VERSION 16.1 ******************************************************************************* *** TRNSYS input file (deck) generated by TrnsysStudio *** on Thursday, November 22, 2012 at 15:56 *** from TrnsysStudio project: D:\Documents and Settings\Talib\My Documents\new4\BuildingProject17.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=8760 STEP=1 * User defined CONSTANTS SIMULATION START STOP STEP ! Start time End time Time step TOLERANCES 1 1 ! Integration Convergence LIMITS 30 200 30 ! Max iterations Max warnings Trace limit DFQ 1 ! TRNSYS numerical integration solver method WIDTH 72 ! 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 * EQUATIONS "Turn" * EQUATIONS 5 TURN = 12 AA_N = 180 + TURN AA_S = TURN AA_E = -90 + TURN AA_W = 90 + TURN *$UNIT_NAME Turn *$LAYER Main *$POSITION 49 61 *------------------------------------------------------------------------------ * EQUATIONS "Radiation" * EQUATIONS 18 AISZ = [109,10] AISA = [109,11] IT_H = Max([109,12],0) IB_H = Max([109,13],0) ID_H = [109,14] AI_H = [109,16] IT_N = [109,18] AI_N = [109,22] IB_N = [109,19] * LT(AI_N,90) IT_S = [109,24] IB_S = [109,25] AI_S = [109,28] IT_E = [109,30] IB_E = [109,31] AI_E = [109,34] IT_W = [109,36] IB_W = [109,37] AI_W = [109,40] *$UNIT_NAME Radiation *$LAYER Main *$POSITION 195 125 *------------------------------------------------------------------------------ * EQUATIONS "Shading+Light" * EQUATIONS 1 BRIGHT = [200,1] ! 27 *$UNIT_NAME Shading+Light *$LAYER Controls *$POSITION 669 605 *------------------------------------------------------------------------------ * EQUATIONS "Fixed Shading" * EQUATIONS 6 IT_S_SHD = [342,1] IB_S_SHD = [342,2] AI_S_SHD = AI_S IT_H_SHD = IT_H IB_H_SHD = IB_H AI_H_SHD = AI_H *$UNIT_NAME Fixed Shading *$LAYER Main *$POSITION 653 402 *------------------------------------------------------------------------------ * Model "Weather data" (Type 109) * UNIT 109 TYPE 109 Weather data *$UNIT_NAME Weather data *$MODEL .\Weather Data Reading and Processing\Standard Format\TMY2\Type109-TMY2.tmf *$POSITION 99 200 *$LAYER Main # PARAMETERS 4 2 ! 1 Data Reader Mode 30 ! 2 Logical unit 4 ! 3 Sky model for diffuse radiation 1 ! 4 Tracking mode INPUTS 11 0,0 ! [unconnected] Ground reflectance 0,0 ! [unconnected] Slope of surface-1 0,0 ! [unconnected] Azimuth of surface-1 0,0 ! [unconnected] Slope of surface-2 0,0 ! [unconnected] Azimuth of surface-2 0,0 ! [unconnected] Slope of surface-3 0,0 ! [unconnected] Azimuth of surface-3 0,0 ! [unconnected] Slope of surface-4 0,0 ! [unconnected] Azimuth of surface-4 0,0 ! [unconnected] Slope of surface-5 0,0 ! [unconnected] Azimuth of surface-5 *** INITIAL INPUT VALUES 0.2 90 AA_N 90 AA_S 90 AA_E 90 AA_W 12 0 *** External files ASSIGN "D:\Program Files\Trnsys16\Weather\Zaria_Nigeria_SPtMasterTable_472122_19790101_20100101_tmy2.tm2" 30 *|? Weather data file |1000 *------------------------------------------------------------------------------ * Model "Psychrometrics" (Type 33) * UNIT 331 TYPE 33 Psychrometrics *$UNIT_NAME Psychrometrics *$MODEL .\Physical Phenomena\Thermodynamic Properties\Psychrometrics\Dry Bulb and Relative Humidity Known\Type33e.tmf *$POSITION 204 325 *$LAYER Main # PARAMETERS 3 2 ! 1 Psychrometrics mode 1 ! 2 Wet bulb mode 1 ! 3 Error mode INPUTS 3 109,1 ! Weather data:Ambient temperature ->Dry bulb temp. 109,2 ! Weather data:relative humidity ->Percent relative humidity 0,0 ! [unconnected] Pressure *** INITIAL INPUT VALUES 20 50 1 *------------------------------------------------------------------------------ * Model "Sky temp" (Type 69) * UNIT 69 TYPE 69 Sky temp *$UNIT_NAME Sky temp *$MODEL .\Physical Phenomena\Sky Temperature\calculate cloudiness factor\Type69b.tmf *$POSITION 354 273 *$LAYER Main # # PARAMETERS 2 0 ! 1 mode for cloudiness factor 0 ! 2 height over sea level INPUTS 4 331,7 ! Psychrometrics:Dry bulb temperature ->Ambient temperature 331,8 ! Psychrometrics:Dew point temperature. ->Dew point temperature at ambient conditions 109,13 ! Weather data:beam radiation on horitonzal ->Beam radiation on the horizontal 109,14 ! Weather data:sky diffuse radiation on horizontal ->Diffuse radiation on the horizontal *** INITIAL INPUT VALUES 0 0 0 0 *------------------------------------------------------------------------------ * EQUATIONS "Light Thresholds" * EQUATIONS 2 Toth_L_on = -3.6*120 Eoth_L_off = -3.6*200 *$UNIT_NAME Light Thresholds *$LAYER Controls *$POSITION 461 530 *------------------------------------------------------------------------------ * Model "Lights" (Type 2) * UNIT 200 TYPE 2 Lights *$UNIT_NAME Lights *$MODEL .\Controllers\Differential Controller w_ Hysteresis\generic\Solver 0 (Successive Substitution) Control Strategy\Type2d.tmf *$POSITION 566 541 *$LAYER Controls # *$# NOTE: This controller can only be used with Solver 0 (Successive substitution) *$# *$# *$# *$# *$# *$# *$# *$# *$# PARAMETERS 2 5 ! 1 No. of oscillations 40000 ! 2 High limit cut-out INPUTS 6 0,0 ! [unconnected] Upper input value IT_H ! Radiation:IT_H ->Lower input value 0,0 ! [unconnected] Monitoring value 200,1 ! Lights:Output control function ->Input control function Toth_L_on ! Light Thresholds:Toth_L_on ->Upper dead band Eoth_L_off ! Light Thresholds:Eoth_L_off ->Lower dead band *** INITIAL INPUT VALUES 0 0 0 0 0 0 *------------------------------------------------------------------------------ * Model "WingWall S" (Type 34) * UNIT 342 TYPE 34 WingWall S *$UNIT_NAME WingWall S *$MODEL .\Loads and Structures\Overhang and Wingwall Shading\Type34.tmf *$POSITION 606 264 *$LAYER Main # # PARAMETERS 16 0 ! 1 Upstream component mode 2.0 ! 2 Receiver height 2.7 ! 3 Receiver width 1.0 ! 4 Overhang projection 0.6 ! 5 Overhang gap 0.3 ! 6 Overhang left extension 0.3 ! 7 Overhang right extension 0 ! 8 Left wingwall projection 0 ! 9 Left wingwall gap 0 ! 10 Left wingwall top extension 0 ! 11 Left wingwall bottom extension 0 ! 12 Right wingwall projection 0 ! 13 Right wingwall gap 0 ! 14 Right wingwall top extension 0 ! 15 Right wingwall bottom extension AA_S ! 16 Receiver azimuth INPUTS 7 AISZ ! Radiation:AISZ ->Solar zenith angle AISA ! Radiation:AISA ->Solar azimuth angle IT_H ! Radiation:IT_H ->Total horizontal radiation ID_H ! Radiation:ID_H ->Horizontal diffuse radiation IB_S ! Radiation:IB_S ->Beam radiation on surface 0,0 ! [unconnected] Ground reflectance AI_S ! Radiation:AI_S ->Incidence angle of direct radiation *** INITIAL INPUT VALUES 30 20 0 0 0 0.2 0 *------------------------------------------------------------------------------ * Model "Building" (Type 56) * UNIT 56 TYPE 56 Building *$UNIT_NAME Building *$MODEL .\Loads and Structures\Multi-Zone Building\With Standard Output Files\Type56a.tmf *$POSITION 801 594 *$LAYER Main # # *$# PARAMETERS 6 31 ! 1 Logical unit for building description file (.bui) 1 ! 2 Star network calculation switch 0.5 ! 3 Weighting factor for operative temperature 32 ! 4 Logical unit for monthly summary 33 ! 5 Logical unit for hourly temperatures 34 ! 6 Logical unit for hourly loads INPUTS 55 331,7 ! Psychrometrics:Dry bulb temperature -> 1- TAMB 331,6 ! Psychrometrics:Percent relative humidity -> 2- RELHUMAMB 69,1 ! Sky temp:Fictive sky temperature -> 3- TSKY IT_N ! Radiation:IT_N -> 4- IT_NORTH IT_S ! Radiation:IT_S -> 5- IT_SOUTH IT_E ! Radiation:IT_E -> 6- IT_EAST IT_W ! Radiation:IT_W -> 7- IT_WEST IT_H ! Radiation:IT_H -> 8- IT_HORIZONTAL IT_S_SHD ! Fixed Shading:IT_S_SHD -> 9- IT_SHADSOUTH IB_N ! Radiation:IB_N -> 10- IB_NORTH IB_S ! Radiation:IB_S -> 11- IB_SOUTH IB_E ! Radiation:IB_E -> 12- IB_EAST IB_W ! Radiation:IB_W -> 13- IB_WEST IB_H ! Radiation:IB_H -> 14- IB_HORIZONTAL IB_S_SHD ! Fixed Shading:IB_S_SHD -> 15- IB_SHADSOUTH AI_N ! Radiation:AI_N -> 16- AI_NORTH AI_S ! Radiation:AI_S -> 17- AI_SOUTH AI_E ! Radiation:AI_E -> 18- AI_EAST AI_W ! Radiation:AI_W -> 19- AI_WEST AI_H ! Radiation:AI_H -> 20- AI_HORIZONTAL AI_S_SHD ! Fixed Shading:AI_S_SHD -> 21- AI_SHADSOUTH 0,0 ! [unconnected] 22- CNAT_1 0,0 ! [unconnected] 23- CNAT_2 0,0 ! [unconnected] 24- CNAT_3 0,0 ! [unconnected] 25- CNAT_4 0,0 ! [unconnected] 26- CNAT_5 0,0 ! [unconnected] 27- CNAT_6 0,0 ! [unconnected] 28- CNAT_7 0,0 ! [unconnected] 29- CNAT_8 0,0 ! [unconnected] 30- CNAT_9 0,0 ! [unconnected] 31- T_COOL_ON 0,0 ! [unconnected] 32- S_NORTH 0,0 ! [unconnected] 33- S_SOUTH 0,0 ! [unconnected] 34- S_EAST 0,0 ! [unconnected] 35- S_WEST BRIGHT ! Shading+Light:BRIGHT -> 36- BRIGHT 0,0 ! [unconnected] 37- 5800 Toutp1 ! Equa:Toutp1 -> 38- TIN1 mdot1 ! Equa:mdot1 -> 39- MFIN1 Toutp2 ! Equa:Toutp2 -> 40- TIN2 mdot2 ! Equa:mdot2 -> 41- MFIN2 Toutp3 ! Equa:Toutp3 -> 42- TIN3 mdot3 ! Equa:mdot3 -> 43- MFIN3 Toutp4 ! Equa:Toutp4 -> 44- TIN4 mdot4 ! Equa:mdot4 -> 45- MFIN4 Toutp5 ! Equa:Toutp5 -> 46- TIN5 mdot5 ! Equa:mdot5 -> 47- MFIN5 Toutp6 ! Equa:Toutp6 -> 48- TIN6 mdot6 ! Equa:mdot6 -> 49- MFIN6 Toutp7 ! Equa:Toutp7 -> 50- TIN7 mdot7 ! Equa:mdot7 -> 51- MFIN7 Toutp8 ! Equa:Toutp8 -> 52- TIN8 mdot8 ! Equa:mdot8 -> 53- MFIN8 Toutp9 ! Equa:Toutp9 -> 54- TIN9 mdot9 ! Equa:mdot9 -> 55- MFIN9 *** INITIAL INPUT VALUES 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 *** External files ASSIGN "BuildingProject17.bui" 31 *|? Building description file (*.bui) |1000 ASSIGN "T56_std-Output.sum" 32 *|? Monthly Summary File |1000 ASSIGN "T56_std-temp.prn" 33 *|? Hourly Temperatures |1000 ASSIGN "T56_std-q.prn" 34 *|? Hourly Loads |1000 *------------------------------------------------------------------------------ * Model "Temperature" (Type 65) * UNIT 25 TYPE 65 Temperature *$UNIT_NAME Temperature *$MODEL .\Output\Online Plotter\Online Plotter Without File\Type65d.tmf *$POSITION 1058 594 *$LAYER Main # # PARAMETERS 12 9 ! 1 Nb. of left-axis variables 9 ! 2 Nb. of right-axis variables -30 ! 3 Left axis minimum 80 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 5000 ! 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 18 56,1 ! Building: 1- TAIR_ZONE_A1 ->Left axis variable-1 56,2 ! Building: 2- TAIR_ZONE_B1 ->Left axis variable-2 56,3 ! Building: 3- TAIR_ZONE_C1 ->Left axis variable-3 56,4 ! Building: 4- TAIR_ZONE_A2 ->Left axis variable-4 56,5 ! Building: 5- TAIR_ZONE_B2 ->Left axis variable-5 56,6 ! Building: 6- TAIR_ZONE_C2 ->Left axis variable-6 56,7 ! Building: 7- TAIR_ZONE_A3 ->Left axis variable-7 56,8 ! Building: 8- TAIR_ZONE_B3 ->Left axis variable-8 56,9 ! Building: 9- TAIR_ZONE_C3 ->Left axis variable-9 0,0 ! [unconnected] Right axis variable-1 0,0 ! [unconnected] Right axis variable-2 0,0 ! [unconnected] Right axis variable-3 0,0 ! [unconnected] Right axis variable-4 0,0 ! [unconnected] Right axis variable-5 0,0 ! [unconnected] Right axis variable-6 0,0 ! [unconnected] Right axis variable-7 0,0 ! [unconnected] Right axis variable-8 0,0 ! [unconnected] Right axis variable-9 *** INITIAL INPUT VALUES Zone_A1 Zone_B1 Zone_C1 Zone_A2 Zone_B2 Zone_C2 Zone_A3 Zone_B3 Zone_C3 label label label label label label label label label LABELS 3 "Temperatures [deg C]" "Temperatures [deg C]" "Temperatures" *------------------------------------------------------------------------------ * Model "Type1b" (Type 1) * UNIT 16 TYPE 1 Type1b *$UNIT_NAME Type1b *$MODEL .\Solar Thermal Collectors\Quadratic Efficiency Collector\2nd-Order Incidence Angle Modifiers\Type1b.tmf *$POSITION 76 498 *$LAYER Main # PARAMETERS 11 1 ! 1 Number in series 15 ! 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 19,1 ! Type3b:Outlet fluid temperature ->Inlet temperature 19,2 ! Type3b:Outlet flow rate ->Inlet flowrate 109,1 ! Weather data:Ambient temperature ->Ambient temperature 109,42 ! Weather data:total radiation on tilted surface-5 ->Incident radiation 109,12 ! Weather data:total radiation on horizontal ->Total horizontal radiation 109,14 ! Weather data:sky diffuse radiation on horizontal ->Horizontal diffuse radiation 0,0 ! [unconnected] Ground reflectance 109,46 ! Weather data:angle of incidence for tilted surface -5 ->Incidence angle 109,47 ! Weather data:slope of tilted surface-5 ->Collector slope *** INITIAL INPUT VALUES 20.0 100.0 25 0. 0.0 0.0 0.2 45.0 12 *------------------------------------------------------------------------------ * Model "Type13" (Type 13) * UNIT 17 TYPE 13 Type13 *$UNIT_NAME Type13 *$MODEL .\Hydronics\Pressure Relief Valve\Type13.tmf *$POSITION 169 509 *$LAYER Water Loop # PARAMETERS 2 100.0 ! 1 Boiling point of fluid 4.19 ! 2 Specific heat of fluid INPUTS 3 16,1 ! Type1b:Outlet temperature ->Inlet fluid temperature 16,2 ! Type1b:Outlet flowrate ->Inlet flow rate 0,0 ! [unconnected] Comparison temperature *** INITIAL INPUT VALUES 20.0 100.0 100 *------------------------------------------------------------------------------ * Model "Type4c" (Type 4) * UNIT 18 TYPE 4 Type4c *$UNIT_NAME Type4c *$MODEL .\Thermal Storage\Stratified Storage Tank\Variable Inlets\Uniform Losses\Type4c.tmf *$POSITION 243 509 *$LAYER Water Loop # PARAMETERS 25 2 ! 1 Variable inlet positions 2 ! 2 Tank volume 4.190 ! 3 Fluid specific heat 1000.0 ! 4 Fluid density 2.5 ! 5 Tank loss coefficient 1.2 ! 6 Height of node-1 1.0 ! 7 Height of node-2 0.8 ! 8 Height of node-3 0.6 ! 9 Height of node-4 0.4 ! 10 Height of node-5 0.2 ! 11 Height of node-6 1 ! 12 Auxiliary heater mode 1 ! 13 Node containing heating element -1 1 ! 14 Node containing thermostat -1 60.0 ! 15 Set point temperature for element-1 5.0 ! 16 Deadband for heating element-1 0 ! 17 Maximum heating rate of element -1 1 ! 18 Node containing heating element -2 1 ! 19 Node containing thermostat -2 60.0 ! 20 Set point temperature for element-2 5.0 ! 21 Deadband for heating element-2 0 ! 22 Maximum heating rate of element -2 0.0 ! 23 Not used (Flue UA) 20.0 ! 24 Not used (Tflue) 100.0 ! 25 Boiling point INPUTS 7 17,1 ! Type13:Outlet temperature ->Hot-side temperature 17,2 ! Type13:Outlet flow rate ->Hot-side flowrate 30,1 ! Type3b-4:Outlet fluid temperature ->Cold-side temperature 30,2 ! Type3b-4:Outlet flow rate ->Cold-side flowrate 0,0 ! [unconnected] Environment temperature 0,0 ! [unconnected] Control signal for element-1 0,0 ! [unconnected] Control signal for element-2 *** INITIAL INPUT VALUES 0 0 25 0 0 0.0 0.0 DERIVATIVES 6 25 ! 1 Initial temperature of node-1 23 ! 2 Initial temperature of node-2 21 ! 3 Initial temperature of node-3 19 ! 4 Initial temperature of node-4 17 ! 5 Initial temperature of node-5 15 ! 6 Initial temperature of node-6 *------------------------------------------------------------------------------ * Model "Type3b" (Type 3) * UNIT 19 TYPE 3 Type3b *$UNIT_NAME Type3b *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 191 616 *$LAYER Water Loop # PARAMETERS 5 100 ! 1 Maximum flow rate 4.190 ! 2 Fluid specific heat 60.0 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 18,1 ! Type4c:Temperature to heat source ->Inlet fluid temperature 18,2 ! Type4c:Flowrate to heat source ->Inlet mass flow rate 37,1 ! Type2b-3:Output control function ->Control signal *** INITIAL INPUT VALUES 20.0 100.0 1.0 *------------------------------------------------------------------------------ * Model "Type6" (Type 6) * UNIT 20 TYPE 6 Type6 *$UNIT_NAME Type6 *$MODEL .\HVAC\Auxiliary Heaters\Type6.tmf *$POSITION 328 509 *$LAYER Water Loop # PARAMETERS 4 1000.0 ! 1 Maximum heating rate 4.19 ! 2 Specific heat of fluid 0.0 ! 3 Overall loss coefficient for heater during operation 1.0 ! 4 Efficiency of auxiliary heater INPUTS 5 18,3 ! Type4c:Temperature to load ->Inlet fluid temperature 18,4 ! Type4c:Flowrate to load ->Fluid mass flow rate 21,1 ! Type2b:Output control function ->Control Function 0,0 ! [unconnected] Set point temperature 0,0 ! [unconnected] Temperature of surroundings *** INITIAL INPUT VALUES 0 0 1 95 20.0 *------------------------------------------------------------------------------ * Model "Type2b" (Type 2) * UNIT 21 TYPE 2 Type2b *$UNIT_NAME Type2b *$MODEL .\Controllers\Differential Controller w_ Hysteresis\for Temperatures\Solver 0 (Successive Substitution) Control Strategy\Type2b.tmf *$POSITION 319 424 *$LAYER Controls # *$# NOTE: This control strategy can only be used with solver 0 (Successive substitution) *$# PARAMETERS 2 5 ! 1 No. of oscillations 95 ! 2 High limit cut-out INPUTS 6 0,0 ! [unconnected] Upper input temperature Th 18,13 ! Type4c:Temperature of node 1+-1 ->Lower input temperature Tl 20,1 ! Type6:Outlet fluid temperature ->Monitoring temperature Tin 21,1 ! Type2b:Output control function ->Input control function 0,0 ! [unconnected] Upper dead band dT 0,0 ! [unconnected] Lower dead band dT *** INITIAL INPUT VALUES 85 80 90 0 0 0 *------------------------------------------------------------------------------ * Model "Type65c" (Type 65) * UNIT 22 TYPE 65 Type65c *$UNIT_NAME Type65c *$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf *$POSITION 470 456 *$LAYER Main # PARAMETERS 12 2 ! 1 Nb. of left-axis variables 0 ! 2 Nb. of right-axis variables 0.0 ! 3 Left axis minimum 100 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 1000.0 ! 6 Right axis maximum 1 ! 7 Number of plots per simulation 12 ! 8 X-axis gridpoints 0 ! 9 Shut off Online w/o removing 37 ! 10 Logical Unit for output file 0 ! 11 Output file units 0 ! 12 Output file delimiter INPUTS 2 20,1 ! Type6:Outlet fluid temperature ->Left axis variable-1 18,3 ! Type4c:Temperature to load ->Left axis variable-2 *** INITIAL INPUT VALUES tank heater LABELS 3 "tank output" "Heat transfer rates" "Graph 5" *** External files ASSIGN "***.plt" 37 *|? What file should the online print to? |1000 *------------------------------------------------------------------------------ * Model "Type107" (Type 107) * UNIT 24 TYPE 107 Type107 *$UNIT_NAME Type107 *$MODEL .\HVAC\Absorption Chiller (Hot-Water Fired, Single Effect)\Type107.tmf *$POSITION 398 626 *$LAYER Main # PARAMETERS 11 54000 ! 1 Rated capacity 0.71 ! 2 Rated C.O.P. 39 ! 3 Logical unit for S1 data file 5 ! 4 Number of HW temperatures in S1 data file 3 ! 5 Number of CW steps in S1 data file 7 ! 6 Number of CHW set points in S1 data file 11 ! 7 Number of load fractions in S1 data file 4.190 ! 8 HW fluid specific heat 4.190 ! 9 CHW fluid specific heat 4.190 ! 10 CW fluid specific heat 1080 ! 11 Auxiliary electrical power INPUTS 8 28,1 ! Type3b-3:Outlet fluid temperature ->Chilled water inlet temperature 28,2 ! Type3b-3:Outlet flow rate ->Chilled water flow rate 27,1 ! Type3b-2:Outlet fluid temperature ->Cooling water inlet temperature 27,2 ! Type3b-2:Outlet flow rate ->Cooling water flow rate 20,1 ! Type6:Outlet fluid temperature ->Hot water inlet temperature 20,2 ! Type6:Outlet fluid flow rate ->Hot water flow rate 0,0 ! [unconnected] CHW set point 0,0 ! [unconnected] Chiller control signal *** INITIAL INPUT VALUES 17 23200 30.0 27900 90 58000 11 1.0 *** External files ASSIGN "D:\Program Files\Trnsys16_1\Examples\Data Files\Type107-HotWaterFiredAbsorptionChiller.dat" 39 *|? File with fraction of design energy input data |1000 *------------------------------------------------------------------------------ * Model "Type4c-2" (Type 4) * UNIT 26 TYPE 4 Type4c-2 *$UNIT_NAME Type4c-2 *$MODEL .\Thermal Storage\Stratified Storage Tank\Variable Inlets\Uniform Losses\Type4c.tmf *$POSITION 502 722 *$LAYER Water Loop # PARAMETERS 25 2 ! 1 Variable inlet positions 6 ! 2 Tank volume 4.190 ! 3 Fluid specific heat 1000.0 ! 4 Fluid density 2.5 ! 5 Tank loss coefficient 1.2 ! 6 Height of node-1 1.0 ! 7 Height of node-2 0.8 ! 8 Height of node-3 0.6 ! 9 Height of node-4 0.4 ! 10 Height of node-5 0.2 ! 11 Height of node-6 1 ! 12 Auxiliary heater mode 1 ! 13 Node containing heating element -1 1 ! 14 Node containing thermostat -1 60.0 ! 15 Set point temperature for element-1 5.0 ! 16 Deadband for heating element-1 0 ! 17 Maximum heating rate of element -1 1 ! 18 Node containing heating element -2 1 ! 19 Node containing thermostat -2 60.0 ! 20 Set point temperature for element-2 5.0 ! 21 Deadband for heating element-2 0 ! 22 Maximum heating rate of element -2 0.0 ! 23 Not used (Flue UA) 20.0 ! 24 Not used (Tflue) 100.0 ! 25 Boiling point INPUTS 7 34,1 ! Type3b-5:Outlet fluid temperature ->Hot-side temperature 34,2 ! Type3b-5:Outlet flow rate ->Hot-side flowrate 24,1 ! Type107:Chilled water temperature ->Cold-side temperature 24,2 ! Type107:Chilled water flow rate ->Cold-side flowrate 0,0 ! [unconnected] Environment temperature 0,0 ! [unconnected] Control signal for element-1 0,0 ! [unconnected] Control signal for element-2 *** INITIAL INPUT VALUES 17 100 11 0 0 0.0 0.0 DERIVATIVES 6 17 ! 1 Initial temperature of node-1 16 ! 2 Initial temperature of node-2 15 ! 3 Initial temperature of node-3 14 ! 4 Initial temperature of node-4 13 ! 5 Initial temperature of node-5 11 ! 6 Initial temperature of node-6 *------------------------------------------------------------------------------ * Model "Type3b-2" (Type 3) * UNIT 27 TYPE 3 Type3b-2 *$UNIT_NAME Type3b-2 *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 266 733 *$LAYER Water Loop # PARAMETERS 5 27900 ! 1 Maximum flow rate 4.190 ! 2 Fluid specific heat 60.0 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 29,1 ! Type51b:Sump temperature ->Inlet fluid temperature 29,2 ! Type51b:Sump flow rate ->Inlet mass flow rate 38,1 ! Type2b-2:Output control function ->Control signal *** INITIAL INPUT VALUES 30 3200 1 *------------------------------------------------------------------------------ * Model "Type3b-3" (Type 3) * UNIT 28 TYPE 3 Type3b-3 *$UNIT_NAME Type3b-3 *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 556 818 *$LAYER Main # PARAMETERS 5 23200 ! 1 Maximum flow rate 4.190 ! 2 Fluid specific heat 60.0 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 26,3 ! Type4c-2:Temperature to load ->Inlet fluid temperature 26,4 ! Type4c-2:Flowrate to load ->Inlet mass flow rate 38,1 ! Type2b-2:Output control function ->Control signal *** INITIAL INPUT VALUES 17 23200 1 *------------------------------------------------------------------------------ * Model "Type51b" (Type 51) * UNIT 29 TYPE 51 Type51b *$UNIT_NAME Type51b *$MODEL .\HVAC\Cooling Towers\User-Supplied Coefficients\Type51b.tmf *$POSITION 354 733 *$LAYER Water Loop # PARAMETERS 11 1 ! 1 Calculation mode 1 ! 2 Flow geometry 1 ! 3 Number of tower cells 4000 ! 4 Maximum cell flow rate 1.0 ! 5 Fan power at maximum flow 10.0 ! 6 Minimum cell flow rate 1.0 ! 7 Sump volume 22 ! 8 Initial sump temperature 1.705 ! 9 Mass transfer constant -0.4183 ! 10 Mass transfer exponent 1 ! 11 Print performance results? INPUTS 6 24,3 ! Type107:Cooling water temperature ->Water inlet temperature 24,4 ! Type107:Cooling water flow rate ->Inlet water flow rate 331,7 ! Psychrometrics:Dry bulb temperature ->Dry bulb temperature 331,2 ! Psychrometrics:Wet bulb temperature ->Wet bulb temperature 0,0 ! [unconnected] Sump make-up temperature 0,0 ! [unconnected] Relative fan speed for cell *** INITIAL INPUT VALUES 36 3170 34 24 21 0.85 *------------------------------------------------------------------------------ * Model "Type3b-4" (Type 3) * UNIT 30 TYPE 3 Type3b-4 *$UNIT_NAME Type3b-4 *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 308 605 *$LAYER Main # PARAMETERS 5 58000 ! 1 Maximum flow rate 4.190 ! 2 Fluid specific heat 60.0 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 24,5 ! Type107:Hot water outlet temperature ->Inlet fluid temperature 24,6 ! Type107:Hot water flow rate ->Inlet mass flow rate 38,1 ! Type2b-2:Output control function ->Control signal *** INITIAL INPUT VALUES 20 100 1 *------------------------------------------------------------------------------ * Model "Type65c-2" (Type 65) * UNIT 35 TYPE 65 Type65c-2 *$UNIT_NAME Type65c-2 *$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf *$POSITION 449 850 *$LAYER Main # PARAMETERS 12 1 ! 1 Nb. of left-axis variables 0 ! 2 Nb. of right-axis variables 0.0 ! 3 Left axis minimum 50 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 1000.0 ! 6 Right axis maximum 1 ! 7 Number of plots per simulation 12 ! 8 X-axis gridpoints 0 ! 9 Shut off Online w/o removing 41 ! 10 Logical Unit for output file 0 ! 11 Output file units 0 ! 12 Output file delimiter INPUTS 1 24,1 ! Type107:Chilled water temperature ->Left axis variable *** INITIAL INPUT VALUES chiller LABELS 3 "Temperatures" "Heat transfer rates" "Graph g" *** External files ASSIGN "***.plt" 41 *|? What file should the online print to? |1000 *------------------------------------------------------------------------------ * Model "Type3b-5" (Type 3) * UNIT 34 TYPE 3 Type3b-5 *$UNIT_NAME Type3b-5 *$MODEL .\Hydronics\Pumps\Single Speed\Type3b.tmf *$POSITION 706 733 *$LAYER Water Loop # PARAMETERS 5 23200 ! 1 Maximum flow rate 4.190 ! 2 Fluid specific heat 60.0 ! 3 Maximum power 0.05 ! 4 Conversion coefficient 0.5 ! 5 Power coefficient INPUTS 3 Toutfinal ! Equa-3:Toutfinal ->Inlet fluid temperature 0,0 ! [unconnected] Inlet mass flow rate 0,0 ! [unconnected] Control signal *** INITIAL INPUT VALUES 0 23200 1.0 *------------------------------------------------------------------------------ * Model "Type31" (Type 31) * UNIT 36 TYPE 31 Type31 *$UNIT_NAME Type31 *$MODEL .\Hydronics\Pipe_Duct\Type31.tmf *$POSITION 747 829 *$LAYER Water Loop # PARAMETERS 6 0.2 ! 1 Inside diameter 5 ! 2 Pipe length 3.0 ! 3 Loss coefficient 1000.0 ! 4 Fluid density 4.190 ! 5 Fluid specific heat 10.0 ! 6 Initial fluid temperature INPUTS 3 26,1 ! Type4c-2:Temperature to heat source ->Inlet temperature 26,2 ! Type4c-2:Flowrate to heat source ->Inlet flow rate 0,0 ! [unconnected] Environment temperature *** INITIAL INPUT VALUES 11 23200 25 *------------------------------------------------------------------------------ * EQUATIONS "Equa-3" * EQUATIONS 10 Toutfinal = ((m1*[56,47])+(m2*[56,48])+(m3*[56,49])+(m4*[56,50])+(m5*[56,51])+(m6*[56,52])+(m7*[56,53])+(m8*[56,54])+(m9*[56,55]))/(m1+m2+m3+m4+m5+m6+m7+m8+m9) m1 = 495.58 m2 = 408.39 m3 = 395.74 m4 = 240.97 m5 = 227.92 m6 = 242.68 m7 = 469.84 m8 = 436.32 m9 = 456.56 *$UNIT_NAME Equa-3 *$LAYER Main *$POSITION 798 733 *------------------------------------------------------------------------------ * Model "Type2b-3" (Type 2) * UNIT 37 TYPE 2 Type2b-3 *$UNIT_NAME Type2b-3 *$MODEL .\Controllers\Differential Controller w_ Hysteresis\for Temperatures\Solver 0 (Successive Substitution) Control Strategy\Type2b.tmf *$POSITION 31 648 *$LAYER Controls # *$# NOTE: This control strategy can only be used with solver 0 (Successive substitution) *$# PARAMETERS 2 5 ! 1 No. of oscillations 100.0 ! 2 High limit cut-out INPUTS 6 16,1 ! Type1b:Outlet temperature ->Upper input temperature Th 18,1 ! Type4c:Temperature to heat source ->Lower input temperature Tl 18,3 ! Type4c:Temperature to load ->Monitoring temperature Tin 37,1 ! Type2b-3:Output control function ->Input control function 0,0 ! [unconnected] Upper dead band dT 0,0 ! [unconnected] Lower dead band dT *** INITIAL INPUT VALUES 20.0 10.0 20.0 0 10.0 2.0 *------------------------------------------------------------------------------ * Model "Type2b-2" (Type 2) * UNIT 38 TYPE 2 Type2b-2 *$UNIT_NAME Type2b-2 *$MODEL .\Controllers\Differential Controller w_ Hysteresis\for Temperatures\Solver 0 (Successive Substitution) Control Strategy\Type2b.tmf *$POSITION 372 925 *$LAYER Controls # *$# NOTE: This control strategy can only be used with solver 0 (Successive substitution) *$# PARAMETERS 2 5 ! 1 No. of oscillations 15 ! 2 High limit cut-out INPUTS 6 26,1 ! Type4c-2:Temperature to heat source ->Upper input temperature Th 26,1 ! Type4c-2:Temperature to heat source ->Lower input temperature Tl 28,1 ! Type3b-3:Outlet fluid temperature ->Monitoring temperature Tin 38,1 ! Type2b-2:Output control function ->Input control function 0,0 ! [unconnected] Upper dead band dT 0,0 ! [unconnected] Lower dead band dT *** INITIAL INPUT VALUES 15 11 15 0 0 0 *------------------------------------------------------------------------------ * EQUATIONS "Equa" * EQUATIONS 18 Toutp1 = [36,1] Toutp2 = [36,1] Toutp3 = [36,1] Toutp4 = [36,1] Toutp5 = [36,1] Toutp6 = [36,1] Toutp7 = [36,1] Toutp8 = [36,1] Toutp9 = [36,1] mdot1 = 495.58 mdot2 = 408.39 mdot3 = 395.74 mdot4 = 240.97 mdot5 = 227.92 mdot6 = 242.68 mdot7 = 469.84 mdot8 = 436.32 mdot9 = 456.56 *$UNIT_NAME Equa *$LAYER Main *$POSITION 883 733 *------------------------------------------------------------------------------ * Model "Type65c-4" (Type 65) * UNIT 41 TYPE 65 Type65c-4 *$UNIT_NAME Type65c-4 *$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf *$POSITION 612 658 *$LAYER Main # PARAMETERS 12 9 ! 1 Nb. of left-axis variables 0 ! 2 Nb. of right-axis variables 0.0 ! 3 Left axis minimum 60 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 1000.0 ! 6 Right axis maximum 1 ! 7 Number of plots per simulation 12 ! 8 X-axis gridpoints 0 ! 9 Shut off Online w/o removing 43 ! 10 Logical Unit for output file 0 ! 11 Output file units 0 ! 12 Output file delimiter INPUTS 9 56,47 ! Building: 47- TOFL_S52 ->Left axis variable-1 56,48 ! Building: 48- TOFL_S53 ->Left axis variable-2 56,49 ! Building: 49- TOFL_S54 ->Left axis variable-3 56,50 ! Building: 50- TOFL_S55 ->Left axis variable-4 56,51 ! Building: 51- TOFL_S56 ->Left axis variable-5 56,52 ! Building: 52- TOFL_S57 ->Left axis variable-6 56,53 ! Building: 53- TOFL_S58 ->Left axis variable-7 56,54 ! Building: 54- TOFL_S59 ->Left axis variable-8 56,55 ! Building: 55- TOFL_S60 ->Left axis variable-9 *** INITIAL INPUT VALUES cc1 cc2 cc3 cc4 cc5 cc6 cc7 cc8 cc9 LABELS 3 "Temperatures cc" "Heat transfer rates" "Graph cct" *** External files ASSIGN "***.plt" 43 *|? What file should the online print to? |1000 *------------------------------------------------------------------------------ * Model "Type65c-5" (Type 65) * UNIT 42 TYPE 65 Type65c-5 *$UNIT_NAME Type65c-5 *$MODEL .\Output\Online Plotter\Online Plotter With File\No Units\Type65c.tmf *$POSITION 985 669 *$LAYER Main # PARAMETERS 12 9 ! 1 Nb. of left-axis variables 0 ! 2 Nb. of right-axis variables 0.0 ! 3 Left axis minimum 60 ! 4 Left axis maximum 0.0 ! 5 Right axis minimum 1000.0 ! 6 Right axis maximum 1 ! 7 Number of plots per simulation 12 ! 8 X-axis gridpoints 0 ! 9 Shut off Online w/o removing 44 ! 10 Logical Unit for output file 0 ! 11 Output file units 0 ! 12 Output file delimiter INPUTS 9 Toutp1 ! Equa:Toutp1 ->Left axis variable-1 Toutp2 ! Equa:Toutp2 ->Left axis variable-2 Toutp3 ! Equa:Toutp3 ->Left axis variable-3 Toutp4 ! Equa:Toutp4 ->Left axis variable-4 Toutp5 ! Equa:Toutp5 ->Left axis variable-5 Toutp6 ! Equa:Toutp6 ->Left axis variable-6 Toutp7 ! Equa:Toutp7 ->Left axis variable-7 Toutp8 ! Equa:Toutp8 ->Left axis variable-8 Toutp9 ! Equa:Toutp9 ->Left axis variable-9 *** INITIAL INPUT VALUES cc1 cc2 cc3 cc4 cc5 cc6 cc7 cc8 cc9 LABELS 3 "Temperatures cc" "Heat transfer rates" "Graph cct2in" *** External files ASSIGN "***.plt" 44 *|? What file should the online print to? |1000 *------------------------------------------------------------------------------ END