solved some small errors in meb exporter

hub/data/energy_systems/montreal_custom_systems.xml

@@ -1,181 +1,116 @@
 <catalog lod="1">
-    <generation_equipments>
-        <equipment id="1" type="boiler" fuel_type="gas">
-            <name>Fuel-fired water boiler</name>
-            <heating_efficiency>0.85</heating_efficiency>
-        </equipment>
-        <equipment id="2" type="boiler" fuel_type="electricity">
-            <name>Electric water boiler</name>
-            <heating_efficiency>1</heating_efficiency>
-        </equipment>
-        <equipment id="3" type="furnace" fuel_type="gas">
-            <name>Fuel-fired furnace and fuel boiler for acs</name>
-            <heating_efficiency>0.85</heating_efficiency>
-        </equipment>
-        <equipment id="4" type="furnace" fuel_type="electricity">
-            <name>Electrical furnace and fuel boiler for acs</name>
-            <heating_efficiency>1</heating_efficiency>
-        </equipment>
-        <equipment id="5" type="cooler" fuel_type="electricity">
-            <name>Air cooled DX with external condenser</name>
-            <cooling_efficiency>3.23</cooling_efficiency>
-        </equipment>
-        <equipment id="6" type="electricity generator" fuel_type="renewable">
-            <name>PV system</name>
-            <electrical_efficiency>0.22</electrical_efficiency>
-        </equipment>
-    </generation_equipments>
-    <distribution_equipments>
-        <equipment id="1" type="??">
-            <name>???</name>
-            <distribution_heat_losses units="%">10</distribution_heat_losses>
-            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
-            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
-        </equipment>
-        <equipment id="2" type="??">
-            <name>???</name>
-            <distribution_heat_losses units="%">25</distribution_heat_losses>
-            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
-            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
-        </equipment>
-        <equipment id="3" type="??">
-            <name>???</name>
-            <distribution_heat_losses units="%">0</distribution_heat_losses>
-            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
-            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
-        </equipment>
-    </distribution_equipments>
-    <dissipation_equipments>
-        <equipment id="1" type="baseboards">
-            <name>Baseboards</name>
-            <parasitic_consumption>???</parasitic_consumption>
-        </equipment>
-    </dissipation_equipments>
     <systems>
-        <system id = "1">
+        <system id="1" type="boiler" fuel_type="gas">
             <name>Fuel-fired water boiler with baseboards</name>
             <demands>
                 <demand>heating</demand>
                 <demand>domestic_hot_water</demand>
             </demands>
-            <equipments>
-                <generation_id>1</generation_id>
-                <distribution_id>1</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>0.85</heating_efficiency>
+            <distribution_heat_losses units="%">10</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="2">
+        <system id="2" type="boiler" fuel_type="electricity">
             <name>Electrical resistance water boiler</name>
             <demands>
                 <demand>heating</demand>
                 <demand>domestic_hot_water</demand>
             </demands>
-            <equipments>
-                <generation_id>2</generation_id>
-                <distribution_id>1</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>1</heating_efficiency>
+            <distribution_heat_losses units="%">10</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>true</storage>
         </system>
-        <system id="3">
+        <system id="3" type="furnace" fuel_type="gas">
             <name>Fuel-fired furnace and fuel boiler for acs</name>
             <demands>
                 <demand>heating</demand>
                  <demand>domestic_hot_water</demand>
            </demands>
-            <equipments>
-                <generation_id>3</generation_id>
-                <distribution_id>2</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>0.85</heating_efficiency>
+            <distribution_heat_losses units="%">25</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="4">
+        <system id="4" type="furnace" fuel_type="electricity">
             <name>Electrical resistance furnace and electrical boiler for acs</name>
             <demands>
                 <demand>heating</demand>
                 <demand>domestic_hot_water</demand>
             </demands>
-            <equipments>
-                <generation_id>4</generation_id>
-                <distribution_id>2</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>1</heating_efficiency>
+            <distribution_heat_losses units="%">25</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="5">
+        <system id="5" type="baseboard" fuel_type="gas">
             <name>Baseboards: hydronic with fuel boiler</name>
             <demands>
                 <demand>heating</demand>
                 <demand>domestic_hot_water</demand>
             </demands>
-            <equipments>
-                <generation_id>1</generation_id>
-                <distribution_id>1</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>0.85</heating_efficiency>
+            <distribution_heat_losses units="%">10</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="6">
+        <system id="6" type="baseboard" fuel_type="electricity">
             <name>Electrical baseboards and electrical boiler for acs</name>
             <demands>
                 <demand>heating</demand>
                 <demand>domestic_hot_water</demand>
             </demands>
-            <equipments>
-                <generation_id>2</generation_id>
-                <distribution_id>3</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <heating_efficiency>1</heating_efficiency>
+            <distribution_heat_losses units="%">0</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="7">
+        <system id="7" type="cooler" fuel_type="electricity">
             <name>Air cooled DX with external condenser</name>
             <demands>
                 <demand>cooling</demand>
             </demands>
-            <equipments>
-                <generation_id>5</generation_id>
-                <distribution_id>3</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <cooling_efficiency>3.23</cooling_efficiency>
+            <distribution_heat_losses units="%">0</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="8">
+        <system id="8" type="cooler" fuel_type="electricity">
             <name>Water cooled, water chiller</name>
             <demands>
                 <demand>cooling</demand>
             </demands>
-            <equipments>
-                <generation_id>5</generation_id>
-                <distribution_id>1</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <cooling_efficiency>3.23</cooling_efficiency>
+            <distribution_heat_losses units="%">10</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="9">
+        <system id="9" type="cooler" fuel_type="electricity">
             <name>Air cooled DX</name>
             <demands>
                 <demand>cooling</demand>
             </demands>
-            <equipments>
-                <generation_id>5</generation_id>
-                <distribution_id>3</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <cooling_efficiency>3.23</cooling_efficiency>
+            <distribution_heat_losses units="%">0</distribution_heat_losses>
+            <distribution_consumption_fix_flow units="%">1000000000</distribution_consumption_fix_flow>
+            <distribution_consumption_variable_flow units="%">1000000000</distribution_consumption_variable_flow>
             <storage>false</storage>
         </system>
-        <system id="10">
+        <system id="10" type="electricity generator" fuel_type="renewable">
             <name>PV system</name>
             <demands>
                 <demand>electricity</demand>
             </demands>
-            <equipments>
-                <generation_id>6</generation_id>
-                <distribution_id>???</distribution_id>
-                <dissipation_id>???</dissipation_id>
-            </equipments>
+            <electrical_efficiency>0.22</electrical_efficiency>
             <storage>true</storage>
         </system>
     </systems>

hub/exports/building_energy/insel/insel_monthly_energy_balance.py

@@ -130,7 +130,15 @@ class InselMonthlyEnergyBalance(Insel):
                         f'% BP(11) #1 Area of zone {i + 1} (m2)')
       total_internal_gain = 0
       for ig in usage.internal_gains:
-        total_internal_gain += ig.average_internal_gain * (ig.convective_fraction + ig.radiative_fraction)
+        internal_gain = ig.average_internal_gain * (ig.convective_fraction + ig.radiative_fraction)
+        for schedule in ig.schedules:
+          total_values = sum(schedule.values)
+          total_hours = 0
+          for day_type in schedule.day_types:
+            total_hours += cte.DAYS_A_YEAR[day_type] / 365 / 24
+          total_values *= total_hours
+          total_internal_gain += internal_gain * total_values
+
       parameters.append(f'{total_internal_gain} % BP(12) #2 Internal gains of zone {i + 1}')
       parameters.append(f'{usage.thermal_control.mean_heating_set_point} % BP(13) #3 Heating setpoint temperature '
                         f'zone {i + 1} (degree Celsius)')

hub/helpers/configuration_helper.py

@@ -127,7 +127,7 @@ class ConfigurationHelper:
   def soil_thickness(self) -> float:
     """
     Get configured soil thickness for surfaces touching the ground
-    :return: 0.5
+    :return: 0.5 m
     """
     return self._config.getfloat('buildings', 'soil_thickness').real
 

hub/helpers/constants.py

@@ -57,14 +57,14 @@ DAYS_A_MONTH = {'monday': [5, 4, 4, 5, 4, 4, 5, 4, 4, 5, 4, 5],
                 'sunday': [4, 4, 4, 5, 4, 4, 5, 4, 5, 4, 4, 5],
                 'holiday': [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]}
 
-DAYS_A_YEAR = {'monday': 53,
-               'tuesday': 52,
-               'wednesday': 52,
-               'thursday': 52,
-               'friday': 52,
+DAYS_A_YEAR = {'monday': 51,
+               'tuesday': 50,
+               'wednesday': 50,
+               'thursday': 50,
+               'friday': 50,
                'saturday': 52,
                'sunday': 52,
-               'holiday': 0}
+               'holiday': 10}
 
 # data types
 ANY_NUMBER = 'any_number'

hub/imports/construction/nrcan_physics_parameters.py

@@ -105,18 +105,19 @@ class NrcanPhysicsParameters:
           thermal_boundary.window_ratio = 0
           if thermal_boundary.type == cte.WALL or thermal_boundary.type == cte.ROOF:
             if construction_archetype.window is not None:
-              if math.pi / 4 <= thermal_boundary.parent_surface.azimuth < 3 * math.pi / 4:
-                thermal_boundary.window_ratio = \
-                  float(construction_archetype.window_ratio['east']) / 100
-              elif 3 * math.pi / 4 <= thermal_boundary.parent_surface.azimuth < 5 * math.pi / 4:
-                thermal_boundary.window_ratio = \
-                  float(construction_archetype.window_ratio['south']) / 100
-              elif 5 * math.pi / 4 <= thermal_boundary.parent_surface.azimuth < 7 * math.pi / 4:
-                thermal_boundary.window_ratio = \
-                  float(construction_archetype.window_ratio['west']) / 100
-              else:
+              if -math.sqrt(2) / 2 < math.sin(thermal_boundary.parent_surface.azimuth) < math.sqrt(2) / 2:
+                if 0 < math.cos(thermal_boundary.parent_surface.azimuth):
                   thermal_boundary.window_ratio = \
                     float(construction_archetype.window_ratio['north']) / 100
+                else:
+                  thermal_boundary.window_ratio = \
+                    float(construction_archetype.window_ratio['south']) / 100
+              elif math.sqrt(2) / 2 <= math.sin(thermal_boundary.parent_surface.azimuth):
+                thermal_boundary.window_ratio = \
+                  float(construction_archetype.window_ratio['east']) / 100
+              else:
+                thermal_boundary.window_ratio = \
+                  float(construction_archetype.window_ratio['west']) / 100
         except ValueError:
           # This is the normal operation way when the windows are defined in the geometry
           continue

hub/imports/usage/nrcan_usage_parameters.py

@@ -54,6 +54,9 @@ class NrcanUsageParameters:
         sys.stderr.write(f'Building {building.name} has unknown usage archetype for usage: {comnet_usage_name}\n')
         continue
 
+      storeys = int(building.eave_height / building.average_storey_height)
+      volume_per_area = building.volume / building.floor_area / storeys
+
       for internal_zone in building.internal_zones:
         if internal_zone.area is None:
           raise Exception('Internal zone area not defined, ACH cannot be calculated')
@@ -61,6 +64,7 @@ class NrcanUsageParameters:
           raise Exception('Internal zone volume not defined, ACH cannot be calculated')
         if internal_zone.area <= 0:
           raise Exception('Internal zone area is zero, ACH cannot be calculated')
+        if len(building.internal_zones) > 1:
           volume_per_area = internal_zone.volume / internal_zone.area
         usage = Usage()
         usage.name = usage_name