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Functions/Subroutines
anemsn_module Module Reference

Functions/Subroutines

subroutine anthropogenicemissions (CO2PointSource, EmissionsMethod, it, imin, DLS, DayofWeek_id, EF_umolCO2perJ, FcEF_v_kgkm, EnEF_v_Jkm, TrafficUnits, FrFossilFuel_Heat, FrFossilFuel_NonHeat, MinFCMetab, MaxFCMetab, MinQFMetab, MaxQFMetab, PopDensDaytime, PopDensNighttime, Temp_C, HDD_id, Qf_A, Qf_B, Qf_C, AH_MIN, AH_SLOPE_Heating, AH_SLOPE_Cooling, BaseT_Heating, BaseT_Cooling, TrafficRate, QF0_BEU, QF_SAHP, Fc_anthro, Fc_metab, Fc_traff, Fc_build, Fc_point, AHProf_24hr, HumActivity_24hr, TraffProf_24hr, PopProf_24hr, SurfaceArea)
 

Function/Subroutine Documentation

◆ anthropogenicemissions()

subroutine anemsn_module::anthropogenicemissions ( real(kind(1d0)), intent(in)  CO2PointSource,
integer, intent(in)  EmissionsMethod,
integer, intent(in)  it,
integer, intent(in)  imin,
integer, intent(in)  DLS,
integer, dimension(3), intent(in)  DayofWeek_id,
real(kind(1d0)), intent(in)  EF_umolCO2perJ,
real(kind(1d0)), dimension(2), intent(in)  FcEF_v_kgkm,
real(kind(1d0)), intent(in)  EnEF_v_Jkm,
real(kind(1d0)), intent(in)  TrafficUnits,
real(kind(1d0)), intent(in)  FrFossilFuel_Heat,
real(kind(1d0)), intent(in)  FrFossilFuel_NonHeat,
real(kind(1d0)), intent(in)  MinFCMetab,
real(kind(1d0)), intent(in)  MaxFCMetab,
real(kind(1d0)), intent(in)  MinQFMetab,
real(kind(1d0)), intent(in)  MaxQFMetab,
real(kind(1d0)), dimension(2), intent(in)  PopDensDaytime,
real(kind(1d0)), intent(in)  PopDensNighttime,
real(kind(1d0)), intent(in)  Temp_C,
real(kind(1d0)), dimension(12), intent(in)  HDD_id,
real(kind(1d0)), dimension(2), intent(in)  Qf_A,
real(kind(1d0)), dimension(2), intent(in)  Qf_B,
real(kind(1d0)), dimension(2), intent(in)  Qf_C,
real(kind(1d0)), dimension(2), intent(in)  AH_MIN,
real(kind(1d0)), dimension(2), intent(in)  AH_SLOPE_Heating,
real(kind(1d0)), dimension(2), intent(in)  AH_SLOPE_Cooling,
real(kind(1d0)), dimension(2), intent(in)  BaseT_Heating,
real(kind(1d0)), dimension(2), intent(in)  BaseT_Cooling,
real(kind(1d0)), dimension(2), intent(in)  TrafficRate,
real(kind(1d0)), dimension(2), intent(in)  QF0_BEU,
real(kind(1d0)), intent(out)  QF_SAHP,
real(kind(1d0)), intent(out)  Fc_anthro,
real(kind(1d0)), intent(out)  Fc_metab,
real(kind(1d0)), intent(out)  Fc_traff,
real(kind(1d0)), intent(out)  Fc_build,
real(kind(1d0)), intent(out)  Fc_point,
real(kind(1d0)), dimension(0:23, 2), intent(in)  AHProf_24hr,
real(kind(1d0)), dimension(0:23, 2), intent(in)  HumActivity_24hr,
real(kind(1d0)), dimension(0:23, 2), intent(in)  TraffProf_24hr,
real(kind(1d0)), dimension(0:23, 2), intent(in)  PopProf_24hr,
real(kind(1d0)), intent(in)  SurfaceArea 
)

Definition at line 29 of file suews_phys_anemsn.f95.

43
44 ! Simple anthropogenic heat parameterisation and co2 calculation
45 ! Calculates QF_SAHP and Fc_anthro
46
47 IMPLICIT NONE
48
49 INTEGER, INTENT(in) :: &
50 emissionsmethod, &
51 it, & !Hour
52 imin, & !Minutes
53 dls !day lightsavings =1+1h=0
54
55 INTEGER, DIMENSION(3), INTENT(in) :: DayofWeek_id !1 - day of week; 2 - month; 3 - season
56
57 REAL(KIND(1D0)), DIMENSION(12), INTENT(in) :: HDD_id !Heating Degree Days (see SUEWS_DailyState.f95)
58
59 REAL(KIND(1D0)), DIMENSION(2), INTENT(in) :: &
60 qf_a, qf_b, qf_c, & !Qf coefficients
61 ah_min, & !Minimum anthropogenic heat flux
62 ah_slope_heating, & !Slope of the anthropogenic heat flux calculation
63 ah_slope_cooling, &
64 fcef_v_kgkm, & !CO2 Emission factor
65 popdensdaytime, & !Daytime population density [ha-1] (i.e. workers)
66 baset_heating, & !Critical temperature
67 baset_cooling, & !Critical cooling temperature
68 trafficrate, & !Traffic rate
69 qf0_beu
70
71 REAL(KIND(1D0)), DIMENSION(0:23, 2), INTENT(in) :: AHProf_24hr
72 REAL(KIND(1D0)), DIMENSION(0:23, 2), INTENT(in) :: HumActivity_24hr
73 REAL(KIND(1D0)), DIMENSION(0:23, 2), INTENT(in) :: TraffProf_24hr
74 REAL(KIND(1D0)), DIMENSION(0:23, 2), INTENT(in) :: PopProf_24hr
75
76 REAL(KIND(1D0)), INTENT(in) :: &
77 co2pointsource, & !Point source [kgC day-1]
78 ef_umolco2perj, &
79 enef_v_jkm, & !Energy Emission factor
80 trafficunits, & !Traffic Units choice
81 frfossilfuel_heat, & !Fraction of Fossil Fuel heat
82 frfossilfuel_nonheat, & !Fraction of Fossil Fuel non heat
83 minfcmetab, & !Minimum FC Metabolism
84 maxfcmetab, & !Maximum FC Metabolism
85 minqfmetab, & !Minimum QF Metabolism
86 maxqfmetab, & !Maximum QF Metabolism
87 popdensnighttime, & !Nighttime population density [ha-1] (i.e. residents)
88 surfacearea, & !Surface area [m-2]
89 temp_c !Air temperature
90
91 REAL(KIND(1D0)), INTENT(out) :: &
92 qf_sahp, &
93 fc_anthro, &
94 fc_metab, fc_traff, fc_build, fc_point
95
96 INTEGER :: &
97 iu, & !1=weekday OR 2=weekend
98 ih
99
100 REAL(KIND(1D0)) :: &
102 get_prof_spectime_mean, & !external function to get profile value at specified timestamp
103 hdd_daily, & !daily HDD
104 cdd_daily, & !daily HDD
105 tair_avg_daily, & !daily mean air temperature
106 numcapita(2), &
107 dp_x_rhopop, dp_x_rhopop_traff, &
108 qf_build, qf_metab, qf_traff, &
109 qf_sahp_base, & !Anthropogenic heat flux calculated by SAHP (temp independent part)
110 qf_sahp_heating, & !Anthropogenic heat flux calculated by SAHP (heating part only)
111 qf_sahp_cooling, & !AC contribution
112 popdornort, & ! Population
113 actdornort, & ! Human activity
114 traffdornort, & ! Traffic
115 ahdornort ! Anthropogenic heat
116
117 ! initialisation
118 qf_traff = 0
119 qf_sahp_heating = 0
120 qf_sahp_cooling = 0
121
122 ! Transfer HDD/CDD values to local explict variables
123 hdd_daily = hdd_id(7)
124 cdd_daily = hdd_id(8)
125 ! NB: temporarily use 5-day running mean to test the performance
126 tair_avg_daily = hdd_id(10)
127
128 ! Tair_avg_daily= HDD_id_use(3) ! this is daily
129
130 ! use average of both daytime and nighttime population values
131 ! TS 20 Sep 2019: moved from here to simplify the interface
132 IF (popdensdaytime(1) >= 0 .AND. popdensnighttime >= 0) numcapita(1) = (popdensdaytime(1) + popdensnighttime)/2 !If both, use average
133 IF (popdensdaytime(2) >= 0 .AND. popdensnighttime >= 0) numcapita(2) = (popdensdaytime(2) + popdensnighttime)/2 !If both, use average
134
135 !NumCapita = (PopDensDaytime + PopDensNighttime)/2
136
137 !-----------------------------------------------------------------------
138 ! Account for Daylight saving
139 ih = it - dls
140 IF (ih < 0) ih = 23
141
142 ! Set weekday/weekend counter
143 iu = 1 !Set to 1=weekday
144 IF (dayofweek_id(1) == 1 .OR. dayofweek_id(1) == 7) iu = 2 !Set to 2=weekend
145
146 ! Calculate energy emissions and CO2 from human metabolism -------------
147 ! Pop dens (cap ha-1 -> cap m-2) x activity level (W cap-1)
148 ! PopDorNorT = PopProf_tstep((NSH*(ih+1-1)+imin*NSH/60+1),iu) ! 1=night, 2=day, 1-2=transition
149 ! ActDorNorT = HumActivity_tstep((NSH*(ih+1-1)+imin*NSH/60+1),iu) ! 1=night, 2=day, 1-2=transition
150 ! TraffDorNorT = TraffProf_tstep((NSH*(ih+1-1)+imin*NSH/60+1),iu) ! normalise so the AVERAGE of the multipliers is equal to 1
151 ! AHDorNorT = AHProf_tstep((NSH*(ih+1-1)+imin*NSH/60+1),iu) ! normalise so the AVERAGE of the multipliers is equal to 1
152 ! PRINT*, ''
153 ! PRINT*, 'AHDorNorT old:',AHDorNorT
154 popdornort = get_prof_spectime_inst(ih, imin, 0, popprof_24hr(:, iu)) ! 1=night, 2=day, 1-2=transition
155 actdornort = get_prof_spectime_inst(ih, imin, 0, humactivity_24hr(:, iu)) ! 1=night, 2=day, 1-2=transition
156 traffdornort = get_prof_spectime_mean(ih, imin, 0, traffprof_24hr(:, iu)) ! normalise so the AVERAGE of the multipliers is equal to 1
157 ahdornort = get_prof_spectime_mean(ih, imin, 0, ahprof_24hr(:, iu)) ! normalise so the AVERAGE of the multipliers is equal to 1
158
159 ! Diurnal profile times population density [cap ha-1]
160 dp_x_rhopop = ahdornort*numcapita(iu)
161
162 qf_metab = (popdensnighttime*minqfmetab*((2 - actdornort) + (2 - popdornort))/2 + &
163 popdensdaytime(iu)*maxqfmetab*((actdornort - 1) + (popdornort - 1))/2)/10000 !W m-2
164
165 fc_metab = (popdensnighttime*minfcmetab*((2 - actdornort) + (2 - popdornort))/2 + &
166 popdensdaytime(iu)*maxfcmetab*((actdornort - 1) + (popdornort - 1))/2)/10000 !umol m-2 s-1
167
168 !----------------------------------------------------------------------------------------------------
169 !Different methods to calculate the anthopogenic heat and CO2 emissions.
170 !1-3: CO2 emission is calculated from QF which can be calculated with three methods
171 !41-43: CO2 emission is calculated with local information. QF methods are used for housing and human metabolism
172
173 IF (emissionsmethod == 1 .OR. emissionsmethod == 4 .OR. &
174 emissionsmethod == 11 .OR. emissionsmethod == 14 .OR. &
175 emissionsmethod == 21 .OR. emissionsmethod == 24 .OR. &
176 emissionsmethod == 31 .OR. emissionsmethod == 34 .OR. &
177 emissionsmethod == 41 .OR. emissionsmethod == 44) THEN ! (formerly SAHP_1 subroutine)
178 ! Loridan et al. (2011) JAMC Eq 13: linear relation with air temperature
179 ! Weekday/weekend differences due to profile only
180 ! Now scales with population density
181
182 IF (temp_c < baset_heating(iu)) THEN
183 ! QF_SAHP = (AH_MIN(iu) + AH_SLOPE_Heating(iu)*(BaseT_Heating(iu) - Temp_C))*AHDorNorT
184 qf_sahp_heating = (ah_slope_heating(iu)*(baset_heating(iu) - temp_c))*ahdornort
185 ELSE
186 qf_sahp_heating = 0
187 ! QF_SAHP = AH_MIN(iu)*AHDorNorT
188 END IF
189
190 ! Need to be checked later, not recommended to use
191 qf_sahp_base = ah_min(iu)*ahdornort ! Temperature-independent contribution
192 qf_sahp_cooling = 0 ! No AC contribution with this method
193
194 ELSEIF (emissionsmethod == 2 .OR. emissionsmethod == 5 .OR. &
195 emissionsmethod == 12 .OR. emissionsmethod == 15 .OR. &
196 emissionsmethod == 22 .OR. emissionsmethod == 25 .OR. &
197 emissionsmethod == 32 .OR. emissionsmethod == 35 .OR. &
198 emissionsmethod == 42 .OR. emissionsmethod == 45) THEN ! (formerly SAHP_2 subroutine)
199 ! Jarvi et al. (2011) JH Eq 3 using HDD and CDD
200 ! Weekday/weekend differences due to profile and coefficients QF_a,b,c
201 ! Scales with population density
202 ! QF_SAHP = (Qf_a(iu) + Qf_b(iu)*CDD_daily + Qf_c(iu)*HDD_daily)*DP_x_RhoPop !This contains QF from all three sources: buildings, metabolism and traffic!
203 qf_sahp_base = (qf_a(iu))*dp_x_rhopop ! Temperature-independent contribution from buildings, traffic and human metabolism
204 qf_sahp_heating = (qf_c(iu)*hdd_daily)*dp_x_rhopop ! Heating contribution
205 qf_sahp_cooling = (qf_b(iu)*cdd_daily)*dp_x_rhopop ! Cooling (AC) contribution
206
207 ELSEIF (emissionsmethod == 3 .OR. emissionsmethod == 6 .OR. &
208 emissionsmethod == 13 .OR. emissionsmethod == 16 .OR. &
209 emissionsmethod == 23 .OR. emissionsmethod == 26 .OR. &
210 emissionsmethod == 33 .OR. emissionsmethod == 36 .OR. &
211 emissionsmethod == 43 .OR. emissionsmethod == 46) THEN
212 ! Updated Loridan et al. (2011) method using daily (not instantaneous) air temperature (HDD_id_use(3))
213 ! Linear relation with air temperature
214 ! Weekday/weekend differences due to profile only
215 ! Scales with population density
216
217 ! Need to be checked later, not recommended to use
218 qf_sahp_base = ah_min(iu)*ahdornort ! Temperature-independent contribution
219
220 IF (tair_avg_daily < baset_heating(iu)) THEN ! Heating
221 qf_sahp_heating = (ah_slope_heating(iu)*(baset_heating(iu) - tair_avg_daily))*ahdornort ! Heating contribution
222 qf_sahp_cooling = 0
223
224 ELSEIF (tair_avg_daily > baset_cooling(iu)) THEN ! Air-conditioning
225 qf_sahp_heating = 0
226 qf_sahp_cooling = (ah_slope_cooling(iu)*(tair_avg_daily - baset_cooling(iu)))*ahdornort ! AC contribution
227
228 ELSE
229 qf_sahp_heating = 0
230 qf_sahp_cooling = 0
231 END IF
232
233 END IF
234
235 ! total QF as the sum of components
236 qf_sahp = qf_sahp_base + qf_sahp_heating + qf_sahp_cooling
237
238 IF (emissionsmethod >= 1 .AND. emissionsmethod <= 3 .OR. &
239 emissionsmethod >= 11 .AND. emissionsmethod <= 13 .OR. &
240 emissionsmethod >= 21 .AND. emissionsmethod <= 23 .OR. &
241 emissionsmethod >= 31 .AND. emissionsmethod <= 33 .OR. &
242 emissionsmethod >= 41 .AND. emissionsmethod <= 43) THEN
243
244 ! Calculate QF from buildings.
245 ! First remove (if possibe) human metabolism from the total value given by SAHP.
246 IF ((qf_sahp_base - qf_metab) > 0) THEN
247 qf_build = qf_sahp_base*qf0_beu(iu) + qf_sahp_heating + qf_sahp_cooling !QF0_BEU = QF0_BuildingEnergyUse = Fraction of base value coming from buildings
248 !relative to traffic as metabolism is separately calculated
249 ELSE
250 CALL errorhint(69, 'QF metab exceeds base QF.', qf_metab, qf_sahp_base)
251
252 qf_build = qf_sahp_heating + qf_sahp_cooling + (qf_sahp_base - qf_metab) !If human metabolism greater than Base QF, remove this from the heating/cooling contribution also
253 END IF
254
255 ! Consider the various components of QF_build to calculate Fc_build
256 ! Assume all A/C electric, so QF_SAHP_ac is not associated with any local CO2 emissions
257 ! HDD part is building energy use, split between electricity (no local emissions CO2) and combustion (CO2) heating...
258 fc_build = qf_sahp_heating*frfossilfuel_heat*ef_umolco2perj
259
260 ! ... and there is also a temperature-independent contribution from building energy use.
261 IF ((qf_sahp_base - qf_metab) > 0) THEN
262 fc_build = fc_build + qf_sahp_base*qf0_beu(iu)*frfossilfuel_nonheat*ef_umolco2perj
263 END IF
264
265 ! Remainder of temperature-independent part must be traffic
266 !QF_traff = (QF_SAHP_base-QF_metab)*(1.0-QF0_BEU(iu))
267 qf_traff = qf_sahp_base*(1.0 - qf0_beu(iu)) - qf_metab
268
269 ! Divide QF by energy emission factor and multiply by CO2 factor
270 fc_traff = qf_traff/enef_v_jkm*fcef_v_kgkm(iu)*1e3*1e6/44
271
272 !CO2 point source [kg C day-1] * 1e3 g kg-1 * 1e6 umol mol-1 /(12 g mol-1 * m-2)
273 IF (co2pointsource > 0) THEN
274 fc_point = co2pointsource*1e3*1e6/(12*60*60*24*surfacearea)
275 ELSE
276 fc_point = 0
277 END IF
278
279 ! Sum components to give anthropogenic CO2 flux [umol m-2 s-1]
280 fc_anthro = fc_metab + fc_traff + fc_build + fc_point
281
282 ELSEIF (emissionsmethod >= 4 .AND. emissionsmethod <= 6 .OR. &
283 emissionsmethod >= 14 .AND. emissionsmethod <= 16 .OR. &
284 emissionsmethod >= 24 .AND. emissionsmethod <= 26 .OR. &
285 emissionsmethod >= 34 .AND. emissionsmethod <= 36 .OR. &
286 emissionsmethod >= 44 .AND. emissionsmethod <= 46) THEN
287 ! Calculate QF and Fc using building energy use and transport statistics
288
289 ! Calculate energy released from traffic
290 IF (trafficunits == 1) THEN ! [veh km m-2 day-1]
291 ! Calculate using mean traffic rate [veh km m-2 day-1] * emission factor [J km-1]
292 qf_traff = trafficrate(iu)/(60*60*24)*enef_v_jkm*traffdornort
293 ! Use mean traffic rate [veh km m-2 s-1] * emission factor [kg km-1] * 1e3 g kg-1 /44 g mol-1 * 1e6 umol mol-1
294 fc_traff = trafficrate(iu)/(60*60*24)*fcef_v_kgkm(iu)*1e3*1e6/44*traffdornort
295
296 ELSEIF (trafficunits == 2) THEN ! [veh km cap-1 day-1]
297 dp_x_rhopop_traff = traffdornort*numcapita(iu)/10000 ! [cap m-2]
298 ! Use mean traffic rate [veh km cap-1 day-1] * emission factor [J km-1]
299 qf_traff = trafficrate(iu)/(60*60*24)*enef_v_jkm*dp_x_rhopop_traff
300 ! Use mean traffic rate [veh km cap-1 day-1] * emission factor [kg km-1] * 1e3 g kg-1 /44 g mol-1 * 1e6 umol mol-1
301 fc_traff = trafficrate(iu)/(60*60*24)*fcef_v_kgkm(iu)*1e3*1e6/44*dp_x_rhopop_traff
302
303 ELSE ! If TrafficUnits doesn't match possible units
304 CALL errorhint(75, 'Check TrafficUnits', trafficunits, -999d1)
305
306 END IF
307
308 ! Energy released from buildings only
309 ! Should buildings have their own profile? Now using population profile
310 qf_build = ((qf_sahp_base*qf0_beu(iu) + qf_sahp_heating + qf_sahp_cooling)/dp_x_rhopop)* &
311 (popdensnighttime*(2 - popdornort) + popdensdaytime(iu)*(popdornort - 1))
312
313 ! Consider the various components of QF_build to calculate Fc_build
314 fc_build = qf_sahp_heating*frfossilfuel_heat*ef_umolco2perj
315 ! ... and there is also a temperature-independent contribution from building energy use
316 fc_build = fc_build + qf_sahp_base*qf0_beu(iu)*frfossilfuel_nonheat*ef_umolco2perj
317
318 !CO2 point source [kg C day-1] * 1e3 g kg-1 * 1e6 umol mol-1 /(12 g mol-1 * m-2)
319 IF (co2pointsource > 0) THEN
320 fc_point = co2pointsource*1e3*1e6/(12*60*60*24*surfacearea)
321 ELSE
322 fc_point = 0
323 END IF
324
325 ! Add other QF components to QF_SAHP_base (because if AnthropEmissionsMethod = 4, QF calculated above is building part only)
326 qf_sahp_base = qf_sahp_base + qf_traff + qf_metab
327
328 ! Sum components to give anthropogenic heat flux [W m-2]
329 qf_sahp = qf_metab + qf_traff + qf_build
330
331 ! Sum components to give anthropogenic CO2 flux [umol m-2 s-1]
332 fc_anthro = fc_metab + fc_traff + fc_build + fc_point
333
334 END IF
335
336 RETURN
subroutine errorhint(errh, ProblemFile, VALUE, value2, valueI)
real(kind(1d0)) function get_prof_spectime_mean(Hour, Min, Sec, Prof_24h)
real(kind(1d0)) function get_prof_spectime_inst(Hour, Min, Sec, Prof_24h)

References errorhint().

Referenced by suews_driver::suews_cal_anthropogenicemission().

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