def __init__(self, temporary, number):
heat_stor = 0
ele_stor = 0
ice = InternalCombustionEngine(number, temporary)
chp = CHPInternalCombustionEngine(temporary, number)
heatstorage = HeatStorage(temporary)
elestorage = EleStorage(temporary)
gas_boiler = GasBoiler(temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
ele_bought = []
fuel = []
ele_ice = []
steam_boiler = []
for t in range(0, time, Parameters.delttime):
if ((demand.H_steam[t] >
chp.heat_steam_out_max + gas_boiler.nominal)
| (demand.H[t] + demand.H_steam[t] >
heatstorage.get_H_out_max(heat_stor) +
chp.heat_out_max + gas_boiler.nominal)):
self.judge = 0
break
else:
self.judge = 1
heat_steam_drive = HeatSteamDrive(t, temporary, number)
self.steam = heat_steam_drive.steam
self.gas_boiler_out_for_steam = heat_steam_drive.gas_boiler_out_for_steam
pl = ice.get_pl_through_exhaust_gas(
heat_steam_drive.exhaust_gas)
self.ele = pl * ice.nominal
self.heat = ice.get_jacket_water_pl(pl)
heat_follow = HeatFollow(t, temporary, heat_stor, self.heat)
heat_stor = heat_follow.heat_stor
self.gas_boiler_out_for_other = heat_follow.gas_boiler_out
ele_follow = EleFollow(t, temporary, ele_stor, self.ele)
ele_stor = ele_follow.ele_stor
ele_bought.append(ele_follow.ele_bought)
self.fuel_ice = ice.get_fuel(pl)
self.fuel_gas_boiler = gas_boiler.get_Fuel_in(
self.gas_boiler_out_for_steam +
self.gas_boiler_out_for_other)
fuel.append(self.fuel_ice + self.fuel_gas_boiler)
steam_boiler.append(self.steam + self.gas_boiler_out_for_steam +
self.gas_boiler_out_for_other)
ele_ice.append(self.ele)
if heat_stor > heatstorage.nominal:
heat_stor = heatstorage.nominal
if ele_stor > elestorage.nominal:
ele_stor = elestorage.nominal
self.fuel = sum(fuel)
self.ele_bought = sum(ele_bought)
self.emission_calculate_ice = sum(ele_ice)
self.emission_calculate_boiler = sum(steam_boiler)
self.emission_calculate_absorption_chiller = 0
self.emission_calculate_grid = self.ele_bought
def __init__(self, temporary, number):
self.internal_combustion_engine = InternalCombustionEngine(
number, temporary)
self.boiler = Boiler(temporary)
self.absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
self.number = number
self.temporary = temporary
self.ele_out_max = self.internal_combustion_engine.nominal
# chp.heat_steam_out_max是exhaust gas全部进入锅炉的蒸汽
# chp.heat_out_max 是exhaust gas全部进入锅炉的蒸汽 + 缸套水热
# chp.heat_space_water_max 是exhaust gas全部进入制冷机制热 + 缸套水热
# chp.cold_out_max 是exhaust gas和jacket water全部进入制冷剂的情况
# chp.cold_out_max_exhaust_gas 是exhaust gas全进入制冷机的情况
if self.internal_combustion_engine.get_exhaust_gas_pl(
1) * self.boiler.effi >= self.boiler.nominal:
self.heat_steam_out_max = self.boiler.nominal
else:
self.heat_steam_out_max = self.internal_combustion_engine.get_exhaust_gas_pl(
1) * self.boiler.effi
self.heat_out_max = self.heat_steam_out_max + self.internal_combustion_engine.get_jacket_water_pl(
1)
if (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_heat >=
self.absorption_chiller.heat_nominal):
self.heat_space_water_max = (
self.absorption_chiller.heat_nominal +
self.internal_combustion_engine.get_jacket_water_pl(1))
else:
self.heat_space_water_max = (
self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_heat +
self.internal_combustion_engine.get_jacket_water_pl(1))
cold = (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double +
self.internal_combustion_engine.get_jacket_water_pl(1) *
self.absorption_chiller.COP_single)
if cold >= self.absorption_chiller.nominal:
self.cold_out_max = self.absorption_chiller.nominal
else:
self.cold_out_max = cold
if (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double >=
self.absorption_chiller.nominal):
self.cold_out_max_exhaust_gas = self.absorption_chiller.nominal
else:
self.cold_out_max_exhaust_gas = (
self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double)
def __init__(self, temporary, number):
chp = CHPInternalCombustionEngine(temporary, number)
ice = InternalCombustionEngine(number, temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
gas_boiler = GasBoiler(temporary)
elestorage = EleStorage(temporary)
heatstorage = HeatStorage(temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
heat_stor = 0
ele_stor = 0
fuel = []
ele_bought = []
ele_ice = []
heat_gas_boiler = []
heat_absorption_chiller = []
for t in range(0, time, Parameters.delttime):
ele = min(demand.E[t] - elestorage.get_E_out_max(ele_stor), ice.nominal)
judge_heat = chp.get_heat_through_ele(ele)
if demand.H[t] > heatstorage.get_H_out_max(heat_stor) + judge_heat + gas_boiler.nominal:
self.judge = 0
break
else:
self.judge = 1
ele_drive = EleDrive(t, temporary, number, ele_stor)
if ele_drive.ele == 0:
heat_drive = HeatDriveChiller(t, temporary, number, heat_stor)
self.heat = heat_drive.heat
self.heat_gas_boiler = heat_drive.gas_boiler_out
self.ele = ice.get_ele_out_through_heat_mode(self.heat)
pl = self.ele / ice.nominal
self.heat_absorption_chiller = ice.get_exhaust_gas_pl(pl) * absorption_chiller.COP_heat
heat_stor = heat_drive.heat_stor
ele_stor = elestorage.get_S(ele_stor, self.ele, ele_drive.elestorage_out)
fuel.append(ice.get_fuel(pl) + gas_boiler.get_Fuel_in(heat_drive.gas_boiler_out))
ele_bought.append(0)
else:
self.ele = ele_drive.ele
pl = self.ele / ice.nominal
self.heat_absorption_chiller = ice.get_exhaust_gas_pl(pl) * absorption_chiller.COP_heat
self.heat = self.heat_absorption_chiller + ice.get_jacket_water_pl(pl)
heat_follow = HeatFollow(t, temporary, heat_stor, self.heat)
heat_stor = heat_follow.heat_stor
self.heat_gas_boiler = heat_follow.gas_boiler_out
self.fuel = ice.get_fuel(pl) + gas_boiler.get_Fuel_in(heat_follow.gas_boiler_out)
fuel.append(ice.get_fuel(pl) + gas_boiler.get_Fuel_in(heat_follow.gas_boiler_out))
ele_bought.append(ele_drive.ele_bought)
ele_ice.append(self.ele)
heat_gas_boiler.append(self.heat_gas_boiler)
heat_absorption_chiller.append(self.heat_absorption_chiller)
if heat_stor > heatstorage.nominal:
heat_stor = heatstorage.nominal
if ele_stor > elestorage.nominal:
ele_stor = elestorage.nominal
self.fuel = sum(fuel)
self.ele_bought = sum(ele_bought)
self.emission_calculate_ice = sum(ele_ice)
self.emission_calculate_boiler = sum(heat_gas_boiler)
self.emission_calculate_absorption_chiller = sum(self.heat_absorption_chiller)
self.emission_calculate_grid = self.ele_bought
def __init__(self, t, temporary, number, ele_stor):
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
elestorage = EleStorage(temporary)
self.elestorage_in = 0
if demand.E[t] <= elestorage.get_E_out_max(ele_stor):
self.status = 0
self.elestorage_out = demand.E[t]
self.ele = 0
self.ele_bought = 0
elif (
(demand.E[t] > elestorage.get_E_out_max(ele_stor))
&
(demand.E[t] <= elestorage.get_E_out_max(ele_stor) + ice.nominal)):
self.status = 1
self.elestorage_out = elestorage.get_E_out_max(ele_stor)
self.ele = demand.E[t] - self.elestorage_out
self.ele_bought = 0
else:
self.status = 1
self.elestorage_out = elestorage.get_E_out_max(ele_stor)
self.ele = ice.nominal
self.ele_bought = demand.E[t] - self.elestorage_out - self.ele
self.ele_stor = elestorage.get_S(ele_stor, self.elestorage_in,
self.elestorage_out)
def __init__(self, temporary, number):
ele_stor = 0
elestorage = EleStorage(temporary)
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
self.judge = 1
self.ele_bought = []
self.fuel = []
self.ele_ice = []
self.ele_waste = []
for t in range(6, 22, Parameters.delttime):
ele = ice.nominal
if demand.transition_E[t] <= ele:
elestorage_ele_out = 0
elestorage_ele_in = ele - demand.transition_E[t]
ele_bought = 0
elif (demand.transition_E[t] >
ele) & (demand.transition_E[t] <=
ele + elestorage.get_E_out_max(ele_stor)):
elestorage_ele_out = demand.transition_E[t] - ele
elestorage_ele_in = 0
ele_bought = 0
else:
elestorage_ele_out = elestorage.get_E_out_max(ele_stor)
elestorage_ele_in = 0
ele_bought = demand.transition_E[t] - ele - elestorage_ele_out
ele_stor = elestorage.get_S(ele_stor, elestorage_ele_in,
elestorage_ele_out)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
self.ele_ice.append(ele)
self.fuel.append(ice.get_fuel(1))
self.ele_bought.append(ele_bought)
for t in range(22, 24, Parameters.delttime):
ele_during_shut_down = EleDuringShutDown(temporary, t, ele_stor, 2)
ele_stor = ele_during_shut_down.ele_stor
self.ele_bought.append(ele_during_shut_down.ele_bought_for_ele)
for t in range(0, 6, Parameters.delttime):
ele_during_shut_down = EleDuringShutDown(temporary, t, ele_stor, 2)
ele_stor = ele_during_shut_down.ele_stor
self.ele_bought.append(ele_during_shut_down.ele_bought_for_ele)
def __init__(self, temporary, number):
cold_stor = 0
ele_stor = 0
chp = CHPInternalCombustionEngine(temporary, number)
heat_pump = HeatPump(temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
coldstorage = ColdStorage(temporary)
elestorage = EleStorage(temporary)
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
ele_bought = []
fuel = []
ele_ice = []
cold_absorption_chiller = []
for t in range(0, time, Parameters.delttime):
if demand.C[t] > coldstorage.get_C_out_max(
cold_stor) + chp.cold_out_max + heat_pump.nominal:
self.judge = 0
break
else:
self.judge = 1
cold_drive = ColdDrive(t, temporary, number, cold_stor)
if cold_drive.cold == 0:
ele_drive = EleDrive(t, temporary, number, ele_stor)
ele_stor = ele_drive.ele_stor
self.ele = ele_drive.ele
pl = self.ele / ice.nominal
exhaust_gas = ice.get_exhaust_gas_pl(pl)
jacket_water = ice.get_jacket_water_pl(pl)
self.cold = absorption_chiller.get_cold_out(
exhaust_gas, jacket_water)
cold_stor = coldstorage.get_S(cold_stor, self.cold,
cold_drive.coldstorage_out)
ele_bought.append(ele_drive.ele_bought)
fuel.append(ice.get_fuel(ele_drive.ele / ice.nominal))
else:
self.cold = cold_drive.cold
cold_stor = cold_drive.cold_stor
self.ele = ice.get_ele_out_through_cold(cold_drive.cold)
ele_follow = EleFollow(t, temporary, ele_stor, self.ele)
ele_stor = ele_follow.ele_stor
ele_bought.append(
heat_pump.get_E_in(cold_drive.heat_pump_out) +
ele_follow.ele_bought)
fuel.append(ice.get_fuel(self.ele / ice.nominal))
ele_ice.append(self.ele)
cold_absorption_chiller.append(self.cold)
if cold_stor > coldstorage.nominal:
cold_stor = coldstorage.nominal
if ele_stor > elestorage.nominal:
ele_stor = elestorage.nominal
self.fuel = sum(fuel)
self.ele_bought = sum(ele_bought)
self.emission_calculate_ice = sum(ele_ice)
self.emission_calculate_boiler = 0
self.emission_calculate_absorption_chiller = sum(
cold_absorption_chiller)
self.emission_calculate_grid = self.ele_bought
def __init__(self, temporary, number):
ele_stor = 0
elestorage = EleStorage(temporary)
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
ele_bought = []
fuel = []
ele_ice = []
for t in range(0, time, Parameters.delttime):
ele_drive = EleDrive(t, temporary, number, ele_stor)
self.ele = ele_drive.ele
ele_ice.append(self.ele)
pl = self.ele / ice.nominal
fuel.append(ice.get_fuel(pl))
ele_stor = elestorage.get_S(ele_stor, 0, ele_drive.elestorage_out)
ele_bought.append(ele_drive.ele_bought)
if ele_stor > elestorage.nominal:
ele_stor = elestorage.nominal
self.fuel = sum(fuel)
self.ele_bought = sum(ele_bought)
def __init__(self, t, temporary, number, heat_stor):
demand = DemandData()
heatstorage = HeatStorage(temporary)
ice = InternalCombustionEngine(number, temporary)
self.heatstorage_in = 0
if demand.H[t] <= heatstorage.get_H_out_max(heat_stor):
self.heatstorage_out = demand.H[t]
self.heat = 0
self.gas_boiler_out = 0
elif ((demand.H[t] > heatstorage.get_H_out_max(heat_stor))
& (demand.H[t] <= heatstorage.get_H_out_max(heat_stor) +
ice.get_jacket_water_pl(1))):
self.heatstorage_out = heatstorage.get_H_out_max(heat_stor)
self.heat = demand.H[t] - self.heatstorage_out
self.gas_boiler_out = 0
else:
self.heatstorage_out = heatstorage.get_H_out_max(heat_stor)
self.heat = ice.get_jacket_water_pl(1)
self.gas_boiler_out = demand.H[t] - self.heatstorage_out - self.heat
self.heat_stor = heatstorage.get_S(heat_stor, self.heatstorage_in,
self.heatstorage_out)
def __init__(self, temporary, number):
internal_combustion_engine = InternalCombustionEngine(
number, temporary)
boiler = Boiler(temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
self.ele_out_max = internal_combustion_engine.nominal
if internal_combustion_engine.get_exhaust_gas_pl(
1) * boiler.effi >= boiler.nominal:
self.heat_out_max = boiler.nominal
else:
self.heat_out_max = internal_combustion_engine.get_exhaust_gas_pl(
1) * boiler.effi
cold = (internal_combustion_engine.get_exhaust_gas_pl(1) *
absorption_chiller.COP_double +
internal_combustion_engine.get_jacket_water_pl(1) *
absorption_chiller.COP_single)
if cold >= absorption_chiller.nominal:
self.cold_out_max = absorption_chiller.nominal
else:
self.cold_out_max = cold
def __init__(self, temporary, number):
demand = DemandData()
heatstorage = HeatStorage(temporary)
coldstorage = ColdStorage(temporary)
elestorage = EleStorage(temporary)
gas_boiler = GasBoiler(temporary)
heat_pump = HeatPump(temporary)
ice = InternalCombustionEngine(number, temporary)
chp = CHPInternalCombustionEngine(temporary, number)
heat_stor = 0
ele_stor = 0
cold_stor = 0
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.heat_jacket_water = []
self.heat_gas_boiler = []
self.cold_absorption_chiller = []
self.cold_heat_pump = []
self.cold_waste = []
self.heat_waste = []
self.ele_waste = []
for t in range(7, 23, Parameters.delttime):
if ((demand.C[t] > chp.cold_out_max_exhaust_gas +
coldstorage.get_C_out_max(cold_stor) + heat_pump.nominal)
|
(demand.H[t] >
(ice.get_jacket_water_pl(1) +
heatstorage.get_H_out_max(heat_stor) + gas_boiler.nominal))):
self.judge = 0
break
else:
self.judge = 1
ele = ice.nominal
heat = ice.get_jacket_water_pl(1)
cold = chp.cold_out_max_exhaust_gas
if demand.C[t] <= cold:
coldstorage_cold_in = cold - demand.C[t]
coldstorage_cold_out = 0
cold_heat_pump = 0
ele_needed_for_heat_pump = 0
elif (demand.C[t] >
cold) & (demand.C[t] <=
cold + coldstorage.get_C_out_max(cold_stor)):
coldstorage_cold_out = coldstorage.get_C_out_max(
cold_stor) + cold - demand.C[t]
coldstorage_cold_in = 0
cold_heat_pump = 0
ele_needed_for_heat_pump = 0
else:
coldstorage_cold_out = coldstorage.get_C_out_max(cold_stor)
coldstorage_cold_in = 0
cold_heat_pump = demand.C[t] - coldstorage_cold_out - cold
ele_needed_for_heat_pump = heat_pump.get_E_in(
cold_heat_pump)
cold_stor = coldstorage.get_S(cold_stor, coldstorage_cold_in,
coldstorage_cold_out)
if demand.transition_E <= ele:
ele_bought_for_ele = 0
if ele_needed_for_heat_pump > 0:
if ele - demand.transition_E[
t] >= ele_needed_for_heat_pump:
elestorage_ele_in = ele - demand.transition_E[
t] - ele_needed_for_heat_pump
elestorage_ele_out = 0
ele_bought_for_heat_pump = 0
else:
elestorage_ele_in = 0
elestorage_ele_out = 0
ele_bought_for_heat_pump = ele_needed_for_heat_pump - (
ele - demand.transition_E[t])
else:
ele_bought_for_heat_pump = 0
elestorage_ele_out = 0
elestorage_ele_in = ele - demand.transition_E[t]
elif(demand.transition_E[t] > ele) \
& (demand.transition_E[t] < ele + elestorage.get_E_out_max(ele_stor)):
ele_bought_for_ele = 0
elestorage_ele_out = demand.transition_E[t] - ele
elestorage_ele_in = 0
ele_bought_for_heat_pump = ele_needed_for_heat_pump
else:
ele_bought_for_ele = demand.transition_E[
t] - ele - elestorage.get_E_out_max(ele_stor)
elestorage_ele_out = elestorage.get_E_out_max(ele_stor)
elestorage_ele_in = 0
ele_bought_for_heat_pump = ele_needed_for_heat_pump
ele_stor = elestorage.get_S(ele_stor, elestorage_ele_in,
elestorage_ele_out)
ele_bought = ele_bought_for_heat_pump + ele_bought_for_ele
if demand.H[t] <= heat:
heatstorage_heat_out = 0
heatstorage_heat_in = heat - demand.H[t]
heat_gas_boiler = 0
elif (demand.H[t] >
heat) & (demand.H[t] <=
heat + heatstorage.get_H_out_max(heat_stor)):
heatstorage_heat_out = demand.H[t] - heat
heatstorage_heat_in = 0
heat_gas_boiler = 0
else:
heatstorage_heat_out = heatstorage.get_H_out_max(heat_stor)
heatstorage_heat_in = 0
heat_gas_boiler = demand.H[
t] - heat - heatstorage.get_H_out_max(heat_stor)
heat_stor = heatstorage.get_S(heat_stor, heatstorage_heat_in,
heatstorage_heat_out)
if cold_stor > coldstorage.nominal:
self.cold_waste.append(cold_stor - coldstorage.nominal)
cold_stor = coldstorage.nominal
else:
self.cold_waste.append(0)
if heat_stor > heatstorage.nominal:
self.heat_waste.append(heat_stor - heatstorage.nominal)
heat_stor = heatstorage.nominal
else:
self.heat_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
self.ele_ice.append(ele)
self.heat_jacket_water.append(heat)
self.cold_absorption_chiller.append(cold)
self.cold_heat_pump.append(cold_heat_pump)
self.heat_gas_boiler.append(heat_gas_boiler)
self.ele_bought.append(ele_bought)
self.fuel.append(
ice.get_fuel(1) + gas_boiler.get_Fuel_in(heat_gas_boiler))
if self.judge == 1:
for t in range(23, 24, Parameters.delttime):
cold_during_shut_down = ColdDuringShutDown(
temporary, t, cold_stor)
heat_during_sut_down = HeatDuringShutDown(
temporary, t, heat_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 2)
cold_stor = cold_during_shut_down.cold_stor
heat_stor = heat_during_sut_down.heat_stor
ele_stor = ele_during_shut_down.ele_stor
self.cold_heat_pump.append(
cold_during_shut_down.cold_heat_pump)
self.heat_gas_boiler.append(
heat_during_sut_down.heat_gas_boiler)
self.fuel.append(heat_during_sut_down.fuel)
self.ele_bought.append(
cold_during_shut_down.ele_bought_for_heat_pump +
ele_during_shut_down.ele_bought_for_ele)
for t in range(0, 7, Parameters.delttime):
cold_during_shut_down = ColdDuringShutDown(
temporary, t, cold_stor)
heat_during_sut_down = HeatDuringShutDown(
temporary, t, heat_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 2)
cold_stor = cold_during_shut_down.cold_stor
heat_stor = heat_during_sut_down.heat_stor
ele_stor = ele_during_shut_down.ele_stor
self.cold_heat_pump.append(
cold_during_shut_down.cold_heat_pump)
self.heat_gas_boiler.append(
heat_during_sut_down.heat_gas_boiler)
self.fuel.append(heat_during_sut_down.fuel)
self.ele_bought.append(
cold_during_shut_down.ele_bought_for_heat_pump +
ele_during_shut_down.ele_bought_for_ele)
def __init__(self, temporary, number):
chp = CHPInternalCombustionEngine(temporary, number)
ice = InternalCombustionEngine(number, temporary)
gas_boiler = GasBoiler(temporary)
elestorage = EleStorage(temporary)
heatstorage = HeatStorage(temporary)
demand = DemandData()
heat_stor = 0
ele_stor = 0
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.heat_gas_boiler = []
self.heat_waste = []
self.ele_waste = []
for t in range(7, 23, Parameters.delttime):
if demand.H[t] > chp.heat_out_max + heatstorage.get_H_out_max(
heat_stor) + gas_boiler.nominal:
self.judge = 0
break
else:
self.judge = 1
ele = ice.nominal
heat = chp.heat_out_max
if demand.H[t] <= heat:
heatstorage_heat_in = heat - demand.H[t]
heatstorage_heat_out = 0
heat_gas_boiler = 0
elif (demand.H[t] >
heat) & (demand.H[t] <=
heat + heatstorage.get_H_out_max(heat_stor)):
heatstorage_heat_in = 0
heatstorage_heat_out = heatstorage.get_H_out_max(
heat_stor) + heat - demand.H[t]
heat_gas_boiler = 0
else:
heatstorage_heat_in = 0
heatstorage_heat_out = heatstorage.get_H_out_max(heat_stor)
heat_gas_boiler = demand.H[
t] - heat - heatstorage.get_H_out_max(heat_stor)
heat_stor = heatstorage.get_S(heat_stor, heatstorage_heat_in,
heatstorage_heat_out)
if demand.heat_E[t] <= ele:
elestorage_ele_in = ele - demand.heat_E[t]
elestorage_ele_out = 0
ele_bought = 0
elif (demand.heat_E[t] >
ele) & (demand.heat_E[t] <=
ele + elestorage.get_E_out_max(ele_stor)):
elestorage_ele_in = 0
elestorage_ele_out = elestorage.get_E_out_max(
ele_stor + ele - demand.heat_E[t])
ele_bought = 0
else:
elestorage_ele_in = 0
elestorage_ele_out = elestorage.get_E_out_max(ele_stor)
ele_bought = demand.heat_E[
t] - ele - elestorage.get_E_out_max(ele_stor)
ele_stor = elestorage.get_S(ele_stor, elestorage_ele_in,
elestorage_ele_out)
if heat_stor > heatstorage.nominal:
self.heat_waste.append(heat_stor - heatstorage.nominal)
heat_stor = heatstorage.nominal
else:
self.heat_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
self.ele_ice.append(ele)
self.heat_gas_boiler.append(heat_gas_boiler)
self.ele_bought.append(ele_bought)
self.fuel.append(
ice.get_fuel(1) + gas_boiler.get_Fuel_in(heat_gas_boiler))
if self.judge == 1:
for t in range(23, 24):
heat_during_shut_down = HeatDuringShutDown(
temporary, t, heat_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 1)
heat_stor = heat_during_shut_down.heat_stor
ele_stor = ele_during_shut_down.ele_stor
self.heat_gas_boiler.append(
heat_during_shut_down.heat_gas_boiler)
self.fuel.append(heat_during_shut_down.fuel)
self.ele_bought.append(ele_during_shut_down.ele_bought_for_ele)
for t in range(0, 7, Parameters.delttime):
heat_during_shut_down = HeatDuringShutDown(
temporary, t, heat_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 1)
heat_stor = heat_during_shut_down.heat_stor
ele_stor = ele_during_shut_down.ele_stor
self.heat_gas_boiler.append(
heat_during_shut_down.heat_gas_boiler)
self.fuel.append(heat_during_shut_down.fuel)
self.ele_bought.append(ele_during_shut_down.ele_bought_for_ele)
def __init__(self, temporary, number):
chp = CHPInternalCombustionEngine(temporary, number)
heat_pump = HeatPump(temporary)
elestorage = EleStorage(temporary)
coldstorage = ColdStorage(temporary)
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
cold_stor = 0
ele_stor = 0
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.cold_absorption_chiller = []
self.cold_heat_pump = []
self.cold_waste = []
self.ele_waste = []
for t in range(7, 23, Parameters.delttime):
ele = ice.nominal
cold = chp.cold_out_max
if demand.C[t] > cold + coldstorage.get_C_out_max(
cold_stor) + heat_pump.nominal:
self.judge = 0
break
else:
self.judge = 1
if demand.C[t] <= cold:
cold_stor = coldstorage.get_S(cold_stor,
cold - demand.C[t], 0)
cold_heat_pump = 0
ele_needed_for_heat_pump = 0
elif (demand.C[t] >
cold) & (demand.C[t] <=
(cold + coldstorage.get_C_out_max(cold_stor))):
coldstorage_cold_out = coldstorage.get_C_out_max(
cold_stor) + cold - demand.C[t]
cold_stor = coldstorage.get_S(cold_stor, 0,
coldstorage_cold_out)
cold_heat_pump = 0
ele_needed_for_heat_pump = 0
else:
coldstorage_cold_out = coldstorage.get_C_out_max(cold_stor)
cold_heat_pump = demand.C[t] - coldstorage.get_C_out_max(
cold_stor) - cold
ele_needed_for_heat_pump = heat_pump.get_E_in(
cold_heat_pump)
cold_stor = coldstorage.get_S(cold_stor, 0,
coldstorage_cold_out)
if demand.cold_E[t] <= ele:
ele_bought_for_ele = 0
if ele_needed_for_heat_pump > 0:
if ele - demand.cold_E[t] >= ele_needed_for_heat_pump:
elestorage_ele_in = ele - demand.cold_E[
t] - ele_needed_for_heat_pump
ele_bought_for_heat_pump = 0
else:
elestorage_ele_in = 0
ele_bought_for_heat_pump = ele_needed_for_heat_pump - (
ele - demand.cold_E[t])
else:
elestorage_ele_in = ele - demand.cold_E[t]
ele_bought_for_heat_pump = 0
ele_stor = elestorage.get_S(ele_stor, elestorage_ele_in, 0)
elif (demand.cold_E[t] >
ele) & (demand.cold_E[t] <=
(ele + elestorage.get_E_out_max(ele_stor))):
ele_bought_for_ele = 0
ele_bought_for_heat_pump = ele_needed_for_heat_pump
elestorage_ele_out = ele + elestorage.get_E_out_max(
ele_stor) - demand.cold_E[t]
ele_stor = elestorage.get_S(ele_stor, 0,
elestorage_ele_out)
else:
ele_bought_for_heat_pump = ele_needed_for_heat_pump
ele_bought_for_ele = demand.cold_E[
t] - ele - elestorage.get_E_out_max(ele_stor)
elestorage_ele_out = elestorage.get_E_out_max(ele_stor)
ele_stor = elestorage.get_S(ele_stor, 0,
elestorage_ele_out)
if cold_stor > coldstorage.nominal:
self.cold_waste.append(cold_stor - coldstorage.nominal)
cold_stor = coldstorage.nominal
else:
self.cold_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
self.ele_ice.append(ele)
self.cold_absorption_chiller.append(cold)
self.cold_heat_pump.append(cold_heat_pump)
self.ele_bought.append(ele_bought_for_heat_pump +
ele_bought_for_ele)
self.fuel.append(ice.get_fuel(1))
if self.judge == 1:
for t in range(23, 24, Parameters.delttime):
# 把以下cold,ele,heat部分写成class
cold_during_shut_down = ColdDuringShutDown(
temporary, t, cold_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 0)
cold_stor = cold_during_shut_down.cold_stor
ele_stor = ele_during_shut_down.ele_stor
self.ele_ice.append(0)
self.cold_absorption_chiller.append(0)
self.cold_heat_pump.append(
cold_during_shut_down.cold_heat_pump)
self.ele_bought.append(
ele_during_shut_down.ele_bought_for_ele +
cold_during_shut_down.ele_bought_for_heat_pump)
self.fuel.append(0)
for t in range(0, 7, Parameters.delttime):
cold_during_shut_down = ColdDuringShutDown(
temporary, t, cold_stor)
ele_during_shut_down = EleDuringShutDown(
temporary, t, ele_stor, 0)
cold_stor = cold_during_shut_down.cold_stor
ele_stor = ele_during_shut_down.ele_stor
self.ele_ice.append(0)
self.cold_absorption_chiller.append(0)
self.cold_heat_pump.append(
cold_during_shut_down.cold_heat_pump)
self.ele_bought.append(
ele_during_shut_down.ele_bought_for_ele +
cold_during_shut_down.ele_bought_for_heat_pump)
self.fuel.append(0)
def __init__(self, temporary, number):
chp = CHPInternalCombustionEngine(temporary, number)
heat_pump = HeatPump(temporary)
elestorage = EleStorage(temporary)
coldstorage = ColdStorage(temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
ice = InternalCombustionEngine(number, temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
cold_stor = 0
ele_stor = 0
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.cold_absorption_chiller = []
self.cold_heat_pump = []
self.cold_waste = []
self.ele_waste = []
for t in range(0, time, Parameters.delttime):
judge_ele = min(demand.cold_E[t] - elestorage.get_E_out_max(ele_stor), ice.nominal)
judge_cold = chp.get_cold_through_ele(judge_ele)
if demand.C[t] > coldstorage.get_C_out_max(cold_stor) + judge_cold + heat_pump.nominal:
self.judge = 0
break
else:
self.judge = 1
ele_drive = EleDrive(t, temporary, number, ele_stor, 0)
if ele_drive.ele == 0:
cold_drive = ColdDrive(t, temporary, number, cold_stor)
cold_stor = cold_drive.cold_stor
cold = cold_drive.cold
cold_heat_pump = 0
ele = ice.get_ele_out_through_cold(cold)
pl = ele / ice.nominal
ele_stor = elestorage.get_S(ele_stor, ele, ele_drive.elestorage_out)
self.fuel.append(ice.get_fuel(pl))
self.ele_bought.append(heat_pump.get_E_in(cold_drive.heat_pump_out))
else:
ele = ele_drive.ele
pl = ele / ice.nominal
exhaust_gas = ice.get_exhaust_gas_pl(pl)
jacket_water = ice.get_jacket_water_pl(pl)
cold = absorption_chiller.get_cold_out(exhaust_gas, jacket_water)
cold_follow = ColdFollow(t, temporary, cold_stor, cold)
cold_stor = cold_follow.cold_stor
cold_heat_pump = cold_follow.heat_pump_out
ele_stor = elestorage.get_S(ele_stor, 0, ele_drive.elestorage_out)
self.fuel.append(ice.get_fuel(pl))
self.ele_bought.append(ele_drive.ele_bought + heat_pump.get_E_in(cold_follow.heat_pump_out))
self.ele_ice.append(ele)
self.cold_absorption_chiller.append(cold)
self.cold_heat_pump.append(cold_heat_pump)
if cold_stor > coldstorage.nominal:
self.cold_waste.append(cold_stor - coldstorage.nominal)
cold_stor = coldstorage.nominal
else:
self.cold_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
def __init__(self, temporary, number):
demand = DemandData()
heatstorage = HeatStorage(temporary)
coldstorage = ColdStorage(temporary)
elestorage = EleStorage(temporary)
gas_boiler = GasBoiler(temporary)
heat_pump = HeatPump(temporary)
ice = InternalCombustionEngine(number, temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
chp = CHPInternalCombustionEngine(temporary, number)
time = demand.E_sheetnrows - 1
heat_stor = 0
ele_stor = 0
cold_stor = 0
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.heat = []
self.heat_gas_boiler = []
self.cold_absorption_chiller = []
self.cold_heat_pump = []
self.cold_waste = []
self.heat_waste = []
self.ele_waste = []
for t in range(0, time, Parameters.delttime):
ele = min(demand.transition_E[t] - elestorage.get_E_out_max(ele_stor), ice.nominal)
cold_heat = chp.get_cold_and_heat_through_ele(ele)
judge_cold = cold_heat[0]
judge_heat = cold_heat[1]
if ((demand.C[t] > coldstorage.get_C_out_max(cold_stor) + judge_cold + heat_pump.nominal)
| (demand.H[t] > heatstorage.get_H_out_max(heat_stor) + judge_heat + gas_boiler.nominal)):
self.judge = 0
break
else:
self.judge = 1
ele_drive = EleDrive(t, temporary, number, ele_stor, 2)
if ele_drive == 0:
heat_drive = HeatDriveJW(t, temporary, number, heat_stor)
gas_boiler_out = heat_drive.gas_boiler_out
if heat_drive == 0:
cold_drive = ColdDrive(t, temporary, number, cold_stor)
cold = cold_drive.cold
exhaust_gas = cold / absorption_chiller.COP_double
pl = ice.get_pl_through_exhaust_gas(exhaust_gas)
ele = pl * ice.nominal
heat = ice.get_jacket_water_pl(pl)
cold_stor = cold_drive.cold_stor
heat_stor = heatstorage.get_S(heat_stor, heat, heat_drive.heatstorage_out)
ele_stor = elestorage.get_S(ele_stor, ele, ele_drive.elestorage_out)
self.cold_heat_pump.append(cold_drive.heat_pump_out)
self.fuel.append(ice.get_fuel(pl))
self.ele_bought.append(heat_pump.get_E_in(cold_drive.heat_pump_out))
else:
heat = heat_drive.heat
pl = ice.get_pl_through_jacket_water(heat)
ele = pl * ice.nominal
exhaust_gas = ice.get_exhaust_gas_pl(pl)
cold = exhaust_gas * absorption_chiller.COP_double
cold_follow = ColdFollow(t, temporary, cold_stor, cold)
cold_stor = cold_follow.cold_stor
heat_stor = heat_drive.heat_stor
ele_stor = elestorage.get_S(ele_stor, ele, ele_drive.elestorage_out)
self.cold_heat_pump.append(cold_follow.heat_pump_out)
self.fuel.append(ice.get_fuel(pl) + gas_boiler.get_Fuel_in(heat_drive.gas_boiler_out))
self.ele_bought.append(heat_pump.get_E_in(cold_follow.heat_pump_out))
else:
ele = ele_drive.ele
pl = ele / ice.nominal
heat = ice.get_jacket_water_pl(pl)
cold = ice.get_exhaust_gas_pl(pl) * absorption_chiller.COP_double
heat_follow = HeatFollow(t, temporary, heat_stor, heat)
cold_follow = ColdFollow(t, temporary, cold_stor, cold)
gas_boiler_out = heat_follow.gas_boiler_out
cold_stor = cold_follow.cold_stor
heat_stor = heat_follow.heat_stor
ele_stor = ele_drive.ele_stor
self.cold_heat_pump.append(cold_follow.heat_pump_out)
self.fuel.append(ice.get_fuel(pl) + gas_boiler.get_Fuel_in(heat_follow.gas_boiler_out))
self.ele_bought.append(ele_drive.ele_bought + heat_pump.get_E_in(cold_follow.heat_pump_out))
self.ele_ice.append(ele)
self.heat.append(heat)
self.heat_gas_boiler.append(gas_boiler_out)
self.cold_absorption_chiller.append(cold)
if cold_stor > coldstorage.nominal:
self.cold_waste.append(cold_stor - coldstorage.nominal)
cold_stor = coldstorage.nominal
else:
self.cold_waste.append(0)
if heat_stor > heatstorage.nominal:
self.heat_waste.append(heat_stor - heatstorage.nominal)
heat_stor = heatstorage.nominal
else:
self.heat_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
class CHPInternalCombustionEngine:
# 只有制冷模式和制热模式两种
def __init__(self, temporary, number):
self.internal_combustion_engine = InternalCombustionEngine(
number, temporary)
self.boiler = Boiler(temporary)
self.absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
self.number = number
self.temporary = temporary
self.ele_out_max = self.internal_combustion_engine.nominal
# chp.heat_steam_out_max是exhaust gas全部进入锅炉的蒸汽
# chp.heat_out_max 是exhaust gas全部进入锅炉的蒸汽 + 缸套水热
# chp.heat_space_water_max 是exhaust gas全部进入制冷机制热 + 缸套水热
# chp.cold_out_max 是exhaust gas和jacket water全部进入制冷剂的情况
# chp.cold_out_max_exhaust_gas 是exhaust gas全进入制冷机的情况
if self.internal_combustion_engine.get_exhaust_gas_pl(
1) * self.boiler.effi >= self.boiler.nominal:
self.heat_steam_out_max = self.boiler.nominal
else:
self.heat_steam_out_max = self.internal_combustion_engine.get_exhaust_gas_pl(
1) * self.boiler.effi
self.heat_out_max = self.heat_steam_out_max + self.internal_combustion_engine.get_jacket_water_pl(
1)
if (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_heat >=
self.absorption_chiller.heat_nominal):
self.heat_space_water_max = (
self.absorption_chiller.heat_nominal +
self.internal_combustion_engine.get_jacket_water_pl(1))
else:
self.heat_space_water_max = (
self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_heat +
self.internal_combustion_engine.get_jacket_water_pl(1))
cold = (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double +
self.internal_combustion_engine.get_jacket_water_pl(1) *
self.absorption_chiller.COP_single)
if cold >= self.absorption_chiller.nominal:
self.cold_out_max = self.absorption_chiller.nominal
else:
self.cold_out_max = cold
if (self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double >=
self.absorption_chiller.nominal):
self.cold_out_max_exhaust_gas = self.absorption_chiller.nominal
else:
self.cold_out_max_exhaust_gas = (
self.internal_combustion_engine.get_exhaust_gas_pl(1) *
self.absorption_chiller.COP_double)
def get_heat_out_pl(self, pl): # exhaust gas进入制冷机制热水,jacket water直接制热水
heat_out = (self.internal_combustion_engine.get_exhaust_gas_pl(pl) *
self.absorption_chiller.COP_heat +
self.internal_combustion_engine.get_jacket_water_pl(pl))
return heat_out
def get_heat_water_though_cold(self, judge_cold): # 冷热模式,无热蒸汽,以热定电
exhaust_gas = judge_cold / self.absorption_chiller.COP_double
pl = self.internal_combustion_engine.get_pl_through_exhaust_gas(
exhaust_gas)
coefficient = (
(self.internal_combustion_engine.ice_database_one[4] * pl +
self.internal_combustion_engine.ice_database_one[5]) /
((self.internal_combustion_engine.ice_database_one[6] * pl +
self.internal_combustion_engine.ice_database_one[7]) *
self.absorption_chiller.COP_double))
heat_water = coefficient * judge_cold
return heat_water
def get_heat_through_steam(self, steam, jacket_water_k): # 冷热电模式,有热蒸汽,以热定电
exhaust_gas = self.boiler.get_H_in(steam)
pl = self.internal_combustion_engine.get_pl_through_exhaust_gas(
exhaust_gas)
heat_water = self.internal_combustion_engine.get_jacket_water_pl(
pl) * (1 - jacket_water_k)
return heat_water
def get_cold_through_steam(self, steam, jacket_water_k): # 冷热电模式,有热蒸汽,以热定电
exhaust_gas = self.boiler.get_H_in(steam)
pl = self.internal_combustion_engine.get_pl_through_exhaust_gas(
exhaust_gas)
jacket_water = self.internal_combustion_engine.get_jacket_water_pl(pl)
cold = self.absorption_chiller.COP_single * jacket_water * jacket_water_k
return cold
def get_cold_through_ele(self, ele): # 冷模式,以电定冷
pl = ele / self.internal_combustion_engine.nominal
exhaust_gas = self.internal_combustion_engine.get_exhaust_gas_pl(pl)
jacket_water = self.internal_combustion_engine.get_jacket_water_pl(pl)
cold = self.absorption_chiller.get_cold_out(exhaust_gas, jacket_water)
return cold
def get_heat_through_ele(self, ele): # 热模式,以电定热
pl = ele / self.internal_combustion_engine.nominal
exhaust_gas = self.internal_combustion_engine.get_exhaust_gas_pl(pl)
heat = (self.absorption_chiller.get_heat_out(exhaust_gas) +
self.internal_combustion_engine.get_jacket_water_pl(pl))
return heat
def get_cold_and_heat_through_ele(self, ele): # 冷热电模式,以电定热
pl = ele / self.internal_combustion_engine.nominal
exhaust_gas = self.internal_combustion_engine.get_exhaust_gas_pl(pl)
jacket_water = self.internal_combustion_engine.get_jacket_water_pl(pl)
cold = self.absorption_chiller.get_cold_out_only_gas(exhaust_gas)
heat = jacket_water
return cold, heat
def __init__(self, temporary, number):
heat_stor = 0
ele_stor = 0
chp = CHPInternalCombustionEngine(temporary, number)
ice = InternalCombustionEngine(number, temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
heatstorage = HeatStorage(temporary)
elestorage = EleStorage(temporary)
gas_boiler = GasBoiler(temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.heat = []
self.heat_absorption_chiller = []
self.heat_gas_boiler = []
self.heat_waste = []
self.ele_waste = []
for t in range(0, time, Parameters.delttime):
if demand.H[t] > heatstorage.get_H_out_max(
heat_stor) + chp.heat_space_water_max + gas_boiler.nominal:
self.judge = 0
break
else:
self.judge = 1
heat_drive = HeatDriveChiller(t, temporary, number, heat_stor)
if heat_drive.heat == 0:
ele_drive = EleDrive(t, temporary, number, ele_stor, 1)
ele_stor = ele_drive.ele_stor
ele = ele_drive.ele
pl = ele / ice.nominal
heat_absorption_chiller = ice.get_exhaust_gas_pl(
pl) * absorption_chiller.COP_heat
heat = heat_absorption_chiller + ice.get_jacket_water_pl(
pl)
heat_stor = heatstorage.get_S(heat_stor, heat,
heat_drive.heatstorage_out)
self.ele_bought.append(ele_drive.ele_bought)
self.fuel.append(ice.get_fuel(ele / ice.nominal))
heat_gas_boiler = 0
else:
heat = heat_drive.heat
heat_gas_boiler = heat_drive.gas_boiler_out
heat_stor = heat_drive.heat_stor
ele = ice.get_ele_out_through_heat_mode(heat_drive.heat)
pl = ele / ice.nominal
heat_absorption_chiller = heat - ice.get_jacket_water_pl(
pl)
ele_follow = EleFollow(t, temporary, ele_stor, ele, 1)
ele_stor = ele_follow.ele_stor
self.ele_bought.append(ele_follow.ele_bought)
self.fuel.append(
ice.get_fuel(ele / ice.nominal) +
gas_boiler.get_Fuel_in(heat_gas_boiler))
self.ele_ice.append(ele)
self.heat.append(heat)
self.heat_gas_boiler.append(heat_gas_boiler)
self.heat_absorption_chiller.append(heat_absorption_chiller)
if heat_stor > heatstorage.nominal:
self.heat_waste.append(heat_stor - heatstorage.nominal)
heat_stor = heatstorage.nominal
else:
self.heat_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
ele_stor = elestorage.nominal
def __init__(self, temporary, number):
heat_stor = 0
cold_stor = 0
ele_stor = 0
chp = CHPInternalCombustionEngine(temporary, number)
ice = InternalCombustionEngine(number, temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
gas_boiler = GasBoiler(temporary)
heat_pump = HeatPump(temporary)
heatstorage = HeatStorage(temporary)
coldstorage = ColdStorage(temporary)
elestorage = EleStorage(temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
self.fuel = []
self.ele_bought = []
self.ele_ice = []
self.heat = []
self.heat_gas_boiler = []
self.cold_absorption_chiller = []
self.cold_heat_pump = []
self.cold_waste = []
self.heat_waste = []
self.ele_waste = []
for t in range(0, time, Parameters.delttime):
if demand.C[t] > coldstorage.get_C_out_max(
cold_stor
) + chp.cold_out_max_exhaust_gas + heat_pump.nominal:
self.judge = 0
else:
judge_cold = min(
demand.C[t] - coldstorage.get_C_out_max(cold_stor),
chp.cold_out_max_exhaust_gas)
judge_heat = chp.get_heat_water_though_cold(judge_cold)
if demand.H[t] > heatstorage.get_H_out_max(
heat_stor) + judge_heat + gas_boiler.nominal:
self.judge = 0
else:
self.judge = 1
if self.judge == 0:
break
else:
heat_drive = HeatDriveJW(t, temporary, number, heat_stor)
if heat_drive.heat == 0:
cold_drive = ColdDrive(t, temporary, number, cold_stor)
if cold_drive.cold == 0:
ele_drive = EleDrive(t, temporary, number, ele_stor, 2)
ele_stor = ele_drive.ele_stor
ele = ele_drive.ele
pl = ele / ice.nominal
heat = ice.get_jacket_water_pl(pl)
cold = ice.get_exhaust_gas_pl(
pl) * absorption_chiller.COP_double
cold_heat_pump = []
cold_stor = coldstorage.get_S(
cold_stor, cold, cold_drive.coldstorage_out)
heat_stor = heatstorage.get_S(
heat_stor, heat, heat_drive.heatstorage_out)
self.fuel.append(ice.get_fuel(ele / ice.nominal))
self.ele_bought.append(ele_drive.ele_bought)
else:
cold = cold_drive.cold
cold_heat_pump = cold_drive.heat_pump_out
cold_stor = cold_drive.cold_stor
exhaust_gas = cold_drive.cold / absorption_chiller.COP_double
pl = ice.get_pl_through_exhaust_gas(exhaust_gas)
ele = pl * ice.nominal
heat = ice.get_jacket_water_pl(pl)
heat_stor = heatstorage.get_S(
heat_stor, heat, heat_drive.heatstorage_out)
ele_follow = EleFollow(t, temporary, ele_stor, ele, 2)
ele_stor = ele_follow.ele_stor
self.fuel.append(ice.get_fuel(pl))
self.ele_bought.append(
ele_follow.ele_bought +
heat_pump.get_E_in(cold_drive.heat_pump_out))
gas_boiler_out = 0
else:
heat_stor = heat_drive.heat_stor
heat = heat_drive.heat
pl = ice.get_pl_through_jacket_water(heat_drive.heat)
ele = pl * ice.nominal
cold = ice.get_exhaust_gas_pl(
pl) * absorption_chiller.COP_double
cold_follow = ColdFollow(t, temporary, cold_stor, cold)
cold_heat_pump = cold_follow.heat_pump_out
cold_stor = cold_follow.cold_stor
ele_follow = EleFollow(t, temporary, ele_stor, ele, 2)
ele_stor = ele_follow.ele_stor
gas_boiler_out = heat_drive.gas_boiler_out
self.fuel.append(
ice.get_fuel(pl) +
gas_boiler.get_Fuel_in(heat_drive.gas_boiler_out))
self.ele_bought.append(
ele_follow.ele_bought +
heat_pump.get_E_in(cold_follow.heat_pump_out))
self.ele_ice.append(ele)
self.heat.append(heat)
self.heat_gas_boiler.append(gas_boiler_out)
self.cold_absorption_chiller.append(cold)
self.cold_heat_pump.append(cold_heat_pump)
if cold_stor > coldstorage.nominal:
self.cold_waste.append(cold_stor - coldstorage.nominal)
cold_stor = coldstorage.nominal
else:
self.cold_waste.append(0)
if heat_stor > heatstorage.nominal:
self.heat_waste.append(heat_stor - heatstorage.nominal)
heat_stor = heatstorage.nominal
else:
self.heat_waste.append(0)
if ele_stor > elestorage.nominal:
self.ele_waste.append(ele_stor - elestorage.nominal)
ele_stor = elestorage.nominal
else:
self.ele_waste.append(0)
def __init__(self, temporary, number):
heat_stor = 0
cold_stor = 0
ele_stor = 0
chp = CHPInternalCombustionEngine(temporary, number)
ice = InternalCombustionEngine(number, temporary)
boiler = Boiler(temporary)
absorption_chiller = DoubleEffectAbsorptionChiller(temporary)
gas_boiler = GasBoiler(temporary)
heat_pump = HeatPump(temporary)
heatstorage = HeatStorage(temporary)
coldstorage = ColdStorage(temporary)
elestorage = EleStorage(temporary)
demand = DemandData()
time = demand.E_sheetnrows - 1
sum_heat = sum(demand.H)
sum_cold = sum(demand.C)
jacket_water_k = sum_cold / (sum_cold + sum_heat)
fuel = []
ele_bought = []
ele_ice = []
heat_boiler = []
cold_absorption_chiller = []
for t in range(0, time, Parameters.delttime):
if demand.H_steam[t] > chp.heat_steam_out_max + gas_boiler.nominal:
self.judge = 0
else:
judge_heat_steam = min(demand.H_steam[t],
chp.heat_steam_out_max)
judge_heat = chp.get_heat_through_steam(
judge_heat_steam, jacket_water_k)
judge_cold = chp.get_cold_through_steam(
judge_heat_steam, jacket_water_k)
if ((demand.H[t] + demand.H_steam[t] >
heatstorage.get_H_out_max(heat_stor) + judge_heat +
chp.heat_steam_out_max + gas_boiler.nominal)
| (demand.C[t] > coldstorage.get_C_out_max(cold_stor) +
judge_cold + heat_pump.nominal)):
self.judge = 0
else:
self.judge = 1
if self.judge == 0:
break
else:
heat_steam_drive = HeatSteamDrive(t, temporary, number)
self.heat_steam = heat_steam_drive.steam
self.gas_boiler_for_steam = heat_steam_drive.gas_boiler_out_for_steam
exhaust_gas = boiler.get_H_in(self.heat_steam)
pl = ice.get_pl_through_exhaust_gas(exhaust_gas)
self.ele = pl * ice.nominal
jacket_water = ice.get_jacket_water_pl(pl)
self.heat_for_other = jacket_water * (1 - jacket_water_k)
if jacket_water * jacket_water_k * absorption_chiller.COP_single >= absorption_chiller.nominal:
self.cold = absorption_chiller.nominal
else:
self.cold = jacket_water * jacket_water_k * absorption_chiller.COP_single
heat_follow = HeatFollow(t, temporary, heat_stor,
self.heat_for_other)
heat_stor = heat_follow.heat_stor
self.gas_boiler_for_other = heat_follow.gas_boiler_out
self.gas_boiler_total = self.gas_boiler_for_steam + self.gas_boiler_for_other
cold_follow = ColdFollow(t, temporary, cold_stor, self.cold)
cold_stor = cold_follow.cold_stor
ele_follow = EleFollow(t, temporary, ele_stor, self.ele)
ele_stor = ele_follow.ele_stor
fuel.append(
ice.get_fuel(pl) +
gas_boiler.get_Fuel_in(self.gas_boiler_total))
ele_bought.append(
ele_follow.ele_bought +
heat_pump.get_E_in(cold_follow.heat_pump_out))
ele_ice.append(self.ele)
heat_boiler.append(self.heat_steam + self.gas_boiler_total)
cold_absorption_chiller.append(self.cold)
if cold_stor > coldstorage.nominal:
cold_stor = coldstorage.nominal
if heat_stor > heatstorage.nominal:
heat_stor = heatstorage.nominal
if ele_stor > elestorage.nominal:
ele_stor = elestorage.nominal
self.fuel = sum(fuel)
self.ele_bought = sum(ele_bought)
self.emission_calculate_ice = sum(ele_ice)
self.emission_calculate_boiler = sum(heat_boiler)
self.emission_calculate_absorption_chiller = sum(
cold_absorption_chiller)
self.emission_calculate_grid = self.ele_bought
