Thermal zone concept modified. Now it includes all usage parameters associated to that thermal zone

2022-04-06 16:06:55 -04:00 · 2022-04-06 16:06:55 -04:00 · 684238a3ff
commit 684238a3ff
parent 2bc217773e
22 changed files with 618 additions and 192 deletions
--- a/city_model_structure/building.py
+++ b/city_model_structure/building.py
@ -30,7 +30,6 @@ class Building(CityObject):
    self._storeys_above_ground = None
    self._floor_area = None
    self._roof_type = None
    self._storeys = None
    self._internal_zones = None
    self._shell = None
    self._type = 'building'
--- a/city_model_structure/building_demand/appliances.py
+++ b/city_model_structure/building_demand/appliances.py
@ -12,28 +12,28 @@ class Appliances:
  Appliances class
  """
  def __init__(self):
-    self._appliances_density = None
+    self._density = None
    self._convective_fraction = None
    self._radiative_fraction = None
    self._latent_fraction = None
    self._schedules = None
  @property
-  def appliances_density(self) -> Union[None, float]:
+  def density(self) -> Union[None, float]:
    """
    Get appliances density in Watts per m2
    :return: None or float
    """
-    return self._appliances_density
+    return self._density
-  @appliances_density.setter
+  @density.setter
-  def appliances_density(self, value):
+  def density(self, value):
    """
    Set appliances density in Watts per m2
    :param value: float
    """
    if value is not None:
-      self._appliances_density = float(value)
+      self._density = float(value)
  @property
  def convective_fraction(self) -> Union[None, float]:
@ -90,6 +90,7 @@ class Appliances:
  def schedules(self) -> Union[None, List[Schedule]]:
    """
    Get schedules
    dataType = fraction
    :return: None or [Schedule]
    """
    return self._schedules
@ -98,6 +99,7 @@ class Appliances:
  def schedules(self, value):
    """
    Set schedules
    dataType = fraction
    :param value: [Schedule]
    """
    self._schedules = value
--- a/city_model_structure/building_demand/internal_gains.py
+++ b/city_model_structure/building_demand/internal_gains.py
@ -110,6 +110,7 @@ class InternalGains:
  def schedules(self) -> Union[None, List[Schedule]]:
    """
    Get internal gain schedule
    dataType = fraction
    :return: [Schedule]
    """
    return self._schedules
@ -118,6 +119,7 @@ class InternalGains:
  def schedules(self, value):
    """
    Set internal gain schedule
    dataType = fraction
    :param value: [Schedule]
    """
    self._schedules = value
--- a/city_model_structure/building_demand/internal_zone.py
+++ b/city_model_structure/building_demand/internal_zone.py
@ -120,4 +120,3 @@ class InternalZone:
    :param value: [ThermalZone]
    """
    self._thermal_zones = value
--- a/city_model_structure/building_demand/lighting.py
+++ b/city_model_structure/building_demand/lighting.py
@ -12,28 +12,28 @@ class Lighting:
  Lighting class
  """
  def __init__(self):
-    self._lighting_density = None
+    self._density = None
    self._convective_fraction = None
    self._radiative_fraction = None
    self._latent_fraction = None
    self._schedules = None
  @property
-  def lighting_density(self) -> Union[None, float]:
+  def density(self) -> Union[None, float]:
    """
    Get lighting density in Watts per m2
    :return: None or float
    """
-    return self._lighting_density
+    return self._density
-  @lighting_density.setter
+  @density.setter
-  def lighting_density(self, value):
+  def density(self, value):
    """
    Set lighting density in Watts per m2
    :param value: float
    """
    if value is not None:
-      self._lighting_density = float(value)
+      self._density = float(value)
  @property
  def convective_fraction(self) -> Union[None, float]:
@ -90,6 +90,7 @@ class Lighting:
  def schedules(self) -> Union[None, List[Schedule]]:
    """
    Get schedules
    dataType = fraction
    :return: None or [Schedule]
    """
    return self._schedules
@ -98,6 +99,7 @@ class Lighting:
  def schedules(self, value):
    """
    Set schedules
    dataType = fraction
    :param value: [Schedule]
    """
    self._schedules = value
--- a/city_model_structure/building_demand/occupancy.py
+++ b/city_model_structure/building_demand/occupancy.py
@ -23,7 +23,7 @@ class Occupancy:
  @property
  def occupancy_density(self) -> Union[None, float]:
    """
-    Get density in m2 per person
+    Get density in persons per m2
    :return: None or float
    """
    return self._occupancy_density
@ -31,7 +31,7 @@ class Occupancy:
  @occupancy_density.setter
  def occupancy_density(self, value):
    """
-    Set density in m2 per persons
+    Set density in persons per m2
    :param value: float
    """
    if value is not None:
@ -92,6 +92,7 @@ class Occupancy:
  def occupancy_schedules(self) -> Union[None, List[Schedule]]:
    """
    Get occupancy schedules
    dataType = fraction
    :return: None or [Schedule]
    """
    return self._occupancy_schedules
@ -100,6 +101,7 @@ class Occupancy:
  def occupancy_schedules(self, value):
    """
    Set occupancy schedules
    dataType = fraction
    :param value: [Schedule]
    """
    self._occupancy_schedules = value
--- a/city_model_structure/building_demand/storey.py
+++ b/city_model_structure/building_demand/storey.py
@ -15,7 +15,7 @@ class Storey:
  """
  Storey class
  """
-  def __init__(self, name, storey_surfaces, neighbours, volume, floor_area):
+  def __init__(self, name, storey_surfaces, neighbours, volume, internal_zone, floor_area):
    self._name = name
    self._storey_surfaces = storey_surfaces
    self._thermal_boundaries = None
@ -23,6 +23,7 @@ class Storey:
    self._thermal_zone = None
    self._neighbours = neighbours
    self._volume = volume
    self._internal_zone = internal_zone
    self._floor_area = floor_area
  @property
@ -86,7 +87,7 @@ class Storey:
    :return: ThermalZone
    """
    if self._thermal_zone is None:
-      self._thermal_zone = ThermalZone(self.thermal_boundaries, self.volume, self.floor_area)
+      self._thermal_zone = ThermalZone(self.thermal_boundaries, self._internal_zone, self.volume, self.floor_area)
    return self._thermal_zone
  @property
--- a/city_model_structure/building_demand/thermal_control.py
+++ b/city_model_structure/building_demand/thermal_control.py
@ -99,6 +99,7 @@ class ThermalControl:
  def hvac_availability_schedules(self) -> Union[None, List[Schedule]]:
    """
    Get the availability of the conditioning system defined for a thermal zone
    dataType = on/off
    :return: None or [Schedule]
    """
    return self._hvac_availability_schedules
@ -107,6 +108,7 @@ class ThermalControl:
  def hvac_availability_schedules(self, value):
    """
    Set the availability of the conditioning system defined for a thermal zone
    dataType = on/off
    :param value: [Schedule]
    """
    self._hvac_availability_schedules = value
@ -115,6 +117,7 @@ class ThermalControl:
  def heating_set_point_schedules(self) -> Union[None, List[Schedule]]:
    """
    Get heating set point schedule defined for a thermal zone in Celsius
    dataType = temperature
    :return: None or [Schedule]
    """
    return self._heating_set_point_schedules
@ -123,6 +126,7 @@ class ThermalControl:
  def heating_set_point_schedules(self, value):
    """
    Set heating set point schedule defined for a thermal zone in Celsius
    dataType = temperature
    :param value: [Schedule]
    """
    self._heating_set_point_schedules = value
@ -131,6 +135,7 @@ class ThermalControl:
  def cooling_set_point_schedules(self) -> Union[None, List[Schedule]]:
    """
    Get cooling set point schedule defined for a thermal zone in Celsius
    dataType = temperature
    :return: None or [Schedule]
    """
    return self._cooling_set_point_schedules
@ -139,6 +144,7 @@ class ThermalControl:
  def cooling_set_point_schedules(self, value):
    """
    Set cooling set point schedule defined for a thermal zone in Celsius
    dataType = temperature
    :param value: [Schedule]
    """
    self._cooling_set_point_schedules = value
--- a/city_model_structure/building_demand/thermal_zone.py
+++ b/city_model_structure/building_demand/thermal_zone.py
@ -5,21 +5,28 @@ Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@conc
 Contributors Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
 """
 import uuid
 import copy
 from typing import List, Union, TypeVar
-from city_model_structure.building_demand.usage_zone import UsageZone
+from city_model_structure.building_demand.occupancy import Occupancy
 from city_model_structure.building_demand.appliances import Appliances
 from city_model_structure.building_demand.lighting import Lighting
 from city_model_structure.building_demand.internal_gains import InternalGains
 from city_model_structure.attributes.schedule import Schedule
 from city_model_structure.building_demand.thermal_control import ThermalControl
 from city_model_structure.energy_systems.hvac_system import HvacSystem
 import helpers.constants as cte
 ThermalBoundary = TypeVar('ThermalBoundary')
 InternalZone = TypeVar('InternalZone')
 class ThermalZone:
  """
  ThermalZone class
  """
-  def __init__(self, thermal_boundaries, volume, floor_area):
+  def __init__(self, thermal_boundaries, parent_internal_zone, volume, floor_area):
    self._id = None
    self._parent_internal_zone = parent_internal_zone
    self._floor_area = floor_area
    self._thermal_boundaries = thermal_boundaries
    self._additional_thermal_bridge_u_value = None
@ -29,11 +36,19 @@ class ThermalZone:
    self._infiltration_rate_system_off = None
    self._volume = volume
    self._ordinate_number = None
    self._usage_zones = None
    self._thermal_control = None
    self._hvac_system = None
    self._view_factors_matrix = None
    self._usage = None
    self._not_detailed_source_mean_annual_internal_gains = None
    self._hours_day = None
    self._days_year = None
    self._mechanical_air_change = None
    self._occupancy = None
    self._lighting = None
    self._appliances = None
    self._internal_gains = None
    self._thermal_control = None
  @property
  def id(self):
    """
@ -168,42 +183,6 @@ class ThermalZone:
    if value is not None:
      self._ordinate_number = int(value)
  @property
  def usage_zones(self) -> [UsageZone]:
    """
    Get list of usage zones and the percentage of thermal zone's volume affected by that usage
    From internal_zone
    :return: [UsageZone]
    """
    return self._usage_zones
  @usage_zones.setter
  def usage_zones(self, values):
    """
    Set list of usage zones and the percentage of thermal zone's volume affected by that usage
    From internal_zone
    :param values: [UsageZone]
    """
    self._usage_zones = values
  @property
  def thermal_control(self) -> Union[None, ThermalControl]:
    """
    Get thermal control of this thermal zone
    From internal_zone
    :return: None or ThermalControl
    """
    return self._thermal_control
  @thermal_control.setter
  def thermal_control(self, value):
    """
    Set thermal control for this thermal zone
    From internal_zone
    :param value: ThermalControl
    """
    self._thermal_control = value
  @property
  def hvac_system(self) -> Union[None, HvacSystem]:
    """
@ -211,16 +190,7 @@ class ThermalZone:
    From internal_zone
    :return: None or HvacSystem
    """
-    return self._hvac_system
+    return self._parent_internal_zone.hvac_system
  @hvac_system.setter
  def hvac_system(self, value):
    """
    Set HVAC system installed for this thermal zone
    From internal_zone
    :param value: HvacSystem
    """
    self._hvac_system = value
  @property
  def view_factors_matrix(self):
@ -237,3 +207,449 @@ class ThermalZone:
    :param value: [[float]]
    """
    self._view_factors_matrix = value
  @property
  def usage(self) -> Union[None, str]:
    """
    Get thermal zone usage
    :return: None or str
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._usage is None:
      self._usage = ''
      for usage_zone in self._parent_internal_zone.usage_zones:
        self._usage += str(round(usage_zone.percentage) * 100) + '_' + usage_zone.usage + '_'
      self._usage = self._usage[:-1]
    return self._usage
  @usage.setter
  def usage(self, value):
    """
    Set thermal zone usage
    :param value: str
    """
    if value is not None:
      self._usage = str(value)
  @staticmethod
  def _get_schedule_of_day(requested_day_type, schedules):
    for schedule in schedules:
      for day_type in schedule.day_types:
        if day_type == requested_day_type:
          return schedule
        else:
          return None
  @property
  def not_detailed_source_mean_annual_internal_gains(self) -> Union[None, List[InternalGains]]:
    """
    Get thermal zone internal gains with unknown energy source
    :return: [InternalGains]
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._not_detailed_source_mean_annual_internal_gains is None:
      _grouped_internal_gain = InternalGains()
      _grouped_internal_gain.type = 'grouped internal gains for thermal zone'
      _average_internal_gain = 0
      _convective_part = 0
      _radiative_part = 0
      _latent_part = 0
      for _usage_zone in self._parent_internal_zone.usage_zones:
        if _usage_zone.internal_gains is None:
          return None
        for _internal_gain in _usage_zone.internal_gains:
          _average_internal_gain += _internal_gain.average_internal_gain
          _convective_part += _internal_gain.average_internal_gain * _internal_gain.convective_fraction
          _radiative_part += _internal_gain.average_internal_gain * _internal_gain.radiative_fraction
          _latent_part += _internal_gain.average_internal_gain * _internal_gain.latent_fraction
      _grouped_internal_gain.average_internal_gain = _average_internal_gain
      if _average_internal_gain > 0:
        _grouped_internal_gain.convective_fraction = _convective_part / _average_internal_gain
        _grouped_internal_gain.radiative_fraction = _radiative_part / _average_internal_gain
        _grouped_internal_gain.latent_fraction = _latent_part / _average_internal_gain
        _internal_gains_reference = self._parent_internal_zone.usage_zones[0].internal_gains[0]
        day_types = [cte.MONDAY, cte.TUESDAY, cte.WEDNESDAY, cte.THURSDAY, cte.FRIDAY, cte.SATURDAY, cte.SUNDAY]
        schedule_of_days = []
        for i_day in range(0, 7):
          schedule_of_day = \
            copy.deepcopy(self._get_schedule_of_day(day_types[i_day], _internal_gains_reference.schedules))
          schedule_of_day.day_types = [day_types[i_day]]
          new_values = []
          for i_value in range(0, len(_internal_gains_reference.schedules[0].values)):
            _new_value = 0
            for _usage_zone in self._parent_internal_zone.usage_zones:
              for _internal_gain in _usage_zone.internal_gains:
                _value = self._get_schedule_of_day(day_types[i_day], _internal_gain.schedules)[i_value]
                _new_value += _usage_zone.percentage * _value / len(_usage_zone.internal_gains)
            new_values.append(_new_value)
          schedule_of_day.values = new_values
          schedule_of_days.append(schedule_of_day)
        _grouped_internal_gain.schedules = schedule_of_days
      else:
        _grouped_internal_gain.convective_fraction = 0
        _grouped_internal_gain.radiative_fraction = 0
        _grouped_internal_gain.latent_fraction = 0
      self._not_detailed_source_mean_annual_internal_gains = [_grouped_internal_gain]
    return self._not_detailed_source_mean_annual_internal_gains
  @not_detailed_source_mean_annual_internal_gains.setter
  def not_detailed_source_mean_annual_internal_gains(self, value):
    """
    Set thermal zone internal gains with unknown energy source
    :param value: [InternalGains]
    """
    self._not_detailed_source_mean_annual_internal_gains = value
  @property
  def hours_day(self) -> Union[None, float]:
    """
    Get thermal zone usage hours per day
    :return: None or float
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._hours_day is None:
      self._hours_day = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        self._hours_day += usage_zone.percentage * usage_zone.hours_day
    return self._hours_day
  @hours_day.setter
  def hours_day(self, value):
    """
    Set thermal zone usage hours per day
    :param value: float
    """
    if value is not None:
      self._hours_day = float(value)
  @property
  def days_year(self) -> Union[None, float]:
    """
    Get thermal zone usage days per year
    :return: None or float
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._days_year is None:
      self._days_year = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        self._days_year += usage_zone.percentage * usage_zone.days_year
    return self._days_year
  @days_year.setter
  def days_year(self, value):
    """
    Set thermal zone usage days per year
    :param value: float
    """
    if value is not None:
      self._days_year = float(value)
  @property
  def mechanical_air_change(self) -> Union[None, float]:
    """
    Get thermal zone mechanical air change in air change per hour (ACH)
    :return: None or float
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._mechanical_air_change is None:
      self._mechanical_air_change = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        self._mechanical_air_change += usage_zone.percentage * usage_zone.mechanical_air_change
    return self._mechanical_air_change
  @mechanical_air_change.setter
  def mechanical_air_change(self, value):
    """
    Set thermal zone mechanical air change in air change per hour (ACH)
    :param value: float
    """
    if value is not None:
      self._mechanical_air_change = float(value)
  @property
  def occupancy(self) -> Union[None, Occupancy]:
    """
    Get occupancy in the thermal zone
    :return: None or Occupancy
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._occupancy is None:
      self._occupancy = Occupancy()
      _occupancy_density = 0
      _convective_part = 0
      _radiative_part = 0
      _latent_part = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        if usage_zone.occupancy is None:
          return None
        _occupancy_density += usage_zone.percentage * usage_zone.occupancy.occupancy_density
        _convective_part += usage_zone.percentage * usage_zone.occupancy.sensible_convective_internal_gain
        _radiative_part += usage_zone.percentage * usage_zone.occupancy.sensible_radiative_internal_gain
        _latent_part += usage_zone.percentage * usage_zone.occupancy.latent_internal_gain
      self._occupancy.occupancy_density = _occupancy_density
      self._occupancy.sensible_convective_internal_gain = _convective_part
      self._occupancy.sensible_radiative_internal_gain = _radiative_part
      self._occupancy.latent_internal_gain = _latent_part
      _occupancy_reference = self._parent_internal_zone.usage_zones[0].occupancy
      _schedules = []
      for i_schedule in range(0, len(_occupancy_reference.occupancy_schedules)):
        schedule = copy.deepcopy(_occupancy_reference.occupancy_schedules[i_schedule])
        new_values = []
        for i_value in range(0, len(_occupancy_reference.occupancy_schedules[i_schedule].values)):
          _new_value = 0
          for usage_zone in self._parent_internal_zone.usage_zones:
            _new_value += usage_zone.percentage * usage_zone.occupancy.occupancy_schedules[i_schedule].values[i_value]
          new_values.append(_new_value)
        schedule.values = new_values
        _schedules.append(schedule)
      self._occupancy.occupancy_schedules = _schedules
    return self._occupancy
  @occupancy.setter
  def occupancy(self, value):
    """
    Set occupancy in the thermal zone
    :param value: Occupancy
    """
    self._occupancy = value
  @property
  def lighting(self) -> Union[None, Lighting]:
    """
    Get lighting information
    :return: None or Lighting
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._lighting is None:
      self._lighting = Lighting()
      _lighting_density = 0
      _convective_part = 0
      _radiative_part = 0
      _latent_part = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        if usage_zone.lighting is None:
          return None
        _lighting_density += usage_zone.percentage * usage_zone.lighting.density
        _convective_part += usage_zone.percentage * usage_zone.lighting.density \
                             * usage_zone.lighting.convective_fraction
        _radiative_part += usage_zone.percentage * usage_zone.lighting.density \
                           * usage_zone.lighting.radiative_fraction
        _latent_part += usage_zone.percentage * usage_zone.lighting.density \
                        * usage_zone.lighting.latent_fraction
      self._lighting.density = _lighting_density
      if _lighting_density > 0:
        self._lighting.convective_fraction = _convective_part / _lighting_density
        self._lighting.radiative_fraction = _radiative_part / _lighting_density
        self._lighting.latent_fraction = _latent_part / _lighting_density
      else:
        self._lighting.convective_fraction = 0
        self._lighting.radiative_fraction = 0
        self._lighting.latent_fraction = 0
      _lighting_reference = self._parent_internal_zone.usage_zones[0].lighting
      _schedules = []
      for i_schedule in range(0, len(_lighting_reference.schedules)):
        schedule = copy.deepcopy(_lighting_reference.schedules[i_schedule])
        new_values = []
        for i_value in range(0, len(_lighting_reference.schedules[i_schedule].values)):
          _new_value = 0
          for usage_zone in self._parent_internal_zone.usage_zones:
            _new_value += usage_zone.percentage * usage_zone.lighting.schedules[i_schedule].values[i_value]
          new_values.append(_new_value)
        schedule.values = new_values
        _schedules.append(schedule)
      self._lighting.schedules = _schedules
    return self._lighting
  @lighting.setter
  def lighting(self, value):
    """
    Set lighting information
    :param value: Lighting
    """
    self._lighting = value
  @property
  def appliances(self) -> Union[None, Appliances]:
    """
    Get appliances information
    :return: None or Appliances
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._appliances is None:
      self._appliances = Appliances()
      _appliances_density = 0
      _convective_part = 0
      _radiative_part = 0
      _latent_part = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        if usage_zone.appliances is None:
          return None
        _appliances_density += usage_zone.percentage * usage_zone.appliances.density
        _convective_part += usage_zone.percentage * usage_zone.appliances.density \
                            * usage_zone.appliances.convective_fraction
        _radiative_part += usage_zone.percentage * usage_zone.appliances.density \
                           * usage_zone.appliances.radiative_fraction
        _latent_part += usage_zone.percentage * usage_zone.appliances.density \
                        * usage_zone.appliances.latent_fraction
      self._appliances.density = _appliances_density
      if _appliances_density > 0:
        self._appliances.convective_fraction = _convective_part / _appliances_density
        self._appliances.radiative_fraction = _radiative_part / _appliances_density
        self._appliances.latent_fraction = _latent_part / _appliances_density
      else:
        self._appliances.convective_fraction = 0
        self._appliances.radiative_fraction = 0
        self._appliances.latent_fraction = 0
      _appliances_reference = self._parent_internal_zone.usage_zones[0].appliances
      _schedules = []
      for i_schedule in range(0, len(_appliances_reference.schedules)):
        schedule = copy.deepcopy(_appliances_reference.schedules[i_schedule])
        new_values = []
        for i_value in range(0, len(_appliances_reference.schedules[i_schedule].values)):
          _new_value = 0
          for usage_zone in self._parent_internal_zone.usage_zones:
            _new_value += usage_zone.percentage * usage_zone.appliances.schedules[i_schedule].values[i_value]
          new_values.append(_new_value)
        schedule.values = new_values
        _schedules.append(schedule)
      self._appliances.schedules = _schedules
    return self._appliances
  @appliances.setter
  def appliances(self, value):
    """
    Set appliances information
    :param value: Appliances
    """
    self._appliances = value
  @staticmethod
  def _add_internal_gain(internal_gain_type, _internal_gain):
    _internal_gain.average_internal_gain = internal_gain_type.density
    _internal_gain.latent_fraction = internal_gain_type.latent_fraction
    _internal_gain.radiative_fraction = internal_gain_type.radiative_fraction
    _internal_gain.convective_fraction = internal_gain_type.convective_fraction
    _internal_gain.schedules = internal_gain_type.schedules
  def get_internal_gains(self) -> [InternalGains]:
    """
    Calculates and returns the list of all internal gains defined
    :return: InternalGains
    """
    if self.not_detailed_source_mean_annual_internal_gains is not None:
      self._internal_gains = []
      for _internal_gain in self.not_detailed_source_mean_annual_internal_gains:
        self._internal_gains.append(_internal_gain)
    if self.occupancy is not None:
      if self.occupancy.latent_internal_gain is not None:
        _internal_gain = InternalGains()
        _internal_gain.type = cte.OCCUPANCY
        _total_heat_gain = (self.occupancy.sensible_convective_internal_gain
                            + self.occupancy.sensible_radiative_internal_gain
                            + self.occupancy.latent_internal_gain)
        _internal_gain.average_internal_gain = _total_heat_gain
        _internal_gain.latent_fraction = self.occupancy.latent_internal_gain / _total_heat_gain
        _internal_gain.radiative_fraction = self.occupancy.sensible_radiative_internal_gain / _total_heat_gain
        _internal_gain.convective_fraction = self.occupancy.sensible_convective_internal_gain / _total_heat_gain
        _internal_gain.schedules = self.occupancy.occupancy_schedules
        if self._internal_gains is not None:
          self._internal_gains.append(_internal_gain)
        else:
          self._internal_gains = [_internal_gain]
    if self.lighting is not None:
      _internal_gain = InternalGains()
      _internal_gain.type = cte.LIGHTING
      self._add_internal_gain(self.lighting, _internal_gain)
      if self._internal_gains is not None:
        self._internal_gains.append(_internal_gain)
      else:
        self._internal_gains = [_internal_gain]
    if self.appliances is not None:
      _internal_gain = InternalGains()
      _internal_gain.type = cte.APPLIANCES
      self._add_internal_gain(self.appliances, _internal_gain)
      if self._internal_gains is not None:
        self._internal_gains.append(_internal_gain)
      else:
        self._internal_gains = [_internal_gain]
    return self._internal_gains
  @property
  def thermal_control(self) -> Union[None, ThermalControl]:
    """
    Get thermal control of this thermal zone
    :return: None or ThermalControl
    """
    if self._parent_internal_zone.usage_zones is None:
      return None
    if self._thermal_control is None:
      self._thermal_control = ThermalControl()
      _mean_heating_set_point = 0
      _heating_set_back = 0
      _mean_cooling_set_point = 0
      for usage_zone in self._parent_internal_zone.usage_zones:
        _mean_heating_set_point += usage_zone.percentage * usage_zone.thermal_control.mean_heating_set_point
        _heating_set_back += usage_zone.percentage * usage_zone.thermal_control.heating_set_back
        _mean_cooling_set_point += usage_zone.percentage * usage_zone.thermal_control.mean_cooling_set_point
      self._thermal_control.mean_heating_set_point = _mean_heating_set_point
      self._thermal_control.heating_set_back = _heating_set_back
      self._thermal_control.mean_cooling_set_point = _mean_cooling_set_point
      _thermal_control_reference = self._parent_internal_zone.usage_zones[0].thermal_control
      _types_reference = [_thermal_control_reference.hvac_availability_schedules,
                          _thermal_control_reference.heating_set_point_schedules,
                          _thermal_control_reference.cooling_set_point_schedules]
      for i_type in range(0, len(_types_reference)):
        _schedules = []
        _schedule_type = _types_reference[i_type]
        for i_schedule in range(0, len(_schedule_type)):
          schedule = copy.deepcopy(_schedule_type[i_schedule])
          new_values = []
          for i_value in range(0, len(_schedule_type[i_schedule].values)):
            _new_value = 0
            for usage_zone in self._parent_internal_zone.usage_zones:
              if i_type == 0:
                _new_value += usage_zone.percentage * \
                              usage_zone.thermal_control.hvac_availability_schedules[i_schedule].values[i_value]
              elif i_type == 1:
                _new_value += usage_zone.percentage * \
                              usage_zone.thermal_control.heating_set_point_schedules[i_schedule].values[i_value]
              elif i_type == 2:
                _new_value += usage_zone.percentage * \
                              usage_zone.thermal_control.cooling_set_point_schedules[i_schedule].values[i_value]
            new_values.append(_new_value)
          schedule.values = new_values
          _schedules.append(schedule)
        if i_type == 0:
          self._thermal_control.hvac_availability_schedules = _schedules
        elif i_type == 1:
          self._thermal_control.heating_set_point_schedules = _schedules
        elif i_type == 2:
          self._thermal_control.cooling_set_point_schedules = _schedules
    return self._thermal_control
  @thermal_control.setter
  def thermal_control(self, value):
    """
    Set thermal control for this thermal zone
    :param value: ThermalControl
    """
    self._thermal_control = value
--- a/city_model_structure/building_demand/usage_zone.py
+++ b/city_model_structure/building_demand/usage_zone.py
@ -6,7 +6,6 @@ Contributors Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
 """
 import uuid
 from typing import List, Union
 import helpers.constants as cte
 from city_model_structure.building_demand.internal_gains import InternalGains
 from city_model_structure.building_demand.occupancy import Occupancy
 from city_model_structure.building_demand.lighting import Lighting
@ -30,7 +29,6 @@ class UsageZone:
    self._occupancy = None
    self._lighting = None
    self._appliances = None
    self._internal_gains = None
    self._thermal_control = None
  @property
@ -209,50 +207,6 @@ class UsageZone:
    """
    self._appliances = value
  def get_internal_gains(self) -> [InternalGains]:
    """
    Calculates and returns the list of all internal gains defined
    :return: InternalGains
    """
    if self.occupancy is not None:
      if self.occupancy.latent_internal_gain is not None:
        _internal_gain = InternalGains()
        _internal_gain.type = cte.OCCUPANCY
        _total_heat_gain = (self.occupancy.sensible_convective_internal_gain
                            + self.occupancy.sensible_radiative_internal_gain
                            + self.occupancy.latent_internal_gain)
        _internal_gain.average_internal_gain = _total_heat_gain
        _internal_gain.latent_fraction = self.occupancy.latent_internal_gain / _total_heat_gain
        _internal_gain.radiative_fraction = self.occupancy.sensible_radiative_internal_gain / _total_heat_gain
        _internal_gain.convective_fraction = self.occupancy.sensible_convective_internal_gain / _total_heat_gain
        _internal_gain.schedules = self.occupancy.occupancy_schedules
        self._internal_gains = [_internal_gain]
    if self.lighting is not None:
      _internal_gain = InternalGains()
      _internal_gain.type = cte.LIGHTING
      _internal_gain.average_internal_gain = self.lighting.lighting_density
      _internal_gain.latent_fraction = self.lighting.latent_fraction
      _internal_gain.radiative_fraction = self.lighting.radiative_fraction
      _internal_gain.convective_fraction = self.lighting.convective_fraction
      _internal_gain.schedules = self.lighting.schedules
      if self._internal_gains is not None:
        self._internal_gains.append(_internal_gain)
      else:
        self._internal_gains = [_internal_gain]
    if self.appliances is not None:
      _internal_gain = InternalGains()
      _internal_gain.type = cte.APPLIANCES
      _internal_gain.average_internal_gain = self.appliances.appliances_density
      _internal_gain.latent_fraction = self.appliances.latent_fraction
      _internal_gain.radiative_fraction = self.appliances.radiative_fraction
      _internal_gain.convective_fraction = self.appliances.convective_fraction
      _internal_gain.schedules = self.appliances.schedules
      if self._internal_gains is not None:
        self._internal_gains.append(_internal_gain)
      else:
        self._internal_gains = [_internal_gain]
    return self._internal_gains
  @property
  def thermal_control(self) -> Union[None, ThermalControl]:
    """
--- a/exports/exports_factory.py
+++ b/exports/exports_factory.py
@ -19,6 +19,8 @@ class ExportsFactory:
  def __init__(self, export_type, city, path, target_buildings=None):
    self._city = city
    self._export_type = '_' + export_type.lower()
    if isinstance(path, str):
      path = Path(path)
    self._path = path
    self._target_buildings = target_buildings
@ -92,3 +94,10 @@ class ExportsFactory:
    :return: None
    """
    return getattr(self, self._export_type, lambda: None)
  def export_debug(self):
    """
    Export the city given to the class using the given export type handler
    :return: None
    """
    return getattr(self, self._export_type)
--- a/exports/formats/idf.py
+++ b/exports/formats/idf.py
@ -1,10 +1,13 @@
 """
 TestOccupancyFactory test and validate the city model structure schedules parameters
 SPDX - License - Identifier: LGPL - 3.0 - or -later
-Copyright © 2020 Project Author Soroush Samareh Abolhassani - soroush.samarehabolhassani@mail.concordia.ca
+Copyright © 2020 Project Author  Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
 Contributors Soroush Samareh Abolhassani - soroush.samarehabolhassani@mail.concordia.ca
 Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
 """
 from geomeppy import IDF
 import helpers.constants as cte
 class Idf:
@ -35,19 +38,19 @@ class Idf:
  idf_surfaces = {
    # todo: make an enum for all the surface types
-    'Wall': 'wall',
+    cte.WALL: 'wall',
-    'Ground': 'floor',
+    cte.GROUND: 'floor',
-    'Roof': 'roof'
+    cte.ROOF: 'roof'
  }
  idf_usage = {
    # todo: make an enum for all the usage types
-    'residential': 'residential_building'
+    cte.RESIDENTIAL: 'residential_building'
  }
  idf_type_limits = {
-    'on_off': 'on/off',
+    cte.ON_OFF: 'on/off',
-    'fraction': 'Fraction',
+    cte.FRACTION: 'Fraction',
-    'any_number': 'Any Number',
+    cte.ANY_NUMBER: 'Any Number',
    'continuous': 'Continuous',
    'discrete': 'Discrete'
  }
@ -117,8 +120,8 @@ class Idf:
                             Visible_Absorptance=layer.material.visible_absorptance
                             )
-  def _add_daily_schedule(self, usage_zone, schedule):
+  def _add_daily_schedule(self, usage, schedule):
-    _schedule = self._idf.newidfobject(self._COMPACT_SCHEDULE, Name=f'{schedule.type} schedules {usage_zone.usage}')
+    _schedule = self._idf.newidfobject(self._COMPACT_SCHEDULE, Name=f'{schedule.type} schedules {usage}')
    _val = schedule.values
    _schedule.Schedule_Type_Limits_Name = self.idf_type_limits[schedule.data_type.lower()]
    _schedule.Field_1 = "Through: 12/31"
@ -172,14 +175,12 @@ class Idf:
    _schedule.Field_49 = "Until: 24:00"
    _schedule.Field_50 = _val[23]
-  def _add_schedule(self, usage_zone, schedule_type):
+  def _add_schedule(self, usage, new_schedule):
    for schedule in self._idf.idfobjects[self._HOURLY_SCHEDULE]:
-      if schedule.Name == f'{schedule_type} schedules {usage_zone.usage}':
+      if schedule.Name == f'{new_schedule.type} schedules {usage}':
        return
-    for schedule in usage_zone.schedules:
+      if new_schedule.time_range == "day":
-      if schedule.type == schedule_type:
+        return self._add_daily_schedule(usage, new_schedule)
        if schedule.time_range == "day":
          return self._add_daily_schedule(usage_zone, schedule)
    return
  def _add_construction(self, thermal_boundary):
@ -202,12 +203,12 @@ class Idf:
      _kwargs[f'Layer_{i + 1}'] = layers[1].material.name
    self._idf.newidfobject(self._CONSTRUCTION, **_kwargs)
-  def _add_zone(self, usage_zone):
+  def _add_zone(self, usage_zone, thermal_zone_volume):
    for zone in self._idf.idfobjects['ZONE']:
      if zone.Name == usage_zone.id:
        return
-    # todo: what does we need to define a zone in energy plus?
+    # todo: what do we need to define a zone in energy plus?
-    self._idf.newidfobject(self._ZONE, Name=usage_zone.id, Volume=usage_zone.volume)
+    self._idf.newidfobject(self._ZONE, Name=usage_zone.id, Volume=thermal_zone_volume * usage_zone.percentage)
    self._add_heating_system(usage_zone)
  def _add_thermostat(self, usage_zone):
@ -217,8 +218,8 @@ class Idf:
        return thermostat
    return self._idf.newidfobject(self._THERMOSTAT,
                                  Name=thermostat_name,
-                                  Constant_Heating_Setpoint=usage_zone.heating_setpoint,
+                                  Constant_Heating_Setpoint=usage_zone.thermal_control.mean_heating_set_point,
-                                  Constant_Cooling_Setpoint=usage_zone.cooling_setpoint)
+                                  Constant_Cooling_Setpoint=usage_zone.thermal_control.mean_cooling_set_point)
  def _add_heating_system(self, usage_zone):
    for air_system in self._idf.idfobjects[self._IDEAL_LOAD_AIR_SYSTEM]:
@ -232,14 +233,19 @@ class Idf:
                           Cooling_Availability_Schedule_Name=f'HVAC AVAIL SCHEDULES {usage_zone.usage}',
                           Template_Thermostat_Name=thermostat.Name)
-  def _add_occupancy(self, usage_zone):
+  def _add_occupancy(self, usage_zone, area):
    number_of_people = area * usage_zone.occupancy.occupancy_density
    fraction_radiant = usage_zone.occupancy.sensible_radiative_internal_gain / \
                       (usage_zone.occupancy.sensible_radiative_internal_gain +
                        usage_zone.occupancy.sensible_convective_internal_gain +
                        usage_zone.occupancy.latent_internal_gain)
    self._idf.newidfobject(self._PEOPLE,
                           Name=f'{usage_zone.id}_occupancy',
                           Zone_or_ZoneList_Name=usage_zone.id,
                           Number_of_People_Schedule_Name=f'Occupancy schedules {usage_zone.usage}',
                           Number_of_People_Calculation_Method="People",
-                           Number_of_People=500,  # todo: get people from where?
+                           Number_of_People=number_of_people,
-                           Fraction_Radiant=0.3,  # todo: howto get this from InternalGains
+                           Fraction_Radiant=fraction_radiant,
                           Activity_Level_Schedule_Name=f'Occupancy schedules {usage_zone.usage}'
                           )
@ -261,7 +267,7 @@ class Idf:
                           Zone_or_ZoneList_Name=usage_zone.id,
                           Schedule_Name=f'Infiltration schedules {usage_zone.usage}',
                           Design_Flow_Rate_Calculation_Method='AirChanges/Hour',
-                           Air_Changes_per_Hour=0.35,  # todo: change it from usage catalog
+                           Air_Changes_per_Hour=usage_zone.mechanical_air_change,
                           Constant_Term_Coefficient=0.606,  # todo: change it from usage catalog
                           Temperature_Term_Coefficient=3.6359996E-02,  # todo: change it from usage catalog
                           Velocity_Term_Coefficient=0.1177165,  # todo: change it from usage catalog
@ -275,20 +281,33 @@ class Idf:
    """
    for building in self._city.buildings:
-      for usage_zone in building.usage_zones:
+      for internal_zone in building.internal_zones:
-        self._add_schedule(usage_zone, "Infiltration")
+        for thermal_zone in internal_zone.thermal_zones:
-        self._add_schedule(usage_zone, "Lights")
+          for thermal_boundary in thermal_zone.thermal_boundaries:
-        self._add_schedule(usage_zone, "Occupancy")
+            self._add_construction(thermal_boundary)
-        self._add_schedule(usage_zone, "Refrigeration")
+          for usage_zone in thermal_zone.usage_zones:
-        self._add_schedule(usage_zone, "HVAC Avail")
+            usage = usage_zone.usage
            usage_zone_area = thermal_zone.floor_area * usage_zone.percentage
-        self._add_zone(usage_zone)
+            # todo: infiltration can be written with two values (system on and system off) in E+? Or just as schedule?
-        self._add_heating_system(usage_zone)
+            # self._add_schedule(usage, "Infiltration")
-        self._add_infiltration(usage_zone)
+            for schedule in usage_zone.lighting.schedules:
-        self._add_occupancy(usage_zone)
+              for day_type in schedule.day_types:
-      for thermal_zone in building.thermal_zones:
+                if day_type == cte.MONDAY:
-        for thermal_boundary in thermal_zone.thermal_boundaries:
+                  self._add_schedule(usage, schedule)
-          self._add_construction(thermal_boundary)
+            for schedule in usage_zone.occupancy.occupancy_schedules:
              for day_type in schedule.day_types:
                if day_type == cte.MONDAY:
                  self._add_schedule(usage, usage_zone.occupancy.occupancy_schedules)
            for schedule in usage_zone.thermal_control.hvac_availability_schedules:
              for day_type in schedule.day_types:
                if day_type == cte.MONDAY:
                  self._add_schedule(usage, schedule)
            self._add_zone(usage_zone, thermal_zone.volume)
            self._add_heating_system(usage_zone)
 #            self._add_infiltration(usage_zone)
            self._add_occupancy(usage_zone, usage_zone_area)
      if self._export_type == "Surfaces":
        self._add_surfaces(building)
@ -335,12 +354,14 @@ class Idf:
  def _add_surfaces(self, building):
-    for thermal_zone in building.thermal_zones:
+    for internal_zone in building.internal_zones:
-      for boundary in thermal_zone.thermal_boundaries:
+      for thermal_zone in internal_zone.thermal_zones:
-        idf_surface_type = self.idf_surfaces[boundary.surface.type]
+        for boundary in thermal_zone.thermal_boundaries:
-        for usage_zone in thermal_zone.usage_zones:
+          idf_surface_type = self.idf_surfaces[boundary.parent_surface.type]
-          surface = self._idf.newidfobject(self._SURFACE, Name=f'{boundary.surface.name}',
+          for usage_zone in thermal_zone.usage_zones:
-                                           Surface_Type=idf_surface_type, Zone_Name=usage_zone.id,
+            surface = self._idf.newidfobject(self._SURFACE, Name=f'{boundary.parent_surface.name}',
-                                           Construction_Name=boundary.construction_name)
+                                             Surface_Type=idf_surface_type, Zone_Name=usage_zone.id,
-          coordinates = self._matrix_to_list(boundary.surface.solid_polygon.coordinates, self._city.lower_corner)
+                                             Construction_Name=boundary.construction_name)
-          surface.setcoords(coordinates)
+            coordinates = self._matrix_to_list(boundary.parent_surface.solid_polygon.coordinates,
                                               self._city.lower_corner)
            surface.setcoords(coordinates)
--- a/imports/construction/helpers/storeys_generation.py
+++ b/imports/construction/helpers/storeys_generation.py
@ -20,8 +20,9 @@ class StoreysGeneration:
  """
  StoreysGeneration
  """
-  def __init__(self, building, divide_in_storeys=False):
+  def __init__(self, building, internal_zone, divide_in_storeys=False):
    self._building = building
    self._internal_zone = internal_zone
    self._thermal_zones = []
    self._divide_in_storeys = divide_in_storeys
    self._floor_area = 0
@ -39,7 +40,8 @@ class StoreysGeneration:
                                                                          self._building.storeys_above_ground)
    number_of_storeys = 1
    if not self._divide_in_storeys or number_of_storeys == 1:
-      storey = Storey('storey_0', self._building.surfaces, [None, None], self._building.volume, self._floor_area)
+      storey = Storey('storey_0', self._building.surfaces, [None, None], self._internal_zone.volume,
                      self._internal_zone, self._floor_area)
      for thermal_boundary in storey.thermal_boundaries:
        if thermal_boundary.type != cte.INTERIOR_WALL or thermal_boundary.type != cte.INTERIOR_SLAB:
          # external thermal boundary -> only one thermal zone
@ -98,13 +100,13 @@ class StoreysGeneration:
      surfaces_child.append(ceiling)
      volume = ceiling.area_above_ground * height
      total_volume += volume
-      storeys.append(Storey(name, surfaces_child, neighbours, volume, self._floor_area))
+      storeys.append(Storey(name, surfaces_child, neighbours, volume, self._internal_zone, self._floor_area))
    name = 'storey_' + str(number_of_storeys - 1)
    neighbours = ['storey_' + str(number_of_storeys - 2), None]
    volume = self._building.volume - total_volume
    if volume < 0:
      raise Exception('Error in storeys creation, volume of last storey cannot be lower that 0')
-    storeys.append(Storey(name, surfaces_child_last_storey, neighbours, volume, self._floor_area))
+    storeys.append(Storey(name, surfaces_child_last_storey, neighbours, volume, self._internal_zone, self._floor_area))
    for storey in storeys:
      for thermal_boundary in storey.thermal_boundaries:
--- a/imports/construction/nrel_physics_interface.py
+++ b/imports/construction/nrel_physics_interface.py
@ -234,5 +234,5 @@ class NrelPhysicsInterface:
  def _create_storeys(building, archetype):
    building.average_storey_height = archetype.average_storey_height
    building.storeys_above_ground = archetype.storeys_above_ground
-    thermal_zones = StoreysGeneration(building).thermal_zones
+    thermal_zones = StoreysGeneration(building, building.internal_zones[0]).thermal_zones
    building.internal_zones[0].thermal_zones = thermal_zones
--- a/imports/customized_imports/sanam_customized_usage_parameters.py
+++ b/imports/customized_imports/sanam_customized_usage_parameters.py
@ -72,8 +72,8 @@ class SanamCustomizedUsageParameters:
        _occupancy = Occupancy()
        usage_zone.occupancy = _occupancy
      usage_zone.occupancy.occupancy_density = archetype.occupancy.occupancy_density
-      archetype_mechanical_air_change = float(archetype.mechanical_air_change) * \
+      archetype_mechanical_air_change = float(archetype.mechanical_air_change) \
-                                        float(usage_zone.occupancy.occupancy_density) * cte.METERS_TO_FEET ** 2 \
+                                        * float(archetype.occupancy.occupancy_density) \
                                        * cte.HOUR_TO_MINUTES / cte.METERS_TO_FEET ** 3 / volume_per_area
      usage_zone.mechanical_air_change = archetype_mechanical_air_change
--- a/imports/schedules/doe_idf.py
+++ b/imports/schedules/doe_idf.py
@ -12,6 +12,7 @@ from imports.schedules.helpers.schedules_helper import SchedulesHelper
 from city_model_structure.attributes.schedule import Schedule
 from city_model_structure.building_demand.occupancy import Occupancy
 from city_model_structure.building_demand.lighting import Lighting
 from city_model_structure.building_demand.thermal_control import ThermalControl
 import helpers.constants as cte
@ -141,3 +142,7 @@ class DoeIdf:
        if usage_zone.lighting is None:
          usage_zone.lighting = Lighting()
        usage_zone.lighting.schedules = [schedule]
      elif schedule.type == cte.HVAC_AVAILABILITY:
        if usage_zone.thermal_control is None:
          usage_zone.thermal_control = ThermalControl()
        usage_zone.thermal_control.hvac_availability_schedules = [schedule]
--- a/imports/usage/ca_usage_parameters.py
+++ b/imports/usage/ca_usage_parameters.py
@ -64,7 +64,7 @@ class CaUsageParameters(HftUsageInterface):
    usage_zone.hours_day = archetype.hours_day
    usage_zone.days_year = archetype.days_year
    _appliances = Appliances()
-    _appliances.appliances_density = archetype.appliances.appliances_density
+    _appliances.density = archetype.appliances.density
    usage_zone.appliances = _appliances
    _control = ThermalControl()
    _control.mean_heating_set_point = archetype.thermal_control.mean_heating_set_point
--- a/imports/usage/comnet_usage_parameters.py
+++ b/imports/usage/comnet_usage_parameters.py
@ -78,7 +78,7 @@ class ComnetUsageParameters:
    _lighting.latent_fraction = ch().comnet_lighting_latent
    _lighting.convective_fraction = ch().comnet_lighting_convective
    _lighting.radiative_fraction = ch().comnet_lighting_radiant
-    _lighting.lighting_density = data['lighting'][comnet_usage][4]
+    _lighting.density = data['lighting'][comnet_usage][4]
    # plug loads
    _appliances = None
@ -87,21 +87,22 @@ class ComnetUsageParameters:
      _appliances.latent_fraction = ch().comnet_plugs_latent
      _appliances.convective_fraction = ch().comnet_plugs_convective
      _appliances.radiative_fraction = ch().comnet_plugs_radiant
-      _appliances.appliances_density = data['plug loads'][comnet_usage][0]
+      _appliances.density = data['plug loads'][comnet_usage][0]
    # occupancy
    _occupancy = Occupancy()
-    _occupancy.occupancy_density = data['occupancy'][comnet_usage][0]
+    value = data['occupancy'][comnet_usage][0]
    if value != 0:
      _occupancy.occupancy_density = value
    else:
      _occupancy.occupancy_density = 0
    _occupancy.sensible_convective_internal_gain = data['occupancy'][comnet_usage][1] \
                                                   * ch().comnet_occupancy_sensible_convective
    _occupancy.sensible_radiative_internal_gain = data['occupancy'][comnet_usage][1] \
                                                  * ch().comnet_occupancy_sensible_radiant
    _occupancy.latent_internal_gain = data['occupancy'][comnet_usage][2]
-    if _occupancy.occupancy_density <= 0:
+    _usage_zone.mechanical_air_change = data['ventilation rate'][comnet_usage][0]
      _usage_zone.mechanical_air_change = 0
    else:
      _usage_zone.mechanical_air_change = data['ventilation rate'][comnet_usage][0] / _occupancy.occupancy_density
    schedules_usage = UsageHelper.schedules_key(data['schedules_key'][comnet_usage][0])
@ -225,21 +226,27 @@ class ComnetUsageParameters:
    usage_zone.mechanical_air_change = archetype.mechanical_air_change * cte.METERS_TO_FEET ** 2 \
                                       * cte.HOUR_TO_MINUTES / cte.METERS_TO_FEET ** 3 / volume_per_area
    _occupancy = Occupancy()
-    _occupancy.occupancy_density = archetype.occupancy.occupancy_density * cte.METERS_TO_FEET**2
+    _occupancy.occupancy_density = archetype.occupancy.occupancy_density / cte.METERS_TO_FEET**2
-    _occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain
+    _occupancy.sensible_radiative_internal_gain = archetype.occupancy.sensible_radiative_internal_gain \
-    _occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain
+                                                  * archetype.occupancy.occupancy_density / cte.METERS_TO_FEET**2 \
-    _occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain
+                                                  * cte.BTU_H_TO_WATTS
    _occupancy.latent_internal_gain = archetype.occupancy.latent_internal_gain \
                                      * archetype.occupancy.occupancy_density / cte.METERS_TO_FEET**2 \
                                      * cte.BTU_H_TO_WATTS
    _occupancy.sensible_convective_internal_gain = archetype.occupancy.sensible_convective_internal_gain \
                                                   * archetype.occupancy.occupancy_density / cte.METERS_TO_FEET**2 \
                                                   * cte.BTU_H_TO_WATTS
    _occupancy.occupancy_schedules = archetype.occupancy.occupancy_schedules
    usage_zone.occupancy = _occupancy
    _lighting = Lighting()
-    _lighting.lighting_density = archetype.lighting.lighting_density / cte.METERS_TO_FEET**2
+    _lighting.density = archetype.lighting.density / cte.METERS_TO_FEET ** 2
    _lighting.convective_fraction = archetype.lighting.convective_fraction
    _lighting.radiative_fraction = archetype.lighting.radiative_fraction
    _lighting.latent_fraction = archetype.lighting.latent_fraction
    _lighting.schedules = archetype.lighting.schedules
    usage_zone.lighting = _lighting
    _appliances = Appliances()
-    _appliances.appliances_density = archetype.appliances.appliances_density / cte.METERS_TO_FEET**2
+    _appliances.density = archetype.appliances.density / cte.METERS_TO_FEET ** 2
    _appliances.convective_fraction = archetype.appliances.convective_fraction
    _appliances.radiative_fraction = archetype.appliances.radiative_fraction
    _appliances.latent_fraction = archetype.appliances.latent_fraction
--- a/imports/usage/hft_usage_interface.py
+++ b/imports/usage/hft_usage_interface.py
@ -125,7 +125,7 @@ class HftUsageInterface:
    if 'appliance' in zone_usage_type:
      _appliances = Appliances()
-      _appliances.appliances_density = zone_usage_type['appliance']['#text'] #todo: check units
+      _appliances.density = zone_usage_type['appliance']['#text'] #todo: check units
      usage_zone_archetype.appliances = _appliances
@ -220,7 +220,7 @@ class HftUsageInterface:
    if 'appliance' in usage_zone_variant:
      _appliances = Appliances()
-      _appliances.appliances_density = usage_zone_variant['appliance']['#text']   # todo: check units
+      _appliances.density = usage_zone_variant['appliance']['#text']   # todo: check units
      usage_zone_archetype.appliances = _appliances
--- a/requirements.txt
+++ b/requirements.txt
@ -6,7 +6,6 @@ pandas~=1.2.3
 requests~=2.25.1
 esoreader~=1.2.3
 geomeppy~=0.11.8
 pathlib~=1.0.1
 PyWavefront~=1.3.3
 xlrd~=2.0.1
 openpyxl~=3.0.7
@ -16,5 +15,4 @@ ply~=3.11
 rhino3dm~=7.7.0
 scipy==1.7.1
 PyYAML==6.0
 yaml~=0.2.5
 pyecore~=0.12.2
--- a/unittests/test_doe_idf.py
+++ b/unittests/test_doe_idf.py
@ -29,9 +29,11 @@ class TestBuildings(TestCase):
    output_path = Path('../unittests/tests_outputs/').resolve()
    city = GeometryFactory('citygml', city_file).city
    ConstructionFactory('nrel', city).enrich()
-    UsageFactory('ca', city).enrich()
+    UsageFactory('comnet', city).enrich()
-    SchedulesFactory('doe_idf', city).enrich()
+#    UsageFactory('ca', city).enrich()
 #    SchedulesFactory('doe_idf', city).enrich()
    ExportsFactory('idf', city, output_path).export()
    self.assertEqual(10, len(city.buildings))
    for building in city.buildings:
      for internal_zone in building.internal_zones:
--- a/unittests/test_usage_factory.py
+++ b/unittests/test_usage_factory.py
@ -9,7 +9,6 @@ from unittest import TestCase
 from imports.geometry_factory import GeometryFactory
 from imports.usage_factory import UsageFactory
 from imports.geometry.helpers.geometry_helper import GeometryHelper
 from imports.construction_factory import ConstructionFactory
 class TestUsageFactory(TestCase):
@ -113,14 +112,14 @@ class TestUsageFactory(TestCase):
          self.assertIsNone(occupancy.occupants, 'occupancy density is not none')
          self.assertIsNotNone(usage_zone.lighting, 'lighting is none')
          lighting = usage_zone.lighting
-          self.assertIsNotNone(lighting.lighting_density, 'lighting density is none')
+          self.assertIsNotNone(lighting.density, 'lighting density is none')
          self.assertIsNotNone(lighting.latent_fraction, 'lighting latent fraction is none')
          self.assertIsNotNone(lighting.convective_fraction, 'lighting convective fraction is none')
          self.assertIsNotNone(lighting.radiative_fraction, 'lighting radiant fraction is none')
          self.assertIsNotNone(lighting.schedules, 'lighting schedule is none')
          self.assertIsNotNone(usage_zone.appliances, 'appliances is none')
          appliances = usage_zone.appliances
-          self.assertIsNotNone(appliances.appliances_density, 'appliances density is none')
+          self.assertIsNotNone(appliances.density, 'appliances density is none')
          self.assertIsNotNone(appliances.latent_fraction, 'appliances latent fraction is none')
          self.assertIsNotNone(appliances.convective_fraction, 'appliances convective fraction is none')
          self.assertIsNotNone(appliances.radiative_fraction, 'appliances radiant fraction is none')