B 10 MUL 64.1 183.1 B 11 MUL 198.1 167.1 163.1 162.1 B 12 MUL 201.1 24.1 B 13 MUL 70.1 180.1 B 14 MUL 184.1 34.1 B 15 MUL 198.1 165.1 163.1 162.1 B 16 MUL 186.1 40.1 B 17 MUL 79.1 56.1 69.1 B 18 MUL 188.1 49.1 B 19 MUL 46.1 158.1 B 20 MUL 72.1 66.1 B 21 MUL 57.1 182.1 B 22 MUL 203.2 43.1 B 23 MUL 78.1 50.1 47.1 B 24 MUL 201.1 193.1 196.1 B 25 MUL 203.2 76.1 B 26 MUL 58.1 68.1 B 27 MUL 160.1 63.1 168.1 136.1 B 28 MUL 58.1 60.1 B 29 MUL 65.1 181.1 B 30 MUL 203.2 58.1 36.1 B 31 MUL 159.1 195.1 B 32 MUL 203.2 58.1 77.1 B 33 MUL 202.1 74.1 B 34 CONST P 34 $ElecGridEF % Constant value B 35 CONST P 35 5 % Constant value B 36 CONST P 36 $a3 % Constant value B 37 CONST P 37 $TemperatureDifference % Constant value B 38 CONST P 38 42 % Constant value B 39 CONST P 39 40 % Constant value B 40 CONST P 40 $ElectricityPrice % Constant value B 41 CONST P 41 9 % Constant value B 42 CONST P 42 12 % Constant value B 43 CONST P 43 $b2 % Constant value B 44 CONST P 44 $a6 % Constant value B 45 CONST P 45 55 % Constant value B 46 CONST P 46 $Cp % Constant value B 47 CONST P 47 $FuelEF % Constant value B 48 CONST P 48 2 % Constant value B 49 CONST P 49 1 % Constant value B 50 CONST P 50 300 % Constant value B 51 CONST P 51 10 % Constant value B 52 CONST P 52 0 % Constant value B 53 CONST P 53 12 % Constant value B 54 CONST P 54 $FuelLHV % Constant value B 55 CONST P 55 2 % Constant value B 56 CONST P 56 300 % Constant value B 57 CONST P 57 $b5 % Constant value B 58 CONST P 58 $HPSupTemp % Constant value B 59 CONST P 59 40 % Constant value B 60 CONST P 60 $a4 % Constant value B 61 CONST P 61 $b6 % Constant value B 62 CONST P 62 2 % Constant value B 63 CONST P 63 $Cp % Constant value B 64 CONST P 64 $b1 % Constant value B 65 CONST P 65 $a1 % Constant value B 66 CONST P 66 $TemperatureDifference % Constant value B 67 CONST P 67 $MaximumHPEnergyInput % Constant value B 68 CONST P 68 $b4 % Constant value B 69 CONST P 69 $FuelPrice % Constant value B 70 CONST P 70 $a5 % Constant value B 71 CONST P 71 2 % Constant value B 72 CONST P 72 $Cp % Constant value B 73 CONST P 73 $BuildingSuppTemp % Constant value B 74 CONST P 74 25 % Constant value B 75 CONST P 75 0 % Constant value B 76 CONST P 76 $a2 % Constant value B 77 CONST P 77 $b3 % Constant value B 78 ATT 191.1 P 78 $FuelDensity % Attenuation factor a B 79 ATT 191.1 P 79 $FuelDensity % Attenuation factor a B 80 ATT 27.1 P 80 $AuxHeaterEfficiency % Attenuation factor a B 81 ATT 191.1 P 81 $FuelDensity % Attenuation factor a B 82 ATT 11.1 P 82 12 % Attenuation factor a B 83 ATT 210.5 P 83 3600000 % Attenuation factor a B 84 ATT 161.1 P 84 3600000 % Attenuation factor a B 85 ATT 27.1 P 85 1000 % Attenuation factor a B 125 WRITE 156.1 156.2 156.3 P 125 2 % Mode 0 % Suppress FNQ inputs $fileOut7 % File name '*' % Fortran format B 126 WRITE 151.1 151.2 151.3 P 126 2 % Mode 0 % Suppress FNQ inputs $fileOut2 % File name '*' % Fortran format B 127 WRITE 154.1 154.2 154.3 P 127 2 % Mode 0 % Suppress FNQ inputs $fileOut3 % File name '*' % Fortran format B 128 WRITE 153.1 153.2 153.3 P 128 2 % Mode 0 % Suppress FNQ inputs $fileOut5 % File name '*' % Fortran format B 129 WRITE 204.1 204.2 204.3 204.4 204.5 15.1 11.1 190.1 187.1 160.1 210.1 210.2 210.3 210.4 210.5 83.1 84.1 191.1 85.1 16.1 17.1 14.1 23.1 164.1 145.1 P 129 2 % Mode 0 % Suppress FNQ inputs $fileOut1 % File name '*' % Fortran format B 130 WRITE 204.1 204.2 204.3 152.1 152.2 P 130 2 % Mode 0 % Suppress FNQ inputs $fileOut10 % File name '*' % Fortran format B 131 WRITE 149.1 149.2 P 131 2 % Mode 0 % Suppress FNQ inputs $fileOut9 % File name '*' % Fortran format B 132 WRITE 157.1 157.2 P 132 2 % Mode 0 % Suppress FNQ inputs $fileOut8 % File name '*' % Fortran format B 133 WRITE 150.1 150.2 P 133 2 % Mode 0 % Suppress FNQ inputs $fileOut4 % File name '*' % Fortran format B 134 WRITE 155.1 155.2 P 134 2 % Mode 0 % Suppress FNQ inputs $fileOut6 % File name '*' % Fortran format B 135 LT 204.2 35.1 B 136 LT 210.1 39.1 %B 137 SCREEN %176.1 %P 137 %'*' % Format %'Total CO2 Emissions from Electricity Grid (g)' % Headline %B 138 SCREEN %178.1 %P 138 %'*' % Format %'Total Electricity Cost in a Year (CAD)' % Headline %B 139 SCREEN %173.1 %P 139 %'*' % Format %'Total Cost of the Auxiliary Heater Fuel in a Year (CAD)' % Headline %B 140 SCREEN %177.1 %P 140 %'*' % Format %'Total CO2 Emissions from Auxiliary Heater (g)' % Headline %B 141 SCREEN %189.1 %P 141 %'*' % Format %'HP Seasonal COP' % Headline %B 142 SCREEN %148.1 %P 142 %'*' % Format %'Maximum Number of HPs in Operation' % Headline %B 143 SCREEN %174.1 %P 143 %'*' % Format %'Total Electricuty Demand of Heat Pumps in a year (kWh)' % Headline %B 144 SCREEN %179.1 %P 144 %'*' % Format %'Total Fossil Fuel consumption in a Year (m3)' % Headline B 145 READ P 145 1 % Number of values to be read per record 0 % Number of records to be skipped on the first call $HeatingDemand % File name '*' % Fortran format B 146 DELAY 15.1 P 146 0 % Initial value B 147 DELAY 210.5 P 147 0 % Initial value B 148 MAXX 198.1 B 149 CUMC 204.3 205.1 B 150 CUMC 204.2 205.1 B 151 CUMC 204.3 14.1 23.1 B 152 CUMC 204.4 82.1 B 153 CUMC 204.2 14.1 23.1 B 154 CUMC 204.2 16.1 17.1 B 155 CUMC 204.3 82.1 B 156 CUMC 204.3 16.1 17.1 B 157 CUMC 204.2 82.1 B 158 SUM 58.1 169.1 B 159 SUM 170.1 210.1 B 160 SUM 18.1 75.1 B 161 SUM 210.5 172.1 B 162 SUM 12.1 200.1 B 163 SUM 135.1 197.1 B 164 SUM 31.1 33.1 B 165 SUM 29.1 25.1 30.1 28.1 13.1 44.1 B 166 SUM 51.1 203.2 B 167 SUM 10.1 22.1 32.1 26.1 21.1 61.1 B 168 SUM 73.1 171.1 B 169 CHS 210.4 B 170 CHS 37.1 B 171 CHS 210.1 B 172 CHS 147.1 B 173 CUM 17.1 B 174 CUM 82.1 B 175 CUM 15.1 11.1 B 176 CUM 14.1 B 177 CUM 23.1 B 178 CUM 16.1 B 179 CUM 205.1 B 180 EXPG 58.1 55.1 B 181 EXPG 203.2 71.1 B 182 EXPG 58.1 48.1 B 183 EXPG 203.2 62.1 B 184 DIV 11.1 53.1 B 185 DIV 67.1 165.1 B 186 DIV 11.1 42.1 B 187 DIV 206.1 19.1 B 188 DIV 207.1 20.1 B 189 DIV 175.1 175.2 B 190 DIV 15.1 11.1 B 191 DIV 80.1 54.1 B 192 GE 210.1 45.1 P 192 0 % Error tolerance B 193 GE 210.1 38.1 P 193 0 % Error tolerance B 194 SOY 204.1 204.2 204.3 204.4 204.5 204.6 B 195 GT 210.1 59.1 B 196 GT 146.1 52.1 B 197 GT 204.2 41.1 B 198 INT 185.1 B 199 MTM 204.2 P 199 'Montreal' % Location B 200 INV 193.1 B 201 INV 192.1 B 202 INV 195.1 B 203 GENGT 199.1 199.3 199.4 199.5 199.7 199.8 204.1 204.2 204.3 204.4 P 203 45.5 % Latitude 73.62 % Longitude 5 % Time zone 1 % Variance factor of the Gordon Reddy correlation 0 % Year-to-year variability 0.3 % Autocorrelation coefficient lag one 0.171 % Autocorrelation coefficient lag two 4711 % Initialisation of random number generator 2 % Maximum allowed mean temperature deviation 100 % Maximum number of iterations B 204 CLOCK P 204 $StartYear % Start year $StartMonth % Start month $StartDay % Start day $StartHour % Start hour $StartMinute % Start minute $StartSecond % Start second $EndYear % End year $EndMonth % End month $EndDay % End day $EndHour % End hour $EndMinute % End minute $EndSecond % End second 5 % Increment 'm' % Unit B 205 GAIN 81.1 P 205 300 % Gain factor g B 206 GAIN 15.1 P 206 1000 % Gain factor g B 207 GAIN 145.1 P 207 1000 % Gain factor g B 210 TANKST 58.1 187.1 164.1 160.1 166.1 194.1 P 210 $TESCapacity % Tank volume 4 % Number of temperature nodes $TESDiameter % Tank diameter $Cp % Specfic heat of fluid $Rhow % Fluid density 0 % Overall heat-loss coefficient 1 % Effective heat conductivity 30 % Initial tank temperature