Revert "fix: energy system catalogue and importers are modified"
This reverts commit 15e43a0f35
.
This commit is contained in:
parent
15e43a0f35
commit
9adacadc2a
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@ -10,7 +10,7 @@ class EmissionSystem:
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"""
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"""
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Emission system class
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Emission system class
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"""
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"""
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def __init__(self, system_id, model_name=None, system_type=None, parasitic_energy_consumption=None):
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def __init__(self, system_id, model_name=None, system_type=None, parasitic_energy_consumption=0):
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self._system_id = system_id
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self._system_id = system_id
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self._model_name = model_name
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self._model_name = model_name
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@ -25,11 +25,9 @@ class NonPvGenerationSystem(GenerationSystem):
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maximum_cooling_supply_temperature=None, minimum_cooling_supply_temperature=None, heat_output_curve=None,
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maximum_cooling_supply_temperature=None, minimum_cooling_supply_temperature=None, heat_output_curve=None,
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heat_fuel_consumption_curve=None, heat_efficiency_curve=None, cooling_output_curve=None,
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heat_fuel_consumption_curve=None, heat_efficiency_curve=None, cooling_output_curve=None,
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cooling_fuel_consumption_curve=None, cooling_efficiency_curve=None,
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cooling_fuel_consumption_curve=None, cooling_efficiency_curve=None,
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distribution_systems=None, energy_storage_systems=None, domestic_hot_water=False,
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distribution_systems=None, energy_storage_systems=None, dual_supply_capability=False):
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reversible=None, simultaneous_heat_cold=None):
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super().__init__(system_id=system_id, name=name, model_name=model_name, manufacturer=manufacturer, fuel_type=fuel_type,
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super().__init__(system_id=system_id, name=name, model_name=model_name, manufacturer=manufacturer,
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distribution_systems=distribution_systems, energy_storage_systems=energy_storage_systems)
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fuel_type=fuel_type, distribution_systems=distribution_systems,
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energy_storage_systems=energy_storage_systems)
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self._system_type = system_type
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self._system_type = system_type
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self._nominal_heat_output = nominal_heat_output
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self._nominal_heat_output = nominal_heat_output
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self._maximum_heat_output = maximum_heat_output
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self._maximum_heat_output = maximum_heat_output
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@ -55,9 +53,7 @@ class NonPvGenerationSystem(GenerationSystem):
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self._cooling_output_curve = cooling_output_curve
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self._cooling_output_curve = cooling_output_curve
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self._cooling_fuel_consumption_curve = cooling_fuel_consumption_curve
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self._cooling_fuel_consumption_curve = cooling_fuel_consumption_curve
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self._cooling_efficiency_curve = cooling_efficiency_curve
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self._cooling_efficiency_curve = cooling_efficiency_curve
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self._domestic_hot_water = domestic_hot_water
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self._dual_supply_capability = dual_supply_capability
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self._reversible = reversible
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self._simultaneous_heat_cold = simultaneous_heat_cold
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@property
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@property
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def system_type(self):
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def system_type(self):
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@ -260,28 +256,12 @@ class NonPvGenerationSystem(GenerationSystem):
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return self._cooling_efficiency_curve
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return self._cooling_efficiency_curve
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@property
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@property
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def domestic_hot_water(self):
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def dual_supply_capability(self):
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"""
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"""
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Get the ability to produce domestic hot water
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Get dual supply capability
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:return: bool
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:return: bool
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"""
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"""
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return self._domestic_hot_water
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return self._dual_supply_capability
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@property
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def reversibility(self):
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"""
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Get the ability to produce heating and cooling
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:return: bool
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"""
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return self._reversible
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@property
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def simultaneous_heat_cold(self):
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"""
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Get the ability to produce heating and cooling at the same time
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:return: bool
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"""
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return self._simultaneous_heat_cold
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def to_dictionary(self):
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def to_dictionary(self):
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"""Class content to dictionary"""
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"""Class content to dictionary"""
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@ -289,18 +269,6 @@ class NonPvGenerationSystem(GenerationSystem):
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self.distribution_systems] if self.distribution_systems is not None else None
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self.distribution_systems] if self.distribution_systems is not None else None
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_energy_storage_systems = [_energy_storage_system.to_dictionary() for _energy_storage_system in
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_energy_storage_systems = [_energy_storage_system.to_dictionary() for _energy_storage_system in
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self.energy_storage_systems] if self.energy_storage_systems is not None else None
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self.energy_storage_systems] if self.energy_storage_systems is not None else None
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_heat_output_curve = self.heat_output_curve.to_dictionary() if (
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self.heat_output_curve is not None) else None
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_heat_fuel_consumption_curve = self.heat_fuel_consumption_curve.to_dictionary() if (
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self.heat_fuel_consumption_curve is not None) else None
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_heat_efficiency_curve = self.heat_efficiency_curve.to_dictionary() if (
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self.heat_efficiency_curve is not None) else None
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_cooling_output_curve = self.cooling_output_curve.to_dictionary() if (
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self.cooling_output_curve is not None) else None
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_cooling_fuel_consumption_curve = self.cooling_fuel_consumption_curve.to_dictionary() if (
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self.cooling_fuel_consumption_curve is not None) else None
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_cooling_efficiency_curve = self.cooling_efficiency_curve.to_dictionary() if (
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self.cooling_efficiency_curve is not None) else None
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content = {
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content = {
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'Energy Generation component':
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'Energy Generation component':
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@ -330,15 +298,13 @@ class NonPvGenerationSystem(GenerationSystem):
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'minimum cooling supply temperature [Celsius]': self.minimum_cooling_supply_temperature,
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'minimum cooling supply temperature [Celsius]': self.minimum_cooling_supply_temperature,
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'heat output curve': self.heat_output_curve,
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'heat output curve': self.heat_output_curve,
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'heat fuel consumption curve': self.heat_fuel_consumption_curve,
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'heat fuel consumption curve': self.heat_fuel_consumption_curve,
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'heat efficiency curve': _heat_efficiency_curve,
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'heat efficiency curve': self.heat_efficiency_curve,
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'cooling output curve': self.cooling_output_curve,
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'cooling output curve': self.cooling_output_curve,
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'cooling fuel consumption curve': self.cooling_fuel_consumption_curve,
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'cooling fuel consumption curve': self.cooling_fuel_consumption_curve,
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'cooling efficiency curve': self.cooling_efficiency_curve,
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'cooling efficiency curve': self.cooling_efficiency_curve,
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'distribution systems connected': _distribution_systems,
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'distribution systems connected': _distribution_systems,
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'storage systems connected': _energy_storage_systems,
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'storage systems connected': _energy_storage_systems,
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'domestic hot water production capability': self.domestic_hot_water,
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'dual supply capability': self.dual_supply_capability
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'reversible cycle': self.reversibility,
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'simultaneous heat and cooling production': self.simultaneous_heat_cold
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}
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}
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}
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}
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return content
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return content
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@ -24,13 +24,13 @@ class PerformanceCurves:
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def curve_type(self):
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def curve_type(self):
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"""
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"""
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The type of the fit function from the following
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The type of the fit function from the following
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Linear =>>> y = a + b*x
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Linear =>>> y = a*x + b
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Exponential =>>> y = a*(b**x)
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Exponential =>>> y = a*(b**x)
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Second degree polynomial =>>> y = a + b*x + c*(x**2)
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Polynomial =>>> y = a*(x**2) + b*x + c
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Power =>>> y = a*(x**b)
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Power =>>> y = a*(x**b)
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Bi-Quadratic =>>> y = a + b*x + c*(x**2) + d*z + e*(z**2) + f*x*z
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Second degree multivariable =>>> y = a*(x**2) + b*x + c*x*z + d*z + e*(z**2) + f
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Get the type of function from ['linear', 'exponential', 'second degree polynomial', 'power', 'bi-quadratic']
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Get the type of function from ['linear', 'exponential', 'polynomial', 'power', 'second degree multivariable']
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:return: string
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:return: string
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"""
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"""
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return self._curve_type
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return self._curve_type
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@ -17,7 +17,7 @@ class ThermalStorageSystem(EnergyStorageSystem):
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def __init__(self, storage_id, type_energy_stored=None, model_name=None, manufacturer=None, storage_type=None,
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def __init__(self, storage_id, type_energy_stored=None, model_name=None, manufacturer=None, storage_type=None,
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nominal_capacity=None, losses_ratio=None, volume=None, height=None, layers=None,
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nominal_capacity=None, losses_ratio=None, volume=None, height=None, layers=None,
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maximum_operating_temperature=None, storage_medium=None, heating_coil_capacity=None):
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maximum_operating_temperature=None, storage_medium=None):
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super().__init__(storage_id, model_name, manufacturer, nominal_capacity, losses_ratio)
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super().__init__(storage_id, model_name, manufacturer, nominal_capacity, losses_ratio)
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self._type_energy_stored = type_energy_stored
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self._type_energy_stored = type_energy_stored
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@ -27,7 +27,6 @@ class ThermalStorageSystem(EnergyStorageSystem):
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self._layers = layers
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self._layers = layers
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self._maximum_operating_temperature = maximum_operating_temperature
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self._maximum_operating_temperature = maximum_operating_temperature
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self._storage_medium = storage_medium
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self._storage_medium = storage_medium
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self._heating_coil_capacity = heating_coil_capacity
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@property
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@property
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def type_energy_stored(self):
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def type_energy_stored(self):
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@ -85,14 +84,6 @@ class ThermalStorageSystem(EnergyStorageSystem):
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"""
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"""
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return self._storage_medium
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return self._storage_medium
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@property
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def heating_coil_capacity(self):
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"""
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Get heating coil capacity in Watts
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:return: [material
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"""
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return self._heating_coil_capacity
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def to_dictionary(self):
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def to_dictionary(self):
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"""Class content to dictionary"""
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"""Class content to dictionary"""
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_layers = None
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_layers = None
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@ -119,8 +110,7 @@ class ThermalStorageSystem(EnergyStorageSystem):
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'height [m]': self.height,
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'height [m]': self.height,
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'layers': _layers,
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'layers': _layers,
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'maximum operating temperature [Celsius]': self.maximum_operating_temperature,
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'maximum operating temperature [Celsius]': self.maximum_operating_temperature,
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'storage_medium': self.storage_medium.to_dictionary(),
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'storage_medium': self.storage_medium.to_dictionary()
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'heating coil capacity [W]': self.heating_coil_capacity
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}
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}
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}
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}
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return content
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return content
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@ -87,7 +87,7 @@ class MontrealCustomCatalog(Catalog):
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cooling_efficiency=cooling_efficiency,
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cooling_efficiency=cooling_efficiency,
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electricity_efficiency=electricity_efficiency,
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electricity_efficiency=electricity_efficiency,
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energy_storage_systems=storage_systems,
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energy_storage_systems=storage_systems,
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domestic_hot_water=False
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dual_supply_capability=False
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)
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)
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_equipments.append(generation_system)
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_equipments.append(generation_system)
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@ -111,7 +111,10 @@ class MontrealCustomCatalog(Catalog):
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distribution_consumption_variable_flow = float(
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distribution_consumption_variable_flow = float(
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equipment['distribution_consumption_variable_flow']['#text']) / 100
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equipment['distribution_consumption_variable_flow']['#text']) / 100
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emission_equipment = equipment['dissipation_id']
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emission_equipment = -1
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if 'dissipation_id' in equipment:
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emission_equipment = equipment['dissipation_id']
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_emission_equipments = None
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_emission_equipments = None
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for equipment_archetype in self._catalog_emission_equipments:
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for equipment_archetype in self._catalog_emission_equipments:
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if int(equipment_archetype.id) == int(emission_equipment):
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if int(equipment_archetype.id) == int(emission_equipment):
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@ -135,7 +138,7 @@ class MontrealCustomCatalog(Catalog):
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equipment_id = float(equipment['@id'])
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equipment_id = float(equipment['@id'])
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equipment_type = equipment['@type']
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equipment_type = equipment['@type']
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model_name = equipment['name']
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model_name = equipment['name']
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parasitic_consumption = None
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parasitic_consumption = 0
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if 'parasitic_consumption' in equipment:
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if 'parasitic_consumption' in equipment:
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parasitic_consumption = float(equipment['parasitic_consumption']['#text']) / 100
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parasitic_consumption = float(equipment['parasitic_consumption']['#text']) / 100
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@ -121,26 +121,13 @@ class MontrealFutureSystemCatalogue(Catalog):
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parameters = non_pv['cooling_efficiency_curve']['parameters']
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parameters = non_pv['cooling_efficiency_curve']['parameters']
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coefficients = list(non_pv['cooling_efficiency_curve']['coefficients'].values())
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coefficients = list(non_pv['cooling_efficiency_curve']['coefficients'].values())
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cooling_efficiency_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
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cooling_efficiency_curve = PerformanceCurves(curve_type, dependant_variable, parameters, coefficients)
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dhw = None
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dual_supply_capability = None
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if non_pv['domestic_hot_water'] is not None:
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if non_pv['dual_supply_capability'] is not None:
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if non_pv['domestic_hot_water'] == 'True':
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if non_pv['dual_supply_capability'] == 'True':
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dhw = True
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dual_supply_capability = True
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else:
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else:
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dhw = False
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dual_supply_capability = False
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reversible = None
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if non_pv['reversible'] is not None:
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if non_pv['reversible'] == 'True':
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reversible = True
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else:
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reversible = False
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dual_supply = None
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if non_pv['simultaneous_heat_cold'] is not None:
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if non_pv['simultaneous_heat_cold'] == 'True':
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dual_supply = True
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else:
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dual_supply = False
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non_pv_component = NonPvGenerationSystem(system_id=system_id,
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non_pv_component = NonPvGenerationSystem(system_id=system_id,
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name=name,
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name=name,
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system_type=system_type,
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system_type=system_type,
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@ -173,9 +160,7 @@ class MontrealFutureSystemCatalogue(Catalog):
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cooling_efficiency_curve=cooling_efficiency_curve,
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cooling_efficiency_curve=cooling_efficiency_curve,
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distribution_systems=distribution_systems,
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distribution_systems=distribution_systems,
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energy_storage_systems=energy_storage_systems,
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energy_storage_systems=energy_storage_systems,
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domestic_hot_water=dhw,
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dual_supply_capability=dual_supply_capability)
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reversible=reversible,
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simultaneous_heat_cold=dual_supply)
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generation_components.append(non_pv_component)
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generation_components.append(non_pv_component)
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pv_generation_components = self._archetypes['EnergySystemCatalog']['energy_generation_components'][
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pv_generation_components = self._archetypes['EnergySystemCatalog']['energy_generation_components'][
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'pv_generation_component']
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'pv_generation_component']
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@ -202,6 +187,7 @@ class MontrealFutureSystemCatalogue(Catalog):
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storage_component = pv['energy_storage_systems']['storage_id']
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storage_component = pv['energy_storage_systems']['storage_id']
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storage_systems = self._search_storage_equipment(self._load_storage_components(), storage_component)
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storage_systems = self._search_storage_equipment(self._load_storage_components(), storage_component)
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energy_storage_systems = storage_systems
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energy_storage_systems = storage_systems
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pv_component = PvGenerationSystem(system_id=system_id,
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pv_component = PvGenerationSystem(system_id=system_id,
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name=name,
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name=name,
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system_type=system_type,
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system_type=system_type,
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@ -262,7 +248,7 @@ class MontrealFutureSystemCatalogue(Catalog):
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system_id = None
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system_id = None
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model_name = None
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model_name = None
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system_type = None
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system_type = None
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parasitic_energy_consumption = None
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parasitic_energy_consumption = 0
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emission_system = EmissionSystem(system_id=system_id,
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emission_system = EmissionSystem(system_id=system_id,
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model_name=model_name,
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model_name=model_name,
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system_type=system_type,
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system_type=system_type,
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@ -298,7 +284,6 @@ class MontrealFutureSystemCatalogue(Catalog):
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layers = [insulation_layer, tank_layer]
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layers = [insulation_layer, tank_layer]
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nominal_capacity = tes['nominal_capacity']
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nominal_capacity = tes['nominal_capacity']
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losses_ratio = tes['losses_ratio']
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losses_ratio = tes['losses_ratio']
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heating_coil_capacity = tes['heating_coil_capacity']
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storage_component = ThermalStorageSystem(storage_id=storage_id,
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storage_component = ThermalStorageSystem(storage_id=storage_id,
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model_name=model_name,
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model_name=model_name,
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type_energy_stored=type_energy_stored,
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type_energy_stored=type_energy_stored,
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@ -310,8 +295,7 @@ class MontrealFutureSystemCatalogue(Catalog):
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height=height,
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height=height,
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layers=layers,
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layers=layers,
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maximum_operating_temperature=maximum_operating_temperature,
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maximum_operating_temperature=maximum_operating_temperature,
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storage_medium=medium,
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storage_medium=medium)
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heating_coil_capacity=heating_coil_capacity)
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storage_components.append(storage_component)
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storage_components.append(storage_component)
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for template in template_storages:
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for template in template_storages:
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@ -319,7 +303,7 @@ class MontrealFutureSystemCatalogue(Catalog):
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storage_type = template['storage_type']
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storage_type = template['storage_type']
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type_energy_stored = template['type_energy_stored']
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type_energy_stored = template['type_energy_stored']
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maximum_operating_temperature = template['maximum_operating_temperature']
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maximum_operating_temperature = template['maximum_operating_temperature']
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height = float(template['physical_characteristics']['height'])
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height = template['physical_characteristics']['height']
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materials = self._load_materials()
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materials = self._load_materials()
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insulation_material_id = template['insulation']['material_id']
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insulation_material_id = template['insulation']['material_id']
|
||||||
insulation_material = self._search_material(materials, insulation_material_id)
|
insulation_material = self._search_material(materials, insulation_material_id)
|
||||||
|
@ -338,7 +322,6 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||||
nominal_capacity = template['nominal_capacity']
|
nominal_capacity = template['nominal_capacity']
|
||||||
losses_ratio = template['losses_ratio']
|
losses_ratio = template['losses_ratio']
|
||||||
volume = template['physical_characteristics']['volume']
|
volume = template['physical_characteristics']['volume']
|
||||||
heating_coil_capacity = template['heating_coil_capacity']
|
|
||||||
storage_component = ThermalStorageSystem(storage_id=storage_id,
|
storage_component = ThermalStorageSystem(storage_id=storage_id,
|
||||||
model_name=model_name,
|
model_name=model_name,
|
||||||
type_energy_stored=type_energy_stored,
|
type_energy_stored=type_energy_stored,
|
||||||
|
@ -350,8 +333,7 @@ class MontrealFutureSystemCatalogue(Catalog):
|
||||||
height=height,
|
height=height,
|
||||||
layers=layers,
|
layers=layers,
|
||||||
maximum_operating_temperature=maximum_operating_temperature,
|
maximum_operating_temperature=maximum_operating_temperature,
|
||||||
storage_medium=medium,
|
storage_medium=medium)
|
||||||
heating_coil_capacity=heating_coil_capacity)
|
|
||||||
storage_components.append(storage_component)
|
storage_components.append(storage_component)
|
||||||
return storage_components
|
return storage_components
|
||||||
|
|
||||||
|
|
|
@ -90,9 +90,7 @@ class Building(CityObject):
|
||||||
self._interior_slabs.append(surface)
|
self._interior_slabs.append(surface)
|
||||||
else:
|
else:
|
||||||
logging.error('Building %s [%s] has an unexpected surface type %s.', self.name, self.aliases, surface.type)
|
logging.error('Building %s [%s] has an unexpected surface type %s.', self.name, self.aliases, surface.type)
|
||||||
self._domestic_hot_water_peak_load = None
|
self._heating_consumption_disaggregated = {}
|
||||||
self._fuel_consumption_breakdown = {}
|
|
||||||
self._pv_generation = {}
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def shell(self) -> Polyhedron:
|
def shell(self) -> Polyhedron:
|
||||||
|
@ -451,8 +449,8 @@ class Building(CityObject):
|
||||||
monthly_values = PeakLoads(self).heating_peak_loads_from_methodology
|
monthly_values = PeakLoads(self).heating_peak_loads_from_methodology
|
||||||
if monthly_values is None:
|
if monthly_values is None:
|
||||||
return None
|
return None
|
||||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
results[cte.MONTH] = monthly_values
|
||||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
results[cte.YEAR] = [max(monthly_values)]
|
||||||
return results
|
return results
|
||||||
|
|
||||||
@property
|
@property
|
||||||
|
@ -468,24 +466,8 @@ class Building(CityObject):
|
||||||
monthly_values = PeakLoads(self).cooling_peak_loads_from_methodology
|
monthly_values = PeakLoads(self).cooling_peak_loads_from_methodology
|
||||||
if monthly_values is None:
|
if monthly_values is None:
|
||||||
return None
|
return None
|
||||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
results[cte.MONTH] = [x * cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
||||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
results[cte.YEAR] = [max(monthly_values)]
|
||||||
return results
|
|
||||||
|
|
||||||
@property
|
|
||||||
def domestic_hot_water_peak_load(self) -> Union[None, dict]:
|
|
||||||
"""
|
|
||||||
Get cooling peak load in W
|
|
||||||
:return: dict{[float]}
|
|
||||||
"""
|
|
||||||
results = {}
|
|
||||||
monthly_values = None
|
|
||||||
if cte.HOUR in self.domestic_hot_water_heat_demand:
|
|
||||||
monthly_values = PeakLoads().peak_loads_from_hourly(self.domestic_hot_water_heat_demand[cte.HOUR])
|
|
||||||
if monthly_values is None:
|
|
||||||
return None
|
|
||||||
results[cte.MONTH] = [x / cte.WATTS_HOUR_TO_JULES for x in monthly_values]
|
|
||||||
results[cte.YEAR] = [max(monthly_values) / cte.WATTS_HOUR_TO_JULES]
|
|
||||||
return results
|
return results
|
||||||
|
|
||||||
@property
|
@property
|
||||||
|
@ -843,6 +825,23 @@ class Building(CityObject):
|
||||||
self._onsite_electrical_production[_key] = _results
|
self._onsite_electrical_production[_key] = _results
|
||||||
return self._onsite_electrical_production
|
return self._onsite_electrical_production
|
||||||
|
|
||||||
|
@property
|
||||||
|
def heating_consumption_disaggregated(self) -> dict:
|
||||||
|
"""
|
||||||
|
Get energy consumed for heating from different fuels in J
|
||||||
|
return: dict
|
||||||
|
"""
|
||||||
|
return self._heating_consumption_disaggregated
|
||||||
|
|
||||||
|
@heating_consumption_disaggregated.setter
|
||||||
|
def heating_consumption_disaggregated(self, value):
|
||||||
|
"""
|
||||||
|
Get energy consumed for heating from different fuels in J
|
||||||
|
return: dict
|
||||||
|
"""
|
||||||
|
self._heating_consumption_disaggregated = value
|
||||||
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def lower_corner(self):
|
def lower_corner(self):
|
||||||
"""
|
"""
|
||||||
|
@ -856,60 +855,3 @@ class Building(CityObject):
|
||||||
Get building upper corner.
|
Get building upper corner.
|
||||||
"""
|
"""
|
||||||
return [self._max_x, self._max_y, self._max_z]
|
return [self._max_x, self._max_y, self._max_z]
|
||||||
|
|
||||||
@property
|
|
||||||
def energy_consumption_breakdown(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get energy consumption of different sectors
|
|
||||||
return: dict
|
|
||||||
"""
|
|
||||||
fuel_breakdown = {cte.ELECTRICITY: {cte.LIGHTING: self.lighting_electrical_demand[cte.YEAR][0],
|
|
||||||
cte.APPLIANCES: self.appliances_electrical_demand[cte.YEAR][0]}}
|
|
||||||
energy_systems = self.energy_systems
|
|
||||||
for energy_system in energy_systems:
|
|
||||||
demand_types = energy_system.demand_types
|
|
||||||
generation_systems = energy_system.generation_systems
|
|
||||||
for demand_type in demand_types:
|
|
||||||
for generation_system in generation_systems:
|
|
||||||
if generation_system.system_type != cte.PHOTOVOLTAIC:
|
|
||||||
if generation_system.fuel_type not in fuel_breakdown:
|
|
||||||
fuel_breakdown[generation_system.fuel_type] = {}
|
|
||||||
if demand_type in generation_system.energy_consumption:
|
|
||||||
fuel_breakdown[f'{generation_system.fuel_type}'][f'{demand_type}'] = (
|
|
||||||
generation_system.energy_consumption)[f'{demand_type}'][cte.YEAR][0]
|
|
||||||
storage_systems = generation_system.energy_storage_systems
|
|
||||||
if storage_systems:
|
|
||||||
for storage_system in storage_systems:
|
|
||||||
if storage_system.type_energy_stored == 'thermal' and storage_system.heating_coil_energy_consumption:
|
|
||||||
fuel_breakdown[cte.ELECTRICITY][f'{demand_type}'] += storage_system.heating_coil_energy_consumption[cte.YEAR][0]
|
|
||||||
#TODO: When simulation models of all energy system archetypes are created, this part can be removed
|
|
||||||
heating_fuels = []
|
|
||||||
dhw_fuels = []
|
|
||||||
for energy_system in self.energy_systems:
|
|
||||||
if cte.HEATING in energy_system.demand_types:
|
|
||||||
for generation_system in energy_system.generation_systems:
|
|
||||||
heating_fuels.append(generation_system.fuel_type)
|
|
||||||
if cte.DOMESTIC_HOT_WATER in energy_system.demand_types:
|
|
||||||
for generation_system in energy_system.generation_systems:
|
|
||||||
dhw_fuels.append(generation_system.fuel_type)
|
|
||||||
for key in fuel_breakdown:
|
|
||||||
if key == cte.ELECTRICITY and cte.COOLING not in fuel_breakdown[key]:
|
|
||||||
for energy_system in energy_systems:
|
|
||||||
if cte.COOLING in energy_system.demand_types and cte.COOLING not in fuel_breakdown[key]:
|
|
||||||
for generation_system in energy_system.generation_systems:
|
|
||||||
fuel_breakdown[generation_system.fuel_type][cte.COOLING] = self.cooling_consumption[cte.YEAR][0]
|
|
||||||
for fuel in heating_fuels:
|
|
||||||
if cte.HEATING not in fuel_breakdown[fuel]:
|
|
||||||
for energy_system in energy_systems:
|
|
||||||
if cte.HEATING in energy_system.demand_types:
|
|
||||||
for generation_system in energy_system.generation_systems:
|
|
||||||
fuel_breakdown[generation_system.fuel_type][cte.HEATING] = self.heating_consumption[cte.YEAR][0]
|
|
||||||
for fuel in dhw_fuels:
|
|
||||||
if cte.DOMESTIC_HOT_WATER not in fuel_breakdown[fuel]:
|
|
||||||
for energy_system in energy_systems:
|
|
||||||
if cte.DOMESTIC_HOT_WATER in energy_system.demand_types:
|
|
||||||
for generation_system in energy_system.generation_systems:
|
|
||||||
fuel_breakdown[generation_system.fuel_type][cte.DOMESTIC_HOT_WATER] = self.domestic_hot_water_consumption[cte.YEAR][0]
|
|
||||||
self._fuel_consumption_breakdown = fuel_breakdown
|
|
||||||
return self._fuel_consumption_breakdown
|
|
||||||
|
|
||||||
|
|
|
@ -42,12 +42,10 @@ class Surface:
|
||||||
self._short_wave_reflectance = None
|
self._short_wave_reflectance = None
|
||||||
self._long_wave_emittance = None
|
self._long_wave_emittance = None
|
||||||
self._inverse = None
|
self._inverse = None
|
||||||
self._associated_thermal_boundaries = []
|
self._associated_thermal_boundaries = None
|
||||||
self._vegetation = None
|
self._vegetation = None
|
||||||
self._percentage_shared = None
|
self._percentage_shared = None
|
||||||
self._solar_collectors_area_reduction_factor = None
|
self._solar_collectors_area_reduction_factor = None
|
||||||
self._global_irradiance_tilted = {}
|
|
||||||
self._installed_solar_collector_area = None
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def name(self):
|
def name(self):
|
||||||
|
@ -386,35 +384,3 @@ class Surface:
|
||||||
:param value: float
|
:param value: float
|
||||||
"""
|
"""
|
||||||
self._solar_collectors_area_reduction_factor = value
|
self._solar_collectors_area_reduction_factor = value
|
||||||
|
|
||||||
@property
|
|
||||||
def global_irradiance_tilted(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get global irradiance on a tilted surface in J/m2
|
|
||||||
:return: dict
|
|
||||||
"""
|
|
||||||
return self._global_irradiance_tilted
|
|
||||||
|
|
||||||
@global_irradiance_tilted.setter
|
|
||||||
def global_irradiance_tilted(self, value):
|
|
||||||
"""
|
|
||||||
Set global irradiance on a tilted surface in J/m2
|
|
||||||
:param value: dict
|
|
||||||
"""
|
|
||||||
self._global_irradiance_tilted = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def installed_solar_collector_area(self):
|
|
||||||
"""
|
|
||||||
Get installed solar collector area in m2
|
|
||||||
:return: dict
|
|
||||||
"""
|
|
||||||
return self._installed_solar_collector_area
|
|
||||||
|
|
||||||
@installed_solar_collector_area.setter
|
|
||||||
def installed_solar_collector_area(self, value):
|
|
||||||
"""
|
|
||||||
Set installed solar collector area in m2
|
|
||||||
:return: dict
|
|
||||||
"""
|
|
||||||
self._installed_solar_collector_area = value
|
|
|
@ -41,10 +41,9 @@ class CityObject:
|
||||||
self._ground_temperature = {}
|
self._ground_temperature = {}
|
||||||
self._global_horizontal = {}
|
self._global_horizontal = {}
|
||||||
self._diffuse = {}
|
self._diffuse = {}
|
||||||
self._direct_normal = {}
|
self._beam = {}
|
||||||
self._sensors = []
|
self._sensors = []
|
||||||
self._neighbours = None
|
self._neighbours = None
|
||||||
self._beam = {}
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def level_of_detail(self) -> LevelOfDetail:
|
def level_of_detail(self) -> LevelOfDetail:
|
||||||
|
@ -239,20 +238,20 @@ class CityObject:
|
||||||
self._diffuse = value
|
self._diffuse = value
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def direct_normal(self) -> dict:
|
def beam(self) -> dict:
|
||||||
"""
|
"""
|
||||||
Get beam radiation surrounding the city object in J/m2
|
Get beam radiation surrounding the city object in J/m2
|
||||||
:return: dict{dict{[float]}}
|
:return: dict{dict{[float]}}
|
||||||
"""
|
"""
|
||||||
return self._direct_normal
|
return self._beam
|
||||||
|
|
||||||
@direct_normal.setter
|
@beam.setter
|
||||||
def direct_normal(self, value):
|
def beam(self, value):
|
||||||
"""
|
"""
|
||||||
Set beam radiation surrounding the city object in J/m2
|
Set beam radiation surrounding the city object in J/m2
|
||||||
:param value: dict{dict{[float]}}
|
:param value: dict{dict{[float]}}
|
||||||
"""
|
"""
|
||||||
self._direct_normal = value
|
self._beam = value
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def lower_corner(self):
|
def lower_corner(self):
|
||||||
|
@ -303,19 +302,3 @@ class CityObject:
|
||||||
Set the list of neighbour_objects and their properties associated to the current city_object
|
Set the list of neighbour_objects and their properties associated to the current city_object
|
||||||
"""
|
"""
|
||||||
self._neighbours = value
|
self._neighbours = value
|
||||||
|
|
||||||
@property
|
|
||||||
def beam(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get beam radiation surrounding the city object in J/m2
|
|
||||||
:return: dict{dict{[float]}}
|
|
||||||
"""
|
|
||||||
return self._beam
|
|
||||||
|
|
||||||
@beam.setter
|
|
||||||
def beam(self, value):
|
|
||||||
"""
|
|
||||||
Set beam radiation surrounding the city object in J/m2
|
|
||||||
:param value: dict{dict{[float]}}
|
|
||||||
"""
|
|
||||||
self._beam = value
|
|
||||||
|
|
|
@ -13,7 +13,7 @@ class EmissionSystem:
|
||||||
def __init__(self):
|
def __init__(self):
|
||||||
self._model_name = None
|
self._model_name = None
|
||||||
self._type = None
|
self._type = None
|
||||||
self._parasitic_energy_consumption = None
|
self._parasitic_energy_consumption = 0
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def model_name(self):
|
def model_name(self):
|
||||||
|
|
|
@ -11,8 +11,7 @@ from abc import ABC
|
||||||
from typing import Union, List
|
from typing import Union, List
|
||||||
|
|
||||||
from hub.city_model_structure.energy_systems.distribution_system import DistributionSystem
|
from hub.city_model_structure.energy_systems.distribution_system import DistributionSystem
|
||||||
from hub.city_model_structure.energy_systems.thermal_storage_system import ThermalStorageSystem
|
from hub.city_model_structure.energy_systems.energy_storage_system import EnergyStorageSystem
|
||||||
from hub.city_model_structure.energy_systems.electrical_storage_system import ElectricalStorageSystem
|
|
||||||
|
|
||||||
|
|
||||||
class GenerationSystem(ABC):
|
class GenerationSystem(ABC):
|
||||||
|
@ -27,7 +26,6 @@ class GenerationSystem(ABC):
|
||||||
self._fuel_type = None
|
self._fuel_type = None
|
||||||
self._distribution_systems = None
|
self._distribution_systems = None
|
||||||
self._energy_storage_systems = None
|
self._energy_storage_systems = None
|
||||||
self._number_of_units = None
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def system_type(self):
|
def system_type(self):
|
||||||
|
@ -126,7 +124,7 @@ class GenerationSystem(ABC):
|
||||||
self._distribution_systems = value
|
self._distribution_systems = value
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def energy_storage_systems(self) -> Union[None, List[ThermalStorageSystem], List[ElectricalStorageSystem]]:
|
def energy_storage_systems(self) -> Union[None, List[EnergyStorageSystem]]:
|
||||||
"""
|
"""
|
||||||
Get energy storage systems connected to this generation system
|
Get energy storage systems connected to this generation system
|
||||||
:return: [EnergyStorageSystem]
|
:return: [EnergyStorageSystem]
|
||||||
|
@ -140,19 +138,3 @@ class GenerationSystem(ABC):
|
||||||
:param value: [EnergyStorageSystem]
|
:param value: [EnergyStorageSystem]
|
||||||
"""
|
"""
|
||||||
self._energy_storage_systems = value
|
self._energy_storage_systems = value
|
||||||
|
|
||||||
@property
|
|
||||||
def number_of_units(self):
|
|
||||||
"""
|
|
||||||
Get number of a specific generation unit
|
|
||||||
:return: int
|
|
||||||
"""
|
|
||||||
return self._number_of_units
|
|
||||||
|
|
||||||
@number_of_units.setter
|
|
||||||
def number_of_units(self, value):
|
|
||||||
"""
|
|
||||||
Set number of a specific generation unit
|
|
||||||
:return: int
|
|
||||||
"""
|
|
||||||
self._number_of_units = value
|
|
||||||
|
|
|
@ -42,12 +42,7 @@ class NonPvGenerationSystem(GenerationSystem):
|
||||||
self._cooling_output_curve = None
|
self._cooling_output_curve = None
|
||||||
self._cooling_fuel_consumption_curve = None
|
self._cooling_fuel_consumption_curve = None
|
||||||
self._cooling_efficiency_curve = None
|
self._cooling_efficiency_curve = None
|
||||||
self._domestic_hot_water = None
|
self._dual_supply_capability = None
|
||||||
self._heat_supply_temperature = None
|
|
||||||
self._cooling_supply_temperature = None
|
|
||||||
self._reversible = None
|
|
||||||
self._simultaneous_heat_cold = None
|
|
||||||
self._energy_consumption = {}
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def nominal_heat_output(self):
|
def nominal_heat_output(self):
|
||||||
|
@ -434,106 +429,21 @@ class NonPvGenerationSystem(GenerationSystem):
|
||||||
self._cooling_efficiency_curve = value
|
self._cooling_efficiency_curve = value
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def domestic_hot_water(self):
|
def dual_supply_capability(self):
|
||||||
"""
|
"""
|
||||||
Get the capability of generating domestic hot water
|
Get the capability of the generation component for simultaneous heat and cold production
|
||||||
|
|
||||||
:return: bool
|
:return: bool
|
||||||
"""
|
"""
|
||||||
return self._domestic_hot_water
|
return self._dual_supply_capability
|
||||||
|
|
||||||
@domestic_hot_water.setter
|
@dual_supply_capability.setter
|
||||||
def domestic_hot_water(self, value):
|
def dual_supply_capability(self, value):
|
||||||
"""
|
"""
|
||||||
Set the capability of generating domestic hot water
|
Set the capability of the generation component for simultaneous heat and cold production
|
||||||
|
|
||||||
:return: bool
|
:return: bool
|
||||||
"""
|
"""
|
||||||
self._domestic_hot_water = value
|
self._dual_supply_capability = value
|
||||||
|
|
||||||
@property
|
|
||||||
def heat_supply_temperature(self):
|
|
||||||
"""
|
|
||||||
Get the hourly heat supply temperature
|
|
||||||
:return: list
|
|
||||||
"""
|
|
||||||
return self._heat_supply_temperature
|
|
||||||
|
|
||||||
@heat_supply_temperature.setter
|
|
||||||
def heat_supply_temperature(self, value):
|
|
||||||
"""
|
|
||||||
set the hourly heat supply temperature
|
|
||||||
:param value:
|
|
||||||
:return: list
|
|
||||||
"""
|
|
||||||
self._heat_supply_temperature = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def cooling_supply_temperature(self):
|
|
||||||
"""
|
|
||||||
Get the hourly cooling supply temperature
|
|
||||||
:return: list
|
|
||||||
"""
|
|
||||||
return self._heat_supply_temperature
|
|
||||||
|
|
||||||
@cooling_supply_temperature.setter
|
|
||||||
def cooling_supply_temperature(self, value):
|
|
||||||
"""
|
|
||||||
set the hourly cooling supply temperature
|
|
||||||
:param value:
|
|
||||||
:return: list
|
|
||||||
"""
|
|
||||||
self._cooling_supply_temperature = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def reversibility(self):
|
|
||||||
"""
|
|
||||||
Get the capability of generating both heating and cooling
|
|
||||||
|
|
||||||
:return: bool
|
|
||||||
"""
|
|
||||||
return self._reversible
|
|
||||||
|
|
||||||
@reversibility.setter
|
|
||||||
def reversibility(self, value):
|
|
||||||
"""
|
|
||||||
Set the capability of generating domestic hot water
|
|
||||||
|
|
||||||
:return: bool
|
|
||||||
"""
|
|
||||||
self._reversible = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def simultaneous_heat_cold(self):
|
|
||||||
"""
|
|
||||||
Get the capability of generating both heating and cooling at the same time
|
|
||||||
|
|
||||||
:return: bool
|
|
||||||
"""
|
|
||||||
return self._simultaneous_heat_cold
|
|
||||||
|
|
||||||
@simultaneous_heat_cold.setter
|
|
||||||
def simultaneous_heat_cold(self, value):
|
|
||||||
"""
|
|
||||||
Set the capability of generating domestic hot water at the same time
|
|
||||||
|
|
||||||
:return: bool
|
|
||||||
"""
|
|
||||||
self._simultaneous_heat_cold = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def energy_consumption(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get energy consumption in W
|
|
||||||
:return: dict{[float]}
|
|
||||||
"""
|
|
||||||
return self._energy_consumption
|
|
||||||
|
|
||||||
@energy_consumption.setter
|
|
||||||
def energy_consumption(self, value):
|
|
||||||
"""
|
|
||||||
Set energy consumption in W
|
|
||||||
:param value: dict{[float]}
|
|
||||||
"""
|
|
||||||
self._energy_consumption = value
|
|
||||||
|
|
||||||
|
|
|
@ -24,29 +24,28 @@ class PerformanceCurves:
|
||||||
def curve_type(self):
|
def curve_type(self):
|
||||||
"""
|
"""
|
||||||
Get the type of the fit function from the following
|
Get the type of the fit function from the following
|
||||||
Linear =>>> y = a + b*x
|
Linear =>>> y = a*x + b
|
||||||
Exponential =>>> y = a*(b**x)
|
Exponential =>>> y = a*(b**x)
|
||||||
Second degree polynomial =>>> y = a + b*x + c*(x**2)
|
Polynomial =>>> y = a*(x**2) + b*x + c
|
||||||
Power =>>> y = a*(x**b)
|
Power =>>> y = a*(x**b)
|
||||||
Bi-Quadratic =>>> y = a + b*x + c*(x**2) + d*z + e*(z**2) + f*x*z
|
Second degree multivariable =>>> y = a*(x**2) + b*x + c*x*z + d*z + e*(z**2) + f
|
||||||
|
|
||||||
Get the type of function from ['linear', 'exponential', 'second degree polynomial', 'power', 'bi-quadratic']
|
Get the type of function from ['linear', 'exponential', 'polynomial', 'power', 'second degree multivariable']
|
||||||
:return: string
|
:return: string
|
||||||
"""
|
"""
|
||||||
|
|
||||||
return self._curve_type
|
return self._curve_type
|
||||||
|
|
||||||
@curve_type.setter
|
@curve_type.setter
|
||||||
def curve_type(self, value):
|
def curve_type(self, value):
|
||||||
"""
|
"""
|
||||||
Set the type of the fit function from the following
|
Set the type of the fit function from the following
|
||||||
Linear =>>> y = a + b*x
|
Linear =>>> y = a*x + b
|
||||||
Exponential =>>> y = a*(b**x)
|
Exponential =>>> y = a*(b**x)
|
||||||
Second degree polynomial =>>> y = a + b*x + c*(x**2)
|
Polynomial =>>> y = a*(x**2) + b*x + c
|
||||||
Power =>>> y = a*(x**b)
|
Power =>>> y = a*(x**b)
|
||||||
Bi-Quadratic =>>> y = a + b*x + c*(x**2) + d*z + e*(z**2) + f*x*z
|
Second degree multivariable =>>> y = a*(x**2) + b*x + c*x*z + d*z + e*(z**2) + f
|
||||||
|
|
||||||
Get the type of function from ['linear', 'exponential', 'second degree polynomial', 'power', 'bi-quadratic']
|
Get the type of function from ['linear', 'exponential', 'polynomial', 'power', 'second degree multivariable']
|
||||||
:return: string
|
:return: string
|
||||||
"""
|
"""
|
||||||
self._curve_type = value
|
self._curve_type = value
|
||||||
|
|
|
@ -26,10 +26,6 @@ class PvGenerationSystem(GenerationSystem):
|
||||||
self._width = None
|
self._width = None
|
||||||
self._height = None
|
self._height = None
|
||||||
self._electricity_power = None
|
self._electricity_power = None
|
||||||
self._tilt_angle = None
|
|
||||||
self._surface_azimuth = None
|
|
||||||
self._solar_altitude_angle = None
|
|
||||||
self._solar_azimuth_angle = None
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def nominal_electricity_output(self):
|
def nominal_electricity_output(self):
|
||||||
|
@ -206,35 +202,3 @@ class PvGenerationSystem(GenerationSystem):
|
||||||
:param value: float
|
:param value: float
|
||||||
"""
|
"""
|
||||||
self._electricity_power = value
|
self._electricity_power = value
|
||||||
|
|
||||||
@property
|
|
||||||
def tilt_angle(self):
|
|
||||||
"""
|
|
||||||
Get tilt angle of PV system in degrees
|
|
||||||
:return: float
|
|
||||||
"""
|
|
||||||
return self._tilt_angle
|
|
||||||
|
|
||||||
@tilt_angle.setter
|
|
||||||
def tilt_angle(self, value):
|
|
||||||
"""
|
|
||||||
Set PV system tilt angle in degrees
|
|
||||||
:param value: float
|
|
||||||
"""
|
|
||||||
self._tilt_angle = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def surface_azimuth(self):
|
|
||||||
"""
|
|
||||||
Get surface azimuth angle of PV system in degrees. 0 is North
|
|
||||||
:return: float
|
|
||||||
"""
|
|
||||||
return self._surface_azimuth
|
|
||||||
|
|
||||||
@surface_azimuth.setter
|
|
||||||
def surface_azimuth(self, value):
|
|
||||||
"""
|
|
||||||
Set PV system tilt angle in degrees
|
|
||||||
:param value: float
|
|
||||||
"""
|
|
||||||
self._surface_azimuth = value
|
|
||||||
|
|
|
@ -22,9 +22,6 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
||||||
self._height = None
|
self._height = None
|
||||||
self._layers = None
|
self._layers = None
|
||||||
self._maximum_operating_temperature = None
|
self._maximum_operating_temperature = None
|
||||||
self._heating_coil_capacity = None
|
|
||||||
self._temperature = None
|
|
||||||
self._heating_coil_energy_consumption = None
|
|
||||||
|
|
||||||
@property
|
@property
|
||||||
def volume(self):
|
def volume(self):
|
||||||
|
@ -89,51 +86,3 @@ class ThermalStorageSystem(EnergyStorageSystem):
|
||||||
:param value: float
|
:param value: float
|
||||||
"""
|
"""
|
||||||
self._maximum_operating_temperature = value
|
self._maximum_operating_temperature = value
|
||||||
|
|
||||||
@property
|
|
||||||
def heating_coil_capacity(self):
|
|
||||||
"""
|
|
||||||
Get heating coil capacity in Watts
|
|
||||||
:return: float
|
|
||||||
"""
|
|
||||||
return self._heating_coil_capacity
|
|
||||||
|
|
||||||
@heating_coil_capacity.setter
|
|
||||||
def heating_coil_capacity(self, value):
|
|
||||||
"""
|
|
||||||
Set heating coil capacity in Watts
|
|
||||||
:param value: float
|
|
||||||
"""
|
|
||||||
self._heating_coil_capacity = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def temperature(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get fuel consumption in W, m3, or kg
|
|
||||||
:return: dict{[float]}
|
|
||||||
"""
|
|
||||||
return self._temperature
|
|
||||||
|
|
||||||
@temperature.setter
|
|
||||||
def temperature(self, value):
|
|
||||||
"""
|
|
||||||
Set fuel consumption in W, m3, or kg
|
|
||||||
:param value: dict{[float]}
|
|
||||||
"""
|
|
||||||
self._temperature = value
|
|
||||||
|
|
||||||
@property
|
|
||||||
def heating_coil_energy_consumption(self) -> dict:
|
|
||||||
"""
|
|
||||||
Get fuel consumption in W, m3, or kg
|
|
||||||
:return: dict{[float]}
|
|
||||||
"""
|
|
||||||
return self._heating_coil_energy_consumption
|
|
||||||
|
|
||||||
@heating_coil_energy_consumption.setter
|
|
||||||
def heating_coil_energy_consumption(self, value):
|
|
||||||
"""
|
|
||||||
Set fuel consumption in W, m3, or kg
|
|
||||||
:param value: dict{[float]}
|
|
||||||
"""
|
|
||||||
self._heating_coil_energy_consumption = value
|
|
||||||
|
|
|
@ -5,11 +5,11 @@
|
||||||
<medium>
|
<medium>
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
<name>Water</name>
|
<name>Water</name>
|
||||||
<solar_absorptance/>
|
<solar_absorptance></solar_absorptance>
|
||||||
<thermal_absorptance/>
|
<thermal_absorptance></thermal_absorptance>
|
||||||
<visible_absorptance/>
|
<visible_absorptance></visible_absorptance>
|
||||||
<no_mass/>
|
<no_mass></no_mass>
|
||||||
<thermal_resistance/>
|
<thermal_resistance></thermal_resistance>
|
||||||
<density>981.0</density>
|
<density>981.0</density>
|
||||||
<specific_heat>4180.0</specific_heat>
|
<specific_heat>4180.0</specific_heat>
|
||||||
<conductivity>0.6</conductivity>
|
<conductivity>0.6</conductivity>
|
||||||
|
@ -26,7 +26,7 @@
|
||||||
<minimum_heat_output>4.7</minimum_heat_output>
|
<minimum_heat_output>4.7</minimum_heat_output>
|
||||||
<maximum_heat_output>23.5</maximum_heat_output>
|
<maximum_heat_output>23.5</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -50,10 +50,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>2</system_id>
|
<system_id>2</system_id>
|
||||||
|
@ -65,7 +62,7 @@
|
||||||
<minimum_heat_output>6.15</minimum_heat_output>
|
<minimum_heat_output>6.15</minimum_heat_output>
|
||||||
<maximum_heat_output>30.8</maximum_heat_output>
|
<maximum_heat_output>30.8</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -89,10 +86,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>3</system_id>
|
<system_id>3</system_id>
|
||||||
|
@ -104,7 +98,7 @@
|
||||||
<minimum_heat_output>8.8</minimum_heat_output>
|
<minimum_heat_output>8.8</minimum_heat_output>
|
||||||
<maximum_heat_output>44</maximum_heat_output>
|
<maximum_heat_output>44</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -128,10 +122,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>4</system_id>
|
<system_id>4</system_id>
|
||||||
|
@ -143,7 +134,7 @@
|
||||||
<minimum_heat_output>12.3</minimum_heat_output>
|
<minimum_heat_output>12.3</minimum_heat_output>
|
||||||
<maximum_heat_output>61.5</maximum_heat_output>
|
<maximum_heat_output>61.5</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -167,10 +158,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>5</system_id>
|
<system_id>5</system_id>
|
||||||
|
@ -182,7 +170,7 @@
|
||||||
<minimum_heat_output>4.0</minimum_heat_output>
|
<minimum_heat_output>4.0</minimum_heat_output>
|
||||||
<maximum_heat_output>35.2</maximum_heat_output>
|
<maximum_heat_output>35.2</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -206,10 +194,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>6</system_id>
|
<system_id>6</system_id>
|
||||||
|
@ -221,7 +206,7 @@
|
||||||
<minimum_heat_output>4.0</minimum_heat_output>
|
<minimum_heat_output>4.0</minimum_heat_output>
|
||||||
<maximum_heat_output>35.2</maximum_heat_output>
|
<maximum_heat_output>35.2</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>False</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -245,10 +230,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>7</system_id>
|
<system_id>7</system_id>
|
||||||
|
@ -260,7 +242,7 @@
|
||||||
<minimum_heat_output>2.5</minimum_heat_output>
|
<minimum_heat_output>2.5</minimum_heat_output>
|
||||||
<maximum_heat_output>25.0</maximum_heat_output>
|
<maximum_heat_output>25.0</maximum_heat_output>
|
||||||
<heat_efficiency>0.96</heat_efficiency>
|
<heat_efficiency>0.96</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -284,10 +266,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>8</system_id>
|
<system_id>8</system_id>
|
||||||
|
@ -299,7 +278,7 @@
|
||||||
<minimum_heat_output>3.2</minimum_heat_output>
|
<minimum_heat_output>3.2</minimum_heat_output>
|
||||||
<maximum_heat_output>32.0</maximum_heat_output>
|
<maximum_heat_output>32.0</maximum_heat_output>
|
||||||
<heat_efficiency>0.96</heat_efficiency>
|
<heat_efficiency>0.96</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -323,10 +302,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>9</system_id>
|
<system_id>9</system_id>
|
||||||
|
@ -338,7 +314,7 @@
|
||||||
<minimum_heat_output>4.5</minimum_heat_output>
|
<minimum_heat_output>4.5</minimum_heat_output>
|
||||||
<maximum_heat_output>45.0</maximum_heat_output>
|
<maximum_heat_output>45.0</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -362,10 +338,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>10</system_id>
|
<system_id>10</system_id>
|
||||||
|
@ -377,7 +350,7 @@
|
||||||
<minimum_heat_output>3.5</minimum_heat_output>
|
<minimum_heat_output>3.5</minimum_heat_output>
|
||||||
<maximum_heat_output>35.0</maximum_heat_output>
|
<maximum_heat_output>35.0</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -401,10 +374,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>11</system_id>
|
<system_id>11</system_id>
|
||||||
|
@ -416,7 +386,7 @@
|
||||||
<minimum_heat_output>5.3</minimum_heat_output>
|
<minimum_heat_output>5.3</minimum_heat_output>
|
||||||
<maximum_heat_output>53.0</maximum_heat_output>
|
<maximum_heat_output>53.0</maximum_heat_output>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi>True</combi>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -440,10 +410,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<pv_generation_component>
|
<pv_generation_component>
|
||||||
<system_id>12</system_id>
|
<system_id>12</system_id>
|
||||||
|
@ -474,10 +441,10 @@
|
||||||
<minimum_heat_output>0</minimum_heat_output>
|
<minimum_heat_output>0</minimum_heat_output>
|
||||||
<maximum_heat_output>51.7</maximum_heat_output>
|
<maximum_heat_output>51.7</maximum_heat_output>
|
||||||
<heat_efficiency>3.32</heat_efficiency>
|
<heat_efficiency>3.32</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>Electricity</fuel_type>
|
<fuel_type>Electricity</fuel_type>
|
||||||
<source_medium>Air</source_medium>
|
<source_medium>Air</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -493,7 +460,7 @@
|
||||||
<heat_output_curve/>
|
<heat_output_curve/>
|
||||||
<heat_fuel_consumption_curve/>
|
<heat_fuel_consumption_curve/>
|
||||||
<heat_efficiency_curve>
|
<heat_efficiency_curve>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
<curve_type>second degree multivariable function</curve_type>
|
||||||
<dependant_variable>COP</dependant_variable>
|
<dependant_variable>COP</dependant_variable>
|
||||||
<parameters>source_temperature</parameters>
|
<parameters>source_temperature</parameters>
|
||||||
<parameters>supply_temperature</parameters>
|
<parameters>supply_temperature</parameters>
|
||||||
|
@ -504,10 +471,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>False</domestic_hot_water>
|
<dual_supply_capability>False</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>14</system_id>
|
<system_id>14</system_id>
|
||||||
|
@ -519,10 +483,10 @@
|
||||||
<minimum_heat_output>0</minimum_heat_output>
|
<minimum_heat_output>0</minimum_heat_output>
|
||||||
<maximum_heat_output>279.3</maximum_heat_output>
|
<maximum_heat_output>279.3</maximum_heat_output>
|
||||||
<heat_efficiency>3.07</heat_efficiency>
|
<heat_efficiency>3.07</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>Electricity</fuel_type>
|
<fuel_type>Electricity</fuel_type>
|
||||||
<source_medium>Air</source_medium>
|
<source_medium>Air</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -538,7 +502,7 @@
|
||||||
<heat_output_curve/>
|
<heat_output_curve/>
|
||||||
<heat_fuel_consumption_curve/>
|
<heat_fuel_consumption_curve/>
|
||||||
<heat_efficiency_curve>
|
<heat_efficiency_curve>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
<curve_type>second degree multivariable function</curve_type>
|
||||||
<dependant_variable>COP</dependant_variable>
|
<dependant_variable>COP</dependant_variable>
|
||||||
<parameters>source_temperature</parameters>
|
<parameters>source_temperature</parameters>
|
||||||
<parameters>supply_temperature</parameters>
|
<parameters>supply_temperature</parameters>
|
||||||
|
@ -549,10 +513,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>False</domestic_hot_water>
|
<dual_supply_capability>False</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>15</system_id>
|
<system_id>15</system_id>
|
||||||
|
@ -564,10 +525,10 @@
|
||||||
<minimum_heat_output>0</minimum_heat_output>
|
<minimum_heat_output>0</minimum_heat_output>
|
||||||
<maximum_heat_output>557</maximum_heat_output>
|
<maximum_heat_output>557</maximum_heat_output>
|
||||||
<heat_efficiency>3.46</heat_efficiency>
|
<heat_efficiency>3.46</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>Electricity</fuel_type>
|
<fuel_type>Electricity</fuel_type>
|
||||||
<source_medium>Air</source_medium>
|
<source_medium>Air</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -583,7 +544,7 @@
|
||||||
<heat_output_curve/>
|
<heat_output_curve/>
|
||||||
<heat_fuel_consumption_curve/>
|
<heat_fuel_consumption_curve/>
|
||||||
<heat_efficiency_curve>
|
<heat_efficiency_curve>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
<curve_type>second degree multivariable function</curve_type>
|
||||||
<dependant_variable>COP</dependant_variable>
|
<dependant_variable>COP</dependant_variable>
|
||||||
<parameters>source_temperature</parameters>
|
<parameters>source_temperature</parameters>
|
||||||
<parameters>supply_temperature</parameters>
|
<parameters>supply_temperature</parameters>
|
||||||
|
@ -594,10 +555,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>False</domestic_hot_water>
|
<dual_supply_capability>False</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>16</system_id>
|
<system_id>16</system_id>
|
||||||
|
@ -609,7 +567,7 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>0.90</heat_efficiency>
|
<heat_efficiency>0.90</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -635,10 +593,7 @@
|
||||||
<energy_storage_systems>
|
<energy_storage_systems>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
</energy_storage_systems>
|
</energy_storage_systems>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>17</system_id>
|
<system_id>17</system_id>
|
||||||
|
@ -650,7 +605,7 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -676,25 +631,22 @@
|
||||||
<energy_storage_systems>
|
<energy_storage_systems>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
</energy_storage_systems>
|
</energy_storage_systems>
|
||||||
<domestic_hot_water>False</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>18</system_id>
|
<system_id>18</system_id>
|
||||||
<name>template Air-to-Water heat pump with storage</name>
|
<name>template Air-to-Water heat pump</name>
|
||||||
<system_type>heat pump</system_type>
|
<system_type>heat pump</system_type>
|
||||||
<model_name/>
|
<model_name/>
|
||||||
<manufacturer/>
|
<manufacturer/>
|
||||||
<nominal_heat_output/>
|
<nominal_heat_output/>
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>2</heat_efficiency>
|
<heat_efficiency>3</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Air</source_medium>
|
<source_medium>Air</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -709,34 +661,19 @@
|
||||||
<minimum_cooling_supply_temperature/>
|
<minimum_cooling_supply_temperature/>
|
||||||
<heat_output_curve/>
|
<heat_output_curve/>
|
||||||
<heat_fuel_consumption_curve/>
|
<heat_fuel_consumption_curve/>
|
||||||
<heat_efficiency_curve>
|
<heat_efficiency_curve/>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
|
||||||
<dependant_variable>COP</dependant_variable>
|
|
||||||
<parameters>source_temperature</parameters>
|
|
||||||
<parameters>supply_temperature</parameters>
|
|
||||||
<coefficients a="0.132733" b="0.012322" c="0.000032" d="-0.011109" e="-0.000125" f="-0.000123"/>
|
|
||||||
</heat_efficiency_curve>
|
|
||||||
<cooling_output_curve/>
|
<cooling_output_curve/>
|
||||||
<cooling_fuel_consumption_curve/>
|
<cooling_fuel_consumption_curve/>
|
||||||
<cooling_efficiency_curve>
|
<cooling_efficiency_curve/>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
|
||||||
<dependant_variable>COP</dependant_variable>
|
|
||||||
<parameters>source_temperature</parameters>
|
|
||||||
<parameters>supply_temperature</parameters>
|
|
||||||
<coefficients a="0.951894" b="-0.010518" c="0.000126" d="-0.003399" e="0.000183" f="-0.000206"/>
|
|
||||||
</cooling_efficiency_curve>
|
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems>
|
<energy_storage_systems>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
</energy_storage_systems>
|
</energy_storage_systems>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>True</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>19</system_id>
|
<system_id>19</system_id>
|
||||||
<name>template Groundwater-to-Water heat pump with storage</name>
|
<name>template Groundwater-to-Water heat pump</name>
|
||||||
<system_type>heat pump</system_type>
|
<system_type>heat pump</system_type>
|
||||||
<model_name/>
|
<model_name/>
|
||||||
<manufacturer/>
|
<manufacturer/>
|
||||||
|
@ -744,10 +681,10 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>3.5</heat_efficiency>
|
<heat_efficiency>3.5</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Ground</source_medium>
|
<source_medium>Ground</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -770,14 +707,11 @@
|
||||||
<energy_storage_systems>
|
<energy_storage_systems>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
</energy_storage_systems>
|
</energy_storage_systems>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>True</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>20</system_id>
|
<system_id>20</system_id>
|
||||||
<name>template Water-to-Water heat pump with storage</name>
|
<name>template Water-to-Water heat pump</name>
|
||||||
<system_type>heat pump</system_type>
|
<system_type>heat pump</system_type>
|
||||||
<model_name/>
|
<model_name/>
|
||||||
<manufacturer/>
|
<manufacturer/>
|
||||||
|
@ -785,10 +719,10 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>3.5</heat_efficiency>
|
<heat_efficiency>3.5</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Water</source_medium>
|
<source_medium>Water</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -811,10 +745,7 @@
|
||||||
<energy_storage_systems>
|
<energy_storage_systems>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
</energy_storage_systems>
|
</energy_storage_systems>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>21</system_id>
|
<system_id>21</system_id>
|
||||||
|
@ -826,7 +757,7 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>0.90</heat_efficiency>
|
<heat_efficiency>0.90</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>natural gas</fuel_type>
|
<fuel_type>natural gas</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -850,10 +781,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>22</system_id>
|
<system_id>22</system_id>
|
||||||
|
@ -865,7 +793,7 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>0.95</heat_efficiency>
|
<heat_efficiency>0.95</heat_efficiency>
|
||||||
<reversible>False</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium/>
|
<source_medium/>
|
||||||
<supply_medium/>
|
<supply_medium/>
|
||||||
|
@ -889,10 +817,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability/>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>23</system_id>
|
<system_id>23</system_id>
|
||||||
|
@ -904,14 +829,14 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>3</heat_efficiency>
|
<heat_efficiency>3</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Air</source_medium>
|
<source_medium>Air</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
<cooling_efficiency>4.5</cooling_efficiency>
|
<cooling_efficiency/>
|
||||||
<electricity_efficiency/>
|
<electricity_efficiency/>
|
||||||
<source_temperature/>
|
<source_temperature/>
|
||||||
<source_mass_flow/>
|
<source_mass_flow/>
|
||||||
|
@ -922,28 +847,13 @@
|
||||||
<minimum_cooling_supply_temperature/>
|
<minimum_cooling_supply_temperature/>
|
||||||
<heat_output_curve/>
|
<heat_output_curve/>
|
||||||
<heat_fuel_consumption_curve/>
|
<heat_fuel_consumption_curve/>
|
||||||
<heat_efficiency_curve>
|
<heat_efficiency_curve/>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
|
||||||
<dependant_variable>COP</dependant_variable>
|
|
||||||
<parameters>source_temperature</parameters>
|
|
||||||
<parameters>supply_temperature</parameters>
|
|
||||||
<coefficients a="-0.000277" b="0.019639" c="0.000004" d="0.012190" e="-0.00010" f="-0.000277"/>
|
|
||||||
</heat_efficiency_curve>
|
|
||||||
<cooling_output_curve/>
|
<cooling_output_curve/>
|
||||||
<cooling_fuel_consumption_curve/>
|
<cooling_fuel_consumption_curve/>
|
||||||
<cooling_efficiency_curve>
|
<cooling_efficiency_curve/>
|
||||||
<curve_type>bi-quadratic</curve_type>
|
|
||||||
<dependant_variable>COP</dependant_variable>
|
|
||||||
<parameters>source_temperature</parameters>
|
|
||||||
<parameters>supply_temperature</parameters>
|
|
||||||
<coefficients a="0.951894" b="-0.010518" c="0.000126" d="-0.003399" e="0.000183" f="-0.000206"/>
|
|
||||||
</cooling_efficiency_curve>
|
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>True</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>24</system_id>
|
<system_id>24</system_id>
|
||||||
|
@ -955,10 +865,10 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>3.5</heat_efficiency>
|
<heat_efficiency>3.5</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Ground</source_medium>
|
<source_medium>Ground</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -979,10 +889,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>True</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<non_pv_generation_component>
|
<non_pv_generation_component>
|
||||||
<system_id>25</system_id>
|
<system_id>25</system_id>
|
||||||
|
@ -994,10 +901,10 @@
|
||||||
<minimum_heat_output/>
|
<minimum_heat_output/>
|
||||||
<maximum_heat_output/>
|
<maximum_heat_output/>
|
||||||
<heat_efficiency>3.5</heat_efficiency>
|
<heat_efficiency>3.5</heat_efficiency>
|
||||||
<reversible>True</reversible>
|
<combi/>
|
||||||
<fuel_type>electricity</fuel_type>
|
<fuel_type>electricity</fuel_type>
|
||||||
<source_medium>Water</source_medium>
|
<source_medium>Water</source_medium>
|
||||||
<supply_medium>Water</supply_medium>
|
<supply_medium>water</supply_medium>
|
||||||
<nominal_cooling_output/>
|
<nominal_cooling_output/>
|
||||||
<minimum_cooling_output/>
|
<minimum_cooling_output/>
|
||||||
<maximum_cooling_output/>
|
<maximum_cooling_output/>
|
||||||
|
@ -1018,10 +925,7 @@
|
||||||
<cooling_efficiency_curve/>
|
<cooling_efficiency_curve/>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
<dual_supply_capability>True</dual_supply_capability>
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>True</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
</non_pv_generation_component>
|
||||||
<pv_generation_component>
|
<pv_generation_component>
|
||||||
<system_id>26</system_id>
|
<system_id>26</system_id>
|
||||||
|
@ -1041,55 +945,7 @@
|
||||||
<height>1.0</height>
|
<height>1.0</height>
|
||||||
<distribution_systems/>
|
<distribution_systems/>
|
||||||
<energy_storage_systems/>
|
<energy_storage_systems/>
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</pv_generation_component>
|
</pv_generation_component>
|
||||||
<non_pv_generation_component>
|
|
||||||
<system_id>27</system_id>
|
|
||||||
<name>template domestic hot water heat pump</name>
|
|
||||||
<system_type>heat pump</system_type>
|
|
||||||
<model_name/>
|
|
||||||
<manufacturer/>
|
|
||||||
<nominal_heat_output/>
|
|
||||||
<minimum_heat_output/>
|
|
||||||
<maximum_heat_output/>
|
|
||||||
<heat_efficiency>3.5</heat_efficiency>
|
|
||||||
<reversible/>
|
|
||||||
<fuel_type>electricity</fuel_type>
|
|
||||||
<source_medium>Air</source_medium>
|
|
||||||
<supply_medium>Water</supply_medium>
|
|
||||||
<nominal_cooling_output/>
|
|
||||||
<minimum_cooling_output/>
|
|
||||||
<maximum_cooling_output/>
|
|
||||||
<cooling_efficiency/>
|
|
||||||
<electricity_efficiency/>
|
|
||||||
<source_temperature/>
|
|
||||||
<source_mass_flow/>
|
|
||||||
<nominal_electricity_output/>
|
|
||||||
<maximum_heat_supply_temperature/>
|
|
||||||
<minimum_heat_supply_temperature/>
|
|
||||||
<maximum_cooling_supply_temperature/>
|
|
||||||
<minimum_cooling_supply_temperature/>
|
|
||||||
<heat_output_curve/>
|
|
||||||
<heat_fuel_consumption_curve/>
|
|
||||||
<heat_efficiency_curve>
|
|
||||||
<curve_type>bi-quadratic</curve_type>
|
|
||||||
<dependant_variable>COP</dependant_variable>
|
|
||||||
<parameters>source_temperature</parameters>
|
|
||||||
<parameters>supply_temperature</parameters>
|
|
||||||
<coefficients a="1.990668" b="0" c="0" d="-0.027252" e="0.000131" f="0"/>
|
|
||||||
</heat_efficiency_curve>
|
|
||||||
<cooling_output_curve/>
|
|
||||||
<cooling_fuel_consumption_curve/>
|
|
||||||
<cooling_efficiency_curve/>
|
|
||||||
<distribution_systems/>
|
|
||||||
<energy_storage_systems>
|
|
||||||
<storage_id>7</storage_id>
|
|
||||||
</energy_storage_systems>
|
|
||||||
<domestic_hot_water>True</domestic_hot_water>
|
|
||||||
<heat_supply_temperature/>
|
|
||||||
<cooling_supply_temperature/>
|
|
||||||
<simultaneous_heat_cold>False</simultaneous_heat_cold>
|
|
||||||
</non_pv_generation_component>
|
|
||||||
</energy_generation_components>
|
</energy_generation_components>
|
||||||
<energy_storage_components>
|
<energy_storage_components>
|
||||||
<thermalStorages>
|
<thermalStorages>
|
||||||
|
@ -1114,9 +970,8 @@
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</thermalStorages>
|
</thermalStorages>
|
||||||
<thermalStorages>
|
<thermalStorages>
|
||||||
<storage_id>2</storage_id>
|
<storage_id>2</storage_id>
|
||||||
|
@ -1140,9 +995,8 @@
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</thermalStorages>
|
</thermalStorages>
|
||||||
<thermalStorages>
|
<thermalStorages>
|
||||||
<storage_id>3</storage_id>
|
<storage_id>3</storage_id>
|
||||||
|
@ -1166,9 +1020,8 @@
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</thermalStorages>
|
</thermalStorages>
|
||||||
<thermalStorages>
|
<thermalStorages>
|
||||||
<storage_id>4</storage_id>
|
<storage_id>4</storage_id>
|
||||||
|
@ -1191,9 +1044,8 @@
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</thermalStorages>
|
</thermalStorages>
|
||||||
<thermalStorages>
|
<thermalStorages>
|
||||||
<storage_id>5</storage_id>
|
<storage_id>5</storage_id>
|
||||||
|
@ -1217,16 +1069,15 @@
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</thermalStorages>
|
</thermalStorages>
|
||||||
<templateStorages>
|
<templateStorages>
|
||||||
<storage_id>6</storage_id>
|
<storage_id>6</storage_id>
|
||||||
<name>template Hot Water Storage Tank</name>
|
<name>template Hot Water Storage Tank</name>
|
||||||
<type_energy_stored>thermal</type_energy_stored>
|
<type_energy_stored>thermal</type_energy_stored>
|
||||||
<model_name/>
|
<model_name>HF 200</model_name>
|
||||||
<manufacturer/>
|
<manufacturer></manufacturer>
|
||||||
<maximum_operating_temperature>95.0</maximum_operating_temperature>
|
<maximum_operating_temperature>95.0</maximum_operating_temperature>
|
||||||
<insulation>
|
<insulation>
|
||||||
<material_id>1</material_id>
|
<material_id>1</material_id>
|
||||||
|
@ -1237,74 +1088,47 @@
|
||||||
<tankThickness>0</tankThickness>
|
<tankThickness>0</tankThickness>
|
||||||
<height>1.5</height>
|
<height>1.5</height>
|
||||||
<tankMaterial>Steel</tankMaterial>
|
<tankMaterial>Steel</tankMaterial>
|
||||||
<volume/>
|
<volume></volume>
|
||||||
</physical_characteristics>
|
</physical_characteristics>
|
||||||
<storage_medium>
|
<storage_medium>
|
||||||
<medium_id>1</medium_id>
|
<medium_id>1</medium_id>
|
||||||
</storage_medium>
|
</storage_medium>
|
||||||
<storage_type>sensible</storage_type>
|
<storage_type>sensible</storage_type>
|
||||||
<nominal_capacity/>
|
<nominal_capacity></nominal_capacity>
|
||||||
<losses_ratio/>
|
<losses_ratio></losses_ratio>
|
||||||
<heating_coil_capacity/>
|
|
||||||
</templateStorages>
|
|
||||||
<templateStorages>
|
|
||||||
<storage_id>7</storage_id>
|
|
||||||
<name>template Hot Water Storage Tank with Heating Coil</name>
|
|
||||||
<type_energy_stored>thermal</type_energy_stored>
|
|
||||||
<model_name/>
|
|
||||||
<manufacturer/>
|
|
||||||
<maximum_operating_temperature>95.0</maximum_operating_temperature>
|
|
||||||
<insulation>
|
|
||||||
<material_id>1</material_id>
|
|
||||||
<insulationThickness>90.0</insulationThickness>
|
|
||||||
</insulation>
|
|
||||||
<physical_characteristics>
|
|
||||||
<material_id>2</material_id>
|
|
||||||
<tankThickness>0</tankThickness>
|
|
||||||
<height>1.5</height>
|
|
||||||
<tankMaterial>Steel</tankMaterial>
|
|
||||||
<volume/>
|
|
||||||
</physical_characteristics>
|
|
||||||
<storage_medium>
|
|
||||||
<medium_id>1</medium_id>
|
|
||||||
</storage_medium>
|
|
||||||
<storage_type>sensible</storage_type>
|
|
||||||
<nominal_capacity/>
|
|
||||||
<losses_ratio/>
|
|
||||||
<heating_coil_capacity>5000</heating_coil_capacity>
|
|
||||||
</templateStorages>
|
</templateStorages>
|
||||||
</energy_storage_components>
|
</energy_storage_components>
|
||||||
<materials>
|
<materials>
|
||||||
<material>
|
<material>
|
||||||
<material_id>1</material_id>
|
<material_id>1</material_id>
|
||||||
<name>Polyurethane</name>
|
<name>Polyurethane</name>
|
||||||
<solar_absorptance/>
|
<solar_absorptance></solar_absorptance>
|
||||||
<thermal_absorptance/>
|
<thermal_absorptance></thermal_absorptance>
|
||||||
<visible_absorptance/>
|
<visible_absorptance></visible_absorptance>
|
||||||
<no_mass/>
|
<no_mass></no_mass>
|
||||||
<thermal_resistance/>
|
<thermal_resistance></thermal_resistance>
|
||||||
<density/>
|
<density></density>
|
||||||
<specific_heat/>
|
<specific_heat></specific_heat>
|
||||||
<conductivity>0.028</conductivity>
|
<conductivity>0.028</conductivity>
|
||||||
</material>
|
</material>
|
||||||
<material>
|
<material>
|
||||||
<material_id>2</material_id>
|
<material_id>2</material_id>
|
||||||
<name>Steel</name>
|
<name>Steel</name>
|
||||||
<solar_absorptance/>
|
<solar_absorptance></solar_absorptance>
|
||||||
<thermal_absorptance/>
|
<thermal_absorptance></thermal_absorptance>
|
||||||
<visible_absorptance/>
|
<visible_absorptance></visible_absorptance>
|
||||||
<no_mass/>
|
<no_mass></no_mass>
|
||||||
<thermal_resistance/>
|
<thermal_resistance></thermal_resistance>
|
||||||
<density/>
|
<density></density>
|
||||||
<specific_heat/>
|
<specific_heat></specific_heat>
|
||||||
<conductivity>18</conductivity>
|
<conductivity>18</conductivity>
|
||||||
</material>
|
</material>
|
||||||
</materials>
|
</materials>
|
||||||
<distribution_systems>
|
<distribution_systems>
|
||||||
<distribution_system/>
|
<distribution_system></distribution_system>
|
||||||
</distribution_systems>
|
</distribution_systems>
|
||||||
<dissipation_systems>
|
<dissipation_systems>
|
||||||
<dissipation_system/>
|
<dissipation_system></dissipation_system>
|
||||||
</dissipation_systems>
|
</dissipation_systems>
|
||||||
<systems>
|
<systems>
|
||||||
<system>
|
<system>
|
||||||
|
@ -1314,6 +1138,7 @@
|
||||||
<demands>
|
<demands>
|
||||||
<demand>heating</demand>
|
<demand>heating</demand>
|
||||||
<demand>cooling</demand>
|
<demand>cooling</demand>
|
||||||
|
<demand>domestic_hot_water</demand>
|
||||||
</demands>
|
</demands>
|
||||||
<components>
|
<components>
|
||||||
<generation_id>21</generation_id>
|
<generation_id>21</generation_id>
|
||||||
|
@ -1401,75 +1226,13 @@
|
||||||
<generation_id>26</generation_id>
|
<generation_id>26</generation_id>
|
||||||
</components>
|
</components>
|
||||||
</system>
|
</system>
|
||||||
<system>
|
|
||||||
<id>8</id>
|
|
||||||
<name>4 pipe system with air source heat pump storage and gas boiler</name>
|
|
||||||
<schema>schemas/ASHP+TES+GasBoiler.jpg</schema>
|
|
||||||
<demands>
|
|
||||||
<demand>heating</demand>
|
|
||||||
<demand>cooling</demand>
|
|
||||||
</demands>
|
|
||||||
<components>
|
|
||||||
<generation_id>23</generation_id>
|
|
||||||
<generation_id>16</generation_id>
|
|
||||||
</components>
|
|
||||||
</system>
|
|
||||||
<system>
|
|
||||||
<id>9</id>
|
|
||||||
<name>4 pipe system with air source heat pump storage and electric boiler</name>
|
|
||||||
<schema>schemas/ASHP+TES+GasBoiler.jpg</schema>
|
|
||||||
<demands>
|
|
||||||
<demand>heating</demand>
|
|
||||||
<demand>cooling</demand>
|
|
||||||
</demands>
|
|
||||||
<components>
|
|
||||||
<generation_id>22</generation_id>
|
|
||||||
<generation_id>18</generation_id>
|
|
||||||
</components>
|
|
||||||
</system>
|
|
||||||
<system>
|
|
||||||
<id>10</id>
|
|
||||||
<name>Domestic Hot Water Heat Pump with Coiled Storage</name>
|
|
||||||
<schema>schemas/ASHP+TES+GasBoiler.jpg</schema>
|
|
||||||
<demands>
|
|
||||||
<demand>domestic_hot_water</demand>
|
|
||||||
</demands>
|
|
||||||
<components>
|
|
||||||
<generation_id>27</generation_id>
|
|
||||||
</components>
|
|
||||||
</system>
|
|
||||||
<system>
|
|
||||||
<id>11</id>
|
|
||||||
<name>Central Heating System َASHP Gas-Boiler TES</name>
|
|
||||||
<schema>schemas/ASHP+TES+GasBoiler.jpg</schema>
|
|
||||||
<demands>
|
|
||||||
<demand>heating</demand>
|
|
||||||
</demands>
|
|
||||||
<components>
|
|
||||||
<generation_id>23</generation_id>
|
|
||||||
<generation_id>16</generation_id>
|
|
||||||
</components>
|
|
||||||
</system>
|
|
||||||
<system>
|
|
||||||
<id>12</id>
|
|
||||||
<name>Unitary ASHP Cooling System</name>
|
|
||||||
<schema>schemas/ASHP+TES+GasBoiler.jpg</schema>
|
|
||||||
<demands>
|
|
||||||
<demand>cooling</demand>
|
|
||||||
</demands>
|
|
||||||
<components>
|
|
||||||
<generation_id>23</generation_id>
|
|
||||||
</components>
|
|
||||||
</system>
|
|
||||||
</systems>
|
</systems>
|
||||||
|
|
||||||
<system_archetypes>
|
<system_archetypes>
|
||||||
<system_archetype id="1">
|
<system_archetype id="1">
|
||||||
<name>PV+ASHP+GasBoiler+TES</name>
|
<name>PV+ASHP+GasBoiler+TES</name>
|
||||||
<systems>
|
<systems>
|
||||||
<system_id>7</system_id>
|
<system_id>7</system_id>
|
||||||
<system_id>1</system_id>
|
<system_id>1</system_id>
|
||||||
<system_id>10</system_id>
|
|
||||||
</systems>
|
</systems>
|
||||||
</system_archetype>
|
</system_archetype>
|
||||||
<system_archetype id="2">
|
<system_archetype id="2">
|
||||||
|
@ -1543,31 +1306,6 @@
|
||||||
<system_id>6</system_id>
|
<system_id>6</system_id>
|
||||||
</systems>
|
</systems>
|
||||||
</system_archetype>
|
</system_archetype>
|
||||||
<system_archetype id="13">
|
|
||||||
<name>PV+4Pipe+DHW</name>
|
|
||||||
<systems>
|
|
||||||
<system_id>7</system_id>
|
|
||||||
<system_id>8</system_id>
|
|
||||||
<system_id>10</system_id>
|
|
||||||
</systems>
|
|
||||||
</system_archetype>
|
|
||||||
<system_archetype id="14">
|
|
||||||
<name>Central Heating+Unitary Cooling+Unitary DHW</name>
|
|
||||||
<systems>
|
|
||||||
<system_id>10</system_id>
|
|
||||||
<system_id>11</system_id>
|
|
||||||
<system_id>12</system_id>
|
|
||||||
</systems>
|
|
||||||
</system_archetype>
|
|
||||||
<system_archetype id="15">
|
|
||||||
<name>Central Heating+Unitary Cooling+Unitary DHW+PV</name>
|
|
||||||
<systems>
|
|
||||||
<system_id>7</system_id>
|
|
||||||
<system_id>10</system_id>
|
|
||||||
<system_id>11</system_id>
|
|
||||||
<system_id>12</system_id>
|
|
||||||
</systems>
|
|
||||||
</system_archetype>
|
|
||||||
</system_archetypes>
|
</system_archetypes>
|
||||||
</EnergySystemCatalog>
|
</EnergySystemCatalog>
|
||||||
|
|
||||||
|
|
|
@ -66,9 +66,9 @@ class SimplifiedRadiosityAlgorithm:
|
||||||
else:
|
else:
|
||||||
i = (total_days + day - 1) * 24 + hour - 1
|
i = (total_days + day - 1) * 24 + hour - 1
|
||||||
representative_building = self._city.buildings[0]
|
representative_building = self._city.buildings[0]
|
||||||
_global = representative_building.diffuse[cte.HOUR][i] / cte.WATTS_HOUR_TO_JULES
|
_diffuse = representative_building.diffuse[cte.HOUR][i] * cte.WATTS_HOUR_TO_JULES
|
||||||
_beam = representative_building.direct_normal[cte.HOUR][i] / cte.WATTS_HOUR_TO_JULES
|
_beam = representative_building.beam[cte.HOUR][i] * cte.WATTS_HOUR_TO_JULES
|
||||||
content += f'{day} {month} {hour} {_global} {_beam}\n'
|
content += f'{day} {month} {hour} {_diffuse} {_beam}\n'
|
||||||
with open(file, 'w', encoding='utf-8') as file:
|
with open(file, 'w', encoding='utf-8') as file:
|
||||||
file.write(content)
|
file.write(content)
|
||||||
|
|
||||||
|
|
|
@ -10,11 +10,11 @@ Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||||
KELVIN = 273.15
|
KELVIN = 273.15
|
||||||
WATER_DENSITY = 1000 # kg/m3
|
WATER_DENSITY = 1000 # kg/m3
|
||||||
WATER_HEAT_CAPACITY = 4182 # J/kgK
|
WATER_HEAT_CAPACITY = 4182 # J/kgK
|
||||||
WATER_THERMAL_CONDUCTIVITY = 0.65 # W/mK
|
|
||||||
NATURAL_GAS_LHV = 36.6e6 # J/m3
|
|
||||||
AIR_DENSITY = 1.293 # kg/m3
|
AIR_DENSITY = 1.293 # kg/m3
|
||||||
AIR_HEAT_CAPACITY = 1005.2 # J/kgK
|
AIR_HEAT_CAPACITY = 1005.2 # J/kgK
|
||||||
|
|
||||||
|
|
||||||
# converters
|
# converters
|
||||||
HOUR_TO_MINUTES = 60
|
HOUR_TO_MINUTES = 60
|
||||||
MINUTES_TO_SECONDS = 60
|
MINUTES_TO_SECONDS = 60
|
||||||
|
@ -292,7 +292,6 @@ WOOD = 'Wood'
|
||||||
GAS = 'Gas'
|
GAS = 'Gas'
|
||||||
DIESEL = 'Diesel'
|
DIESEL = 'Diesel'
|
||||||
COAL = 'Coal'
|
COAL = 'Coal'
|
||||||
BIOMASS = 'Biomass'
|
|
||||||
AIR = 'Air'
|
AIR = 'Air'
|
||||||
WATER = 'Water'
|
WATER = 'Water'
|
||||||
GEOTHERMAL = 'Geothermal'
|
GEOTHERMAL = 'Geothermal'
|
||||||
|
|
|
@ -86,8 +86,7 @@ class MontrealCustomEnergySystemParameters:
|
||||||
if archetype_generation_system.system_type == 'Photovoltaic':
|
if archetype_generation_system.system_type == 'Photovoltaic':
|
||||||
_generation_system = PvGenerationSystem()
|
_generation_system = PvGenerationSystem()
|
||||||
_type = 'PV system'
|
_type = 'PV system'
|
||||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[
|
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||||
_type]
|
|
||||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||||
_generation_system.fuel_type = _fuel_type
|
_generation_system.fuel_type = _fuel_type
|
||||||
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
||||||
|
@ -99,8 +98,7 @@ class MontrealCustomEnergySystemParameters:
|
||||||
else:
|
else:
|
||||||
_generation_system = NonPvGenerationSystem()
|
_generation_system = NonPvGenerationSystem()
|
||||||
_type = archetype_generation_system.system_type
|
_type = archetype_generation_system.system_type
|
||||||
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[
|
_generation_system.system_type = Dictionaries().montreal_generation_system_to_hub_energy_generation_system[_type]
|
||||||
_type]
|
|
||||||
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
_fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[archetype_generation_system.fuel_type]
|
||||||
_generation_system.fuel_type = _fuel_type
|
_generation_system.fuel_type = _fuel_type
|
||||||
_generation_system.source_types = archetype_generation_system.source_medium
|
_generation_system.source_types = archetype_generation_system.source_medium
|
||||||
|
|
|
@ -82,7 +82,8 @@ class MontrealFutureEnergySystemParameters:
|
||||||
|
|
||||||
return _generic_energy_systems
|
return _generic_energy_systems
|
||||||
|
|
||||||
def _create_generation_systems(self, archetype_system):
|
@staticmethod
|
||||||
|
def _create_generation_systems(archetype_system):
|
||||||
_generation_systems = []
|
_generation_systems = []
|
||||||
archetype_generation_systems = archetype_system.generation_systems
|
archetype_generation_systems = archetype_system.generation_systems
|
||||||
if archetype_generation_systems is not None:
|
if archetype_generation_systems is not None:
|
||||||
|
@ -106,7 +107,6 @@ class MontrealFutureEnergySystemParameters:
|
||||||
_generation_system.cell_temperature_coefficient = archetype_generation_system.cell_temperature_coefficient
|
_generation_system.cell_temperature_coefficient = archetype_generation_system.cell_temperature_coefficient
|
||||||
_generation_system.width = archetype_generation_system.width
|
_generation_system.width = archetype_generation_system.width
|
||||||
_generation_system.height = archetype_generation_system.height
|
_generation_system.height = archetype_generation_system.height
|
||||||
_generation_system.tilt_angle = self._city.latitude
|
|
||||||
_generic_storage_system = None
|
_generic_storage_system = None
|
||||||
if archetype_generation_system.energy_storage_systems is not None:
|
if archetype_generation_system.energy_storage_systems is not None:
|
||||||
_generic_storage_system = ElectricalStorageSystem()
|
_generic_storage_system = ElectricalStorageSystem()
|
||||||
|
@ -140,13 +140,12 @@ class MontrealFutureEnergySystemParameters:
|
||||||
_generation_system.cooling_output_curve = archetype_generation_system.cooling_output_curve
|
_generation_system.cooling_output_curve = archetype_generation_system.cooling_output_curve
|
||||||
_generation_system.cooling_fuel_consumption_curve = archetype_generation_system.cooling_fuel_consumption_curve
|
_generation_system.cooling_fuel_consumption_curve = archetype_generation_system.cooling_fuel_consumption_curve
|
||||||
_generation_system.cooling_efficiency_curve = archetype_generation_system.cooling_efficiency_curve
|
_generation_system.cooling_efficiency_curve = archetype_generation_system.cooling_efficiency_curve
|
||||||
_generation_system.domestic_hot_water = archetype_generation_system.domestic_hot_water
|
_generation_system.dual_supply_capability = archetype_generation_system.dual_supply_capability
|
||||||
_generation_system.nominal_electricity_output = archetype_generation_system.nominal_electricity_output
|
_generation_system.nominal_electricity_output = archetype_generation_system.nominal_electricity_output
|
||||||
_generation_system.source_medium = archetype_generation_system.source_medium
|
_generation_system.source_medium = archetype_generation_system.source_medium
|
||||||
_generation_system.heat_efficiency = archetype_generation_system.heat_efficiency
|
_generation_system.heat_efficiency = archetype_generation_system.heat_efficiency
|
||||||
_generation_system.cooling_efficiency = archetype_generation_system.cooling_efficiency
|
_generation_system.cooling_efficiency = archetype_generation_system.cooling_efficiency
|
||||||
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
_generation_system.electricity_efficiency = archetype_generation_system.electricity_efficiency
|
||||||
_generation_system.reversibility = archetype_generation_system.reversibility
|
|
||||||
_generic_storage_system = None
|
_generic_storage_system = None
|
||||||
if archetype_generation_system.energy_storage_systems is not None:
|
if archetype_generation_system.energy_storage_systems is not None:
|
||||||
_storage_systems = []
|
_storage_systems = []
|
||||||
|
@ -156,19 +155,11 @@ class MontrealFutureEnergySystemParameters:
|
||||||
_generic_storage_system.type_energy_stored = 'electrical'
|
_generic_storage_system.type_energy_stored = 'electrical'
|
||||||
else:
|
else:
|
||||||
_generic_storage_system = ThermalStorageSystem()
|
_generic_storage_system = ThermalStorageSystem()
|
||||||
_generic_storage_system.type_energy_stored = storage_system.type_energy_stored
|
_generic_storage_system.type_energy_stored = 'thermal'
|
||||||
_generic_storage_system.height = storage_system.height
|
|
||||||
_generic_storage_system.layers = storage_system.layers
|
|
||||||
_generic_storage_system.storage_medium = storage_system.storage_medium
|
|
||||||
_generic_storage_system.heating_coil_capacity = storage_system.heating_coil_capacity
|
|
||||||
_storage_systems.append(_generic_storage_system)
|
_storage_systems.append(_generic_storage_system)
|
||||||
_generation_system.energy_storage_systems = _storage_systems
|
_generation_system.energy_storage_systems = [_storage_systems]
|
||||||
if archetype_generation_system.domestic_hot_water:
|
if archetype_generation_system.dual_supply_capability:
|
||||||
_generation_system.domestic_hot_water = True
|
_generation_system.dual_supply_capability = True
|
||||||
if archetype_generation_system.reversibility:
|
|
||||||
_generation_system.reversibility = True
|
|
||||||
if archetype_generation_system.simultaneous_heat_cold:
|
|
||||||
_generation_system.simultaneous_heat_cold = True
|
|
||||||
_generation_systems.append(_generation_system)
|
_generation_systems.append(_generation_system)
|
||||||
return _generation_systems
|
return _generation_systems
|
||||||
|
|
||||||
|
|
|
@ -60,12 +60,9 @@ class EnergyPlusMultipleBuildings:
|
||||||
for building in self._city.buildings:
|
for building in self._city.buildings:
|
||||||
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Heating Demand (J)']
|
building.heating_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Heating Demand (J)']
|
||||||
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Cooling Demand (J)']
|
building.cooling_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Cooling Demand (J)']
|
||||||
building.domestic_hot_water_heat_demand[cte.HOUR] = \
|
building.domestic_hot_water_heat_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} DHW Demand (W)']
|
||||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} DHW Demand (W)']]
|
building.appliances_electrical_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Appliances (W)']
|
||||||
building.appliances_electrical_demand[cte.HOUR] = \
|
building.lighting_electrical_demand[cte.HOUR] = building_energy_demands[f'Building {building.name} Lighting (W)']
|
||||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Appliances (W)']]
|
|
||||||
building.lighting_electrical_demand[cte.HOUR] = \
|
|
||||||
[x * cte.WATTS_HOUR_TO_JULES for x in building_energy_demands[f'Building {building.name} Lighting (W)']]
|
|
||||||
building.heating_demand[cte.MONTH] = MonthlyValues.get_total_month(building.heating_demand[cte.HOUR])
|
building.heating_demand[cte.MONTH] = MonthlyValues.get_total_month(building.heating_demand[cte.HOUR])
|
||||||
building.cooling_demand[cte.MONTH] = MonthlyValues.get_total_month(building.cooling_demand[cte.HOUR])
|
building.cooling_demand[cte.MONTH] = MonthlyValues.get_total_month(building.cooling_demand[cte.HOUR])
|
||||||
building.domestic_hot_water_heat_demand[cte.MONTH] = (
|
building.domestic_hot_water_heat_demand[cte.MONTH] = (
|
||||||
|
|
|
@ -34,7 +34,7 @@ class SimplifiedRadiosityAlgorithm:
|
||||||
for key in self._results:
|
for key in self._results:
|
||||||
_irradiance = {}
|
_irradiance = {}
|
||||||
header_name = key.split(':')
|
header_name = key.split(':')
|
||||||
result = [x * cte.WATTS_HOUR_TO_JULES for x in self._results[key]]
|
result = [x / cte.WATTS_HOUR_TO_JULES for x in self._results[key]]
|
||||||
city_object_name = header_name[1]
|
city_object_name = header_name[1]
|
||||||
building = self._city.city_object(city_object_name)
|
building = self._city.city_object(city_object_name)
|
||||||
surface_id = header_name[2]
|
surface_id = header_name[2]
|
||||||
|
|
|
@ -110,26 +110,22 @@ class EpwWeatherParameters:
|
||||||
# new_value = pd.DataFrame(self._weather_values[['dry_bulb_temperature_c']].to_numpy(), columns=['epw'])
|
# new_value = pd.DataFrame(self._weather_values[['dry_bulb_temperature_c']].to_numpy(), columns=['epw'])
|
||||||
# number_invalid_records = new_value[new_value.epw == 99.9].count().epw
|
# number_invalid_records = new_value[new_value.epw == 99.9].count().epw
|
||||||
building.external_temperature[cte.HOUR] = self._weather_values['dry_bulb_temperature_c']
|
building.external_temperature[cte.HOUR] = self._weather_values['dry_bulb_temperature_c']
|
||||||
building.global_horizontal[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
building.global_horizontal[cte.HOUR] = [x / cte.WATTS_HOUR_TO_JULES
|
||||||
for x in self._weather_values['global_horizontal_radiation_wh_m2']]
|
for x in self._weather_values['global_horizontal_radiation_wh_m2']]
|
||||||
building.diffuse[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
building.diffuse[cte.HOUR] = [x / cte.WATTS_HOUR_TO_JULES
|
||||||
for x in self._weather_values['diffuse_horizontal_radiation_wh_m2']]
|
for x in self._weather_values['diffuse_horizontal_radiation_wh_m2']]
|
||||||
building.direct_normal[cte.HOUR] = [x * cte.WATTS_HOUR_TO_JULES
|
building.beam[cte.HOUR] = [x / cte.WATTS_HOUR_TO_JULES
|
||||||
for x in self._weather_values['direct_normal_radiation_wh_m2']]
|
for x in self._weather_values['direct_normal_radiation_wh_m2']]
|
||||||
building.beam[cte.HOUR] = [building.global_horizontal[cte.HOUR][i] -
|
|
||||||
building.diffuse[cte.HOUR][i]
|
|
||||||
for i in range(len(building.global_horizontal[cte.HOUR]))]
|
|
||||||
building.cold_water_temperature[cte.HOUR] = wh().cold_water_temperature(building.external_temperature[cte.HOUR])
|
building.cold_water_temperature[cte.HOUR] = wh().cold_water_temperature(building.external_temperature[cte.HOUR])
|
||||||
|
|
||||||
|
|
||||||
# create the monthly and yearly values out of the hourly
|
# create the monthly and yearly values out of the hourly
|
||||||
for building in self._city.buildings:
|
for building in self._city.buildings:
|
||||||
building.external_temperature[cte.MONTH] = \
|
building.external_temperature[cte.MONTH] = \
|
||||||
MonthlyValues().get_mean_values(building.external_temperature[cte.HOUR])
|
MonthlyValues().get_mean_values(building.external_temperature[cte.HOUR])
|
||||||
building.external_temperature[cte.YEAR] = [sum(building.external_temperature[cte.HOUR]) / 8760]
|
building.external_temperature[cte.YEAR] = [sum(building.external_temperature[cte.HOUR]) / 9870]
|
||||||
building.cold_water_temperature[cte.MONTH] = \
|
building.cold_water_temperature[cte.MONTH] = \
|
||||||
MonthlyValues().get_mean_values(building.cold_water_temperature[cte.HOUR])
|
MonthlyValues().get_mean_values(building.cold_water_temperature[cte.HOUR])
|
||||||
building.cold_water_temperature[cte.YEAR] = [sum(building.cold_water_temperature[cte.HOUR]) / 8760]
|
building.cold_water_temperature[cte.YEAR] = [sum(building.cold_water_temperature[cte.HOUR]) / 9870]
|
||||||
|
|
||||||
# If the usage has already being imported, the domestic hot water missing values must be calculated here that
|
# If the usage has already being imported, the domestic hot water missing values must be calculated here that
|
||||||
# the cold water temperature is finally known
|
# the cold water temperature is finally known
|
||||||
|
|
|
@ -8,7 +8,7 @@ Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
|
||||||
import logging
|
import logging
|
||||||
import math
|
import math
|
||||||
import hub.helpers.constants as cte
|
import hub.helpers.constants as cte
|
||||||
from datetime import datetime, timedelta
|
|
||||||
|
|
||||||
class Weather:
|
class Weather:
|
||||||
"""
|
"""
|
||||||
|
@ -55,19 +55,25 @@ class Weather:
|
||||||
# and Craig Christensen, National Renewable Energy Laboratory
|
# and Craig Christensen, National Renewable Energy Laboratory
|
||||||
# ambient temperatures( in °C)
|
# ambient temperatures( in °C)
|
||||||
# cold water temperatures( in °C)
|
# cold water temperatures( in °C)
|
||||||
t_out_fahrenheit = [1.8 * t_out + 32 for t_out in ambient_temperature]
|
ambient_temperature_fahrenheit = []
|
||||||
t_out_average = sum(t_out_fahrenheit) / len(t_out_fahrenheit)
|
average_temperature = 0
|
||||||
max_difference = max(t_out_fahrenheit) - min(t_out_fahrenheit)
|
maximum_temperature = -1000
|
||||||
ratio = 0.4 + 0.01 * (t_out_average - 44)
|
minimum_temperature = 1000
|
||||||
lag = 35 - (t_out_average - 35)
|
for temperature in ambient_temperature:
|
||||||
number_of_day = [a for a in range(1, 366)]
|
value = temperature * 9 / 5 + 32
|
||||||
day_of_year = [day for day in number_of_day for _ in range(24)]
|
ambient_temperature_fahrenheit.append(value)
|
||||||
cold_temperature_fahrenheit = []
|
average_temperature += value / 8760
|
||||||
|
if value > maximum_temperature:
|
||||||
|
maximum_temperature = value
|
||||||
|
if value < minimum_temperature:
|
||||||
|
minimum_temperature = value
|
||||||
|
delta_temperature = maximum_temperature - minimum_temperature
|
||||||
|
ratio = 0.4 + 0.01 * (average_temperature - 44)
|
||||||
|
lag = 35 - 1 * (average_temperature - 44)
|
||||||
cold_temperature = []
|
cold_temperature = []
|
||||||
for i in range(len(ambient_temperature)):
|
for temperature in ambient_temperature_fahrenheit:
|
||||||
cold_temperature_fahrenheit.append(t_out_average + 6 + ratio * (max_difference / 2) *
|
radians = (0.986 * (temperature-15-lag) - 90) * math.pi / 180
|
||||||
math.sin(math.radians(0.986 * (day_of_year[i] - 15 - lag) - 90)))
|
cold_temperature.append((average_temperature + 6 + ratio * (delta_temperature/2) * math.sin(radians) - 32) * 5/9)
|
||||||
cold_temperature.append((cold_temperature_fahrenheit[i] - 32) / 1.8)
|
|
||||||
return cold_temperature
|
return cold_temperature
|
||||||
|
|
||||||
def epw_file(self, region_code):
|
def epw_file(self, region_code):
|
||||||
|
|
|
@ -38,12 +38,12 @@ class TestSystemsCatalog(TestCase):
|
||||||
catalog = EnergySystemsCatalogFactory('montreal_future').catalog
|
catalog = EnergySystemsCatalogFactory('montreal_future').catalog
|
||||||
|
|
||||||
catalog_categories = catalog.names()
|
catalog_categories = catalog.names()
|
||||||
archetypes = catalog.names()
|
archetypes = catalog.names('archetypes')
|
||||||
self.assertEqual(15, len(archetypes['archetypes']))
|
self.assertEqual(12, len(archetypes['archetypes']))
|
||||||
systems = catalog.names('systems')
|
systems = catalog.names('systems')
|
||||||
self.assertEqual(12, len(systems['systems']))
|
self.assertEqual(7, len(systems['systems']))
|
||||||
generation_equipments = catalog.names('generation_equipments')
|
generation_equipments = catalog.names('generation_equipments')
|
||||||
self.assertEqual(27, len(generation_equipments['generation_equipments']))
|
self.assertEqual(26, len(generation_equipments['generation_equipments']))
|
||||||
with self.assertRaises(ValueError):
|
with self.assertRaises(ValueError):
|
||||||
catalog.names('unknown')
|
catalog.names('unknown')
|
||||||
|
|
||||||
|
|
|
@ -122,13 +122,12 @@ class TestSystemsFactory(TestCase):
|
||||||
for energy_system in building.energy_systems:
|
for energy_system in building.energy_systems:
|
||||||
if cte.HEATING in energy_system.demand_types:
|
if cte.HEATING in energy_system.demand_types:
|
||||||
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
|
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
|
||||||
_generation_system.nominal_heat_output = building.heating_peak_load[cte.YEAR][0]
|
_generation_system.heat_power = building.heating_peak_load[cte.YEAR][0]
|
||||||
if cte.COOLING in energy_system.demand_types:
|
if cte.COOLING in energy_system.demand_types:
|
||||||
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
|
_generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0])
|
||||||
_generation_system.nominal_cooling_output = building.cooling_peak_load[cte.YEAR][0]
|
_generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0]
|
||||||
|
|
||||||
for building in self._city.buildings:
|
for building in self._city.buildings:
|
||||||
print('test')
|
|
||||||
self.assertLess(0, building.heating_consumption[cte.YEAR][0])
|
self.assertLess(0, building.heating_consumption[cte.YEAR][0])
|
||||||
self.assertLess(0, building.cooling_consumption[cte.YEAR][0])
|
self.assertLess(0, building.cooling_consumption[cte.YEAR][0])
|
||||||
self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0])
|
self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0])
|
||||||
|
|
Loading…
Reference in New Issue
Block a user