hub/data/energy_systems/heat_pumps/w2w_series.txt

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B 1 DIV
256.1
135.1
B 2 DIV
86.1
86.2
B 3 DIV
1.1
279.1
B 4 DIV
257.1
119.1
B 5 DIV
123.1
168.1
B 6 DIV
179.1
127.1
B 7 DIV
123.1
174.1
B 8 DIV
179.1
167.1
B 9 DIV
107.1
123.1
B 10 DIV
171.1
147.1
B 11 DIV
264.1
146.1
B 76 SCREEN
2.1
P 76
'*' % Format
'HP Seasonal COP' % Headline
B 77 SCREEN
87.1
P 77
'*' % Format
'Total Cost of the Auxiliary Heater Fuel in a Year (CAD)' % Headline
B 78 SCREEN
85.1
P 78
'*' % Format
'Total Electricity Cost in a Year (CAD)' % Headline
B 79 SCREEN
84.1
P 79
'*' % Format
'Total Fossil Fuel consumption in a Year (m3)' % Headline
B 80 SCREEN
89.1
P 80
'*' % Format
'Total CO2 Emissions from Electricity Grid (g)' % Headline
B 81 SCREEN
83.1
P 81
'*' % Format
'Total CO2 Emissions from Auxiliary Heater (g)' % Headline
B 82 SCREEN
88.1
P 82
'*' % Format
'Total Electricuty Demand of Heat Pumps in a year (kWh)' % Headline
B 83 CUM
140.1
B 84 CUM
255.1
B 85 CUM
110.1
B 86 CUM
107.1
123.1
B 87 CUM
104.1
B 88 CUM
259.1
B 89 CUM
120.1
B 90 SUM
141.1
108.1
105.1
114.1
125.1
131.1
134.1
112.1
130.1
111.1
201.1
B 91 SUM
219.1
268.1
B 92 SUM
132.1
143.1
B 93 SUM
148.1
269.2
B 94 SUM
187.1
220.1
B 95 SUM
253.1
212.1
B 96 SUM
117.1
116.1
136.1
133.1
124.1
122.1
118.1
142.1
106.1
121.1
150.1
B 97 SUM
164.1
218.1
B 98 SUM
113.1
274.1
B 99 SUM
268.5
221.1
B 100 SUM
103.1
155.1
B 101 SUM
222.1
215.1
B 102 SUM
109.1
129.1
137.1
B 103 MUL
4.1
199.1
B 104 MUL
265.1
151.1
209.1
B 105 MUL
250.1
149.1
B 106 MUL
187.1
102.1
178.1
B 107 MUL
279.1
96.1
95.1
98.1
B 108 MUL
280.1
190.1
B 109 MUL
160.1
252.1
B 110 MUL
7.1
175.1
B 111 MUL
280.1
187.1
102.1
188.1
B 112 MUL
280.1
102.1
145.1
B 113 MUL
273.1
138.1
B 114 MUL
187.1
144.1
B 115 MUL
100.1
177.1
97.1
251.1
B 116 MUL
280.1
172.1
B 117 MUL
191.1
245.1
B 118 MUL
280.1
187.1
184.1
B 119 MUL
208.1
154.1
B 120 MUL
5.1
205.1
B 121 MUL
280.1
187.1
102.1
176.1
B 122 MUL
102.1
165.1
B 123 MUL
279.1
90.1
95.1
98.1
B 124 MUL
166.1
249.1
B 125 MUL
189.1
248.1
B 126 MUL
102.1
279.1
B 127 MUL
139.1
156.1
B 128 MUL
213.1
126.1
B 129 MUL
3.1
242.1
254.1
B 130 MUL
187.1
102.1
207.1
B 131 MUL
102.1
206.1
B 132 MUL
91.1
210.1
B 133 MUL
187.1
183.1
B 134 MUL
280.1
187.1
159.1
B 135 MUL
181.1
94.1
B 136 MUL
247.1
196.1
B 137 MUL
163.1
214.1
B 138 MUL
273.1
243.1
211.1
B 139 MUL
8.1
195.1
B 140 MUL
262.1
158.1
161.1
B 141 MUL
182.1
246.1
B 142 MUL
280.1
102.1
170.1
B 143 MUL
275.1
185.1
B 144 CONST
P 144
$b4 % Constant value
B 145 CONST
P 145
$b8 % Constant value
B 146 CONST
P 146
$FuelLHV % Constant value
B 147 CONST
P 147
$HPNominalCapacity % Constant value
B 148 CONST
P 148
10 % Constant value
B 149 CONST
P 149
$b3 % Constant value
B 150 CONST
P 150
$a11 % Constant value
B 151 CONST
P 151
300 % Constant value
B 152 CONST
P 152
40 % Constant value
B 153 CONST
P 153
2 % Constant value
B 154 CONST
P 154
$TemperatureDifference % Constant value
B 155 CONST
P 155
0 % Constant value
B 156 CONST
P 156
$Cp % Constant value
B 157 CONST
P 157
2 % Constant value
B 158 CONST
P 158
300 % Constant value
B 159 CONST
P 159
$b7 % Constant value
B 160 CONST
P 160
$LowestPossibleLoadFlow % Constant value
B 161 CONST
P 161
$FuelEF % Constant value
B 162 CONST
P 162
$TemperatureDifference % Constant value
B 163 CONST
P 163
$HighestPossibleLoadFlow % Constant value
B 164 CONST
P 164
$BuildingSuppTemp % Constant value
B 165 CONST
P 165
$a6 % Constant value
B 166 CONST
P 166
$a5 % Constant value
B 167 CONST
P 167
$HPNominalCapacity % Constant value
B 168 CONST
P 168
12 % Constant value
B 169 CONST
P 169
5 % Constant value
B 170 CONST
P 170
$a8 % Constant value
B 171 CONST
P 171
$MaximumHPEnergyInput % Constant value
B 172 CONST
P 172
$a2 % Constant value
B 173 CONST
P 173
2 % Constant value
B 174 CONST
P 174
12 % Constant value
B 175 CONST
P 175
$ElectricityPrice % Constant value
B 176 CONST
P 176
$a10 % Constant value
B 177 CONST
P 177
$Cp % Constant value
B 178 CONST
P 178
$a9 % Constant value
B 179 CONST
P 179
$MaximumHPEnergyInput % Constant value
B 180 CONST
P 180
0 % Constant value
B 181 CONST
P 181
$Cp % Constant value
B 182 CONST
P 182
$b1 % Constant value
B 183 CONST
P 183
$a4 % Constant value
B 184 CONST
P 184
$a7 % Constant value
B 185 CONST
P 185
25 % Constant value
B 186 CONST
P 186
2 % Constant value
B 187 CONST
P 187
$HPSupTemp % Constant value
B 188 CONST
P 188
$b10 % Constant value
B 189 CONST
P 189
$b5 % Constant value
B 190 CONST
P 190
$b2 % Constant value
B 191 CONST
P 191
$a1 % Constant value
B 192 CONST
P 192
$MaximumHPEnergyInput % Constant value
B 193 CONST
P 193
9 % Constant value
B 194 CONST
P 194
0 % Constant value
B 195 CONST
P 195
7.13 % Constant value
B 196 CONST
P 196
$a3 % Constant value
B 197 CONST
P 197
2 % Constant value
B 198 CONST
P 198
$HPReactivationTemperature % Constant value
B 199 CONST
P 199
1 % Constant value
B 200 CONST
P 200
2 % Constant value
B 201 CONST
P 201
$b11 % Constant value
B 202 CONST
P 202
$HPDisactivationTemperature % Constant value
B 203 CONST
P 203
40 % Constant value
B 204 CONST
P 204
0.40 % Constant value
B 205 CONST
P 205
$ElecGridEF % Constant value
B 206 CONST
P 206
$b6 % Constant value
B 207 CONST
P 207
$b9 % Constant value
B 208 CONST
P 208
$Cp % Constant value
B 209 CONST
P 209
$FuelPrice % Constant value
B 210 GT
268.1
152.1
B 211 GT
217.1
180.1
B 212 GT
271.2
193.1
B 213 GT
107.1
194.1
B 214 GT
3.1
163.1
B 215 DELAY
280.1
P 215
10 % Initial value
B 216 DELAY
268.5
P 216
0 % Initial value
B 217 DELAY
107.1
P 217
0 % Initial value
B 218 CHS
268.1
B 219 CHS
162.1
B 220 CHS
268.4
B 221 CHS
216.1
B 222 CHS
6.1
B 223 CUMC
271.2
259.1
B 224 CUMC
271.4
259.1
B 225 CUMC
271.2
120.1
140.1
B 226 CUMC
271.3
259.1
B 227 CUMC
271.2
110.1
104.1
B 228 CUMC
271.3
255.1
B 229 CUMC
271.3
110.1
104.1
B 230 CUMC
271.2
255.1
B 231 CUMC
271.3
120.1
140.1
B 232 WRITE
228.1
228.2
P 232
2 % Mode
$fileOut9 % File name
'*' % Fortran format
B 233 WRITE
227.1
227.2
227.3
P 233
2 % Mode
$fileOut3 % File name
'*' % Fortran format
B 234 WRITE
226.1
226.2
P 234
2 % Mode
$fileOut6 % File name
'*' % Fortran format
B 235 WRITE
230.1
230.2
P 235
2 % Mode
$fileOut4 % File name
'*' % Fortran format
B 236 WRITE
223.1
223.2
P 236
2 % Mode
$fileOut8 % File name
'*' % Fortran format
B 237 WRITE
231.1
231.2
231.3
P 237
2 % Mode
$fileOut2 % File name
'*' % Fortran format
B 238 WRITE
229.1
229.2
229.3
P 238
2 % Mode
$fileOut7 % File name
'*' % Fortran format
B 239 WRITE
271.1
271.2
271.3
224.1
224.2
P 239
2 % Mode
$fileOut10 % File name
'*' % Fortran format
B 240 WRITE
225.1
225.2
225.3
P 240
2 % Mode
$fileOut5 % File name
'*' % Fortran format
B 241 WRITE
271.1
271.2
271.3
271.4
271.5
107.1
123.1
9.1
128.1
100.1
268.1
268.2
268.3
268.4
268.5
258.1
260.1
11.1
263.1
110.1
104.1
120.1
140.1
92.1
277.1
269.2
96.1
90.1
P 241
2 % Mode
$fileOut1 % File name
'*' % Fortran format
B 242 GE
3.1
160.1
P 242
0 % Error tolerance
B 243 GE
268.1
198.1
P 243
0 % Error tolerance
B 244 GE
268.1
202.1
P 244
0 % Error tolerance
B 245 EXPG
280.1
157.1
B 246 EXPG
280.1
153.1
B 247 EXPG
187.1
197.1
B 248 EXPG
102.1
186.1
B 249 EXPG
102.1
173.1
B 250 EXPG
187.1
200.1
B 251 LT
268.1
203.1
B 252 LT
3.1
160.1
B 253 LT
271.2
169.1
B 254 LE
3.1
163.1
P 254
0 % Error tolerance
B 255 GAIN
261.1
P 255
300 % Gain factor g
B 256 GAIN
171.1
P 256
1000 % Gain factor g
B 257 GAIN
277.1
P 257
1000 % Gain factor g
B 258 ATT
268.5
P 258
3600000 % Attenuation factor a
B 259 ATT
123.1
P 259
12 % Attenuation factor a
B 260 ATT
99.1
P 260
3600000 % Attenuation factor a
B 261 ATT
11.1
P 261
$FuelDensity % Attenuation factor a
B 262 ATT
11.1
P 262
$FuelDensity % Attenuation factor a
B 263 ATT
115.1
P 263
1000 % Attenuation factor a
B 264 ATT
115.1
P 264
$AuxHeaterEfficiency % Attenuation factor a
B 265 ATT
11.1
P 265
$FuelDensity % Attenuation factor a
B 268 TANKST
187.1
128.1
92.1
100.1
93.1
272.1
P 268
$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
B 269 GENGT2
270.1
270.3
270.4
270.5
270.7
270.8
271.1
271.2
271.3
271.4
P 269
45.5 % Latitude
-73.62 % Longitude
-5 % UTC 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 270 MTM2
271.2
P 270
'Montreal' % Location
B 271 CLOCK
P 271
$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 272 SOY
271.1
271.2
271.3
271.4
271.5
271.6
B 273 INV
244.1
B 274 INV
243.1
B 275 INV
210.1
B 276 READ
P 276
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 277 READ
P 277
1 % Number of values to be read per record
0 % Number of records to be skipped on the first call
$WaterTemperature % File name
'*' % Fortran format
B 278 UBHLOSS
192.1
276.1
P 278
300 % L
0.5 % D
0.05 % U
3 % Tg
4190 % cp
1000 % rho
5 % delta_T
20 % dx
300 % df
B 279 INT
10.1
B 280 HXS
101.1
139.1
278.2
204.1
P 280
1 % Mode
5000 % Overall heat transfer coefficient
1007 % Specific heat of side 1 fluid
1007 % Specific heat of side 2 fluid