage-26451.tm2" 36 ASSIGN ".\Weather\US-TMY2\US-AK-Annette-25308.tm2" 37 CONSTANTS 1 LU_TMY2 = 37 *|? Weather data file |1000 *------------------------------------------------------------------------------ * Model "Type3b" (Type 3) * UNIT 3 TYPE 3 Type3b *$UNIT_NAME Type3b *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 56 192 *$LAYER Water Loop # PARAMETERS 5 50 ! 1 Maximum flow rate 4.19 ! 2 Fluid specific heat 60 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 0,0 ! [unconnected] Inlet fluid temperature 0,0 ! [unconnected] Inlet mass flow rate 9,1 ! Type14h:Average value of function ->Control signal *** INITIAL INPUT VALUES 20 40 1 *------------------------------------------------------------------------------ * Model "Type1b" (Type 1) * UNIT 4 TYPE 1 Type1b *$UNIT_NAME Type1b *$MODEL .\Solar Thermal Collectors\Quadratic Efficiency Collector\2nd-Order Incidence Angle Modifiers\Type1b.tmf *$POSITION 205 192 *$LAYER Main # PARAMETERS 11 1 ! 1 Number in series 2 ! 2 Collector area 4.190 ! 3 Fluid specific heat 1 ! 4 Efficiency mode 40.0 ! 5 Tested flow rate 0.80 ! 6 Intercept efficiency 13.0 ! 7 Efficiency slope 0.05 ! 8 Efficiency curvature 2 ! 9 Optical mode 2 0.2 ! 10 1st-order IAM 0.0 ! 11 2nd-order IAM INPUTS 9 3,1 ! Type3b:Outlet fluid temperature ->Inlet temperature 3,2 ! Type3b:Outlet flow rate ->Inlet flowrate 2,1 ! Type109-TMY2:Ambient temperature ->Ambient temperature 2,18 ! Type109-TMY2:total radiation on tilted surface ->Incident radiation 2,12 ! Type109-TMY2:total radiation on horizontal ->Total horizontal radiation 2,14 ! Type109-TMY2:sky diffuse radiation on horizontal ->Horizontal diffuse radiation 0,0 ! [unconnected] Ground reflectance 2,22 ! Type109-TMY2:angle of incidence for tilted surface ->Incidence angle 2,23 ! Type109-TMY2:slope of tilted surface ->Collector slope *** INITIAL INPUT VALUES 20.0 100.0 10.0 0. 0.0 0.0 0.2 45.0 0. *------------------------------------------------------------------------------ * Model "Type6" (Type 6) * UNIT 5 TYPE 6 Type6 *$UNIT_NAME Type6 *$MODEL .\HVAC\Auxiliary Heaters\Type6.tmf *$POSITION 341 192 *$LAYER Water Loop # PARAMETERS 4 5000 ! 1 Maximum heating rate 4.19 ! 2 Specific heat of fluid 0 ! 3 Overall loss coefficient for heater during operation 1 ! 4 Efficiency of auxiliary heater INPUTS 5 4,1 ! Type1b:Outlet temperature ->Inlet fluid temperature 4,2 ! Type1b:Outlet flowrate ->Fluid mass flow rate 0,0 ! [unconnected] Control Function 0,0 ! [unconnected] Set point temperature 0,0 ! [unconnected] Temperature of surroundings *** INITIAL INPUT VALUES 20 100 1 60 20 *------------------------------------------------------------------------------ * Model "TYPE24" (Type 24) * UNIT 6 TYPE 24 TYPE24 *$UNIT_NAME TYPE24 *$MODEL .\Utility\Integrators\Quantity Integrator\TYPE24.tmf *$POSITION 503 212 *$LAYER Main # PARAMETERS 2 STOP ! 1 Integration period 0 ! 2 Relative or absolute start time INPUTS 2 4,3 ! Type1b:Useful energy gain ->Input to be integrated-1 5,3 ! Type6:Required heating rate ->Input to be integrated-2 *** INITIAL INPUT VALUES 0.0 0.0 *------------------------------------------------------------------------------ * Model "Type25a" (Type 25) * UNIT 7 TYPE 25 Type25a *$UNIT_NAME Type25a *$MODEL .\Output\Printer\TRNSYS-Supplied Units\Type25a.tmf *$POSITION 643 212 *$LAYER Outputs # PARAMETERS 10 STEP ! 1 Printing interval START ! 2 Start time STOP ! 3 Stop time 32 ! 4 Logical unit 2 ! 5 Units printing mode 0 ! 6 Relative or absolute start time -1 ! 7 Overwrite or Append -1 ! 8 Print header 0 ! 9 Delimiter 1 ! 10 Print labels INPUTS 2 6,1 ! TYPE24:Result of integration-1 ->Input to be printed-1 6,2 ! TYPE24:Result of integration-2 ->Input to be printed-2 *** INITIAL INPUT VALUES QColl QAux *** External files ASSIGN "***.out" 32 *|? Output File for printed results |1000 *------------------------------------------------------------------------------ * Model "Type65d" (Type 65) * UNIT 8 TYPE 65 Type65d *$UNIT_NAME Type65d *$MODEL .\Output\Online Plotter\Online Plotter Without File\Type65d.tmf *$POSITION 506 85 *$LAYER Main # PARAMETERS 12 3 ! 1 Nb. of left-axis variables 2 ! 2 Nb. of right-axis variables -100 ! 3 Left axis minimum 100 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 10000 ! 6 Right axis maximum 1 ! 7 Number of plots per simulation 12 ! 8 X-axis gridpoints 0 ! 9 Shut off Online w/o removing -1 ! 10 Logical unit for output file 0 ! 11 Output file units 0 ! 12 Output file delimiter INPUTS 5 3,1 ! Type3b:Outlet fluid temperature ->Left axis variable-1 4,1 ! Type1b:Outlet temperature ->Left axis variable-2 5,1 ! Type6:Outlet fluid temperature ->Left axis variable-3 4,3 ! Type1b:Useful energy gain ->Right axis variable-1 5,3 ! Type6:Required heating rate ->Right axis variable-2 *** INITIAL INPUT VALUES ToPump ToColl ToAux QColl QAux LABELS 3 "Temperatures" "Heat transfer rates" "Graph 1" *------------------------------------------------------------------------------ * Model "Type14h" (Type 14) * UNIT 9 TYPE 14 Type14h *$UNIT_NAME Type14h *$MODEL .\Utility\Forcing Functions\General\Type14h.tmf *$POSITION 54 288 *$LAYER Main # PARAMETERS 12 0 ! 1 Initial value of time 0 ! 2 Initial value of function 8 ! 3 Time at point-1 0 ! 4 Value at point -1 8 ! 5 Time at point-2 1 ! 6 Value at point -2 18 ! 7 Time at point-3 1 ! 8 Value at point -3 18 ! 9 Time at point-4 0 ! 10 Value at point -4 24 ! 11 Time at point-5 0 ! 12 Value at point -5 *------------------------------------------------------------------------------ END