Add atributes for constructions materials and layers

This commit is contained in:
Guille 2020-11-05 11:11:43 -05:00
parent bec5d38c4a
commit 7ffe395aa9
9 changed files with 67 additions and 1434 deletions

View File

@ -10,6 +10,7 @@ class Material:
Material class Material class
""" """
def __init__(self): def __init__(self):
self._name = None
self._conductivity = None self._conductivity = None
self._specific_heat = None self._specific_heat = None
self._density = None self._density = None
@ -19,6 +20,23 @@ class Material:
self._no_mass = False self._no_mass = False
self._thermal_resistance = None self._thermal_resistance = None
@property
def name(self):
"""
Get material conductivity in W/mK
:return: float
"""
return self._name
@name.setter
def name(self, value):
"""
Set material conductivity in W/mK
:param value: float
:return: None
"""
self._name = value
@property @property
def conductivity(self): def conductivity(self):
""" """

View File

@ -28,6 +28,7 @@ class ThermalBoundary:
self._u_value = None self._u_value = None
self._window_area = None self._window_area = None
self._shortwave_reflectance = 1 - self._outside_solar_absorptance self._shortwave_reflectance = 1 - self._outside_solar_absorptance
self._construction_name = None
@property @property
def delimits(self) -> List[ThermalZone]: def delimits(self) -> List[ThermalZone]:
@ -146,6 +147,18 @@ class ThermalBoundary:
""" """
self._thermal_openings = value self._thermal_openings = value
@property
def construction_name(self):
"""
Get construction name
:return:
"""
return self._construction_name
@construction_name.setter
def construction_name(self, value):
self._construction_name = value
@property @property
def layers(self) -> List[Layer]: def layers(self) -> List[Layer]:
""" """

View File

@ -20,13 +20,11 @@ class UsBasePhysicsParameters:
self._buildings = buildings self._buildings = buildings
# load US Library # load US Library
path = str(base_path / 'us_constructions.xml') path = str(base_path / 'us_constructions.xml')
print('physics construction:', path)
with open(path) as xml: with open(path) as xml:
self._library = xmltodict.parse(xml.read(), force_list='layer') self._library = xmltodict.parse(xml.read(), force_list='layer')
# load US Archetypes # load US Archetypes
path = str(base_path / 'us_archetypes.xml') path = str(base_path / 'us_archetypes.xml')
print('physics archetypes:', path)
with open(path) as xml: with open(path) as xml:
self._archetypes = xmltodict.parse(xml.read(), force_list='layer') self._archetypes = xmltodict.parse(xml.read(), force_list='layer')
for building in self._buildings: for building in self._buildings:
@ -58,12 +56,15 @@ class UsBasePhysicsParameters:
construction_type = UsToLibraryTypes.construction_types[thermal_boundary.type] construction_type = UsToLibraryTypes.construction_types[thermal_boundary.type]
construction = UsBasePhysicsParameters._search_construction_in_archetype(archetype, construction_type) construction = UsBasePhysicsParameters._search_construction_in_archetype(archetype, construction_type)
construction_id = construction['@id'] construction_id = construction['@id']
print(construction)
c_lib = self._search_construction_type('construction', construction_id) c_lib = self._search_construction_type('construction', construction_id)
if 'outside_solar_absorptance' in c_lib: if 'outside_solar_absorptance' in c_lib:
thermal_boundary.outside_solar_absorptance = c_lib['outside_solar_absorptance']['#text'] thermal_boundary.outside_solar_absorptance = c_lib['outside_solar_absorptance']['#text']
thermal_boundary.outside_thermal_absorptance = c_lib['outside_thermal_absorptance']['#text'] thermal_boundary.outside_thermal_absorptance = c_lib['outside_thermal_absorptance']['#text']
thermal_boundary.outside_visible_absorptance = c_lib['outside_visible_absorptance']['#text'] thermal_boundary.outside_visible_absorptance = c_lib['outside_visible_absorptance']['#text']
thermal_boundary.window_ratio = construction['window_ratio']['#text'] thermal_boundary.window_ratio = construction['window_ratio']['#text']
thermal_boundary.construction_name = "todo"
thermal_boundary.layers = [] thermal_boundary.layers = []
for current_layer in c_lib['layers']['layer']: for current_layer in c_lib['layers']['layer']:
layer = Layer() layer = Layer()
@ -79,6 +80,7 @@ class UsBasePhysicsParameters:
material.thermal_absorptance = material_lib['thermal_absorptance']['#text'] material.thermal_absorptance = material_lib['thermal_absorptance']['#text']
material.visible_absorptance = material_lib['visible_absorptance']['#text'] material.visible_absorptance = material_lib['visible_absorptance']['#text']
material.no_mass = 'no_mass' in material_lib material.no_mass = 'no_mass' in material_lib
material.name = material_lib['@name']
if 'thermal_resistance' in material_lib: if 'thermal_resistance' in material_lib:
material.thermal_resistance = material_lib['thermal_resistance']['#text'] material.thermal_resistance = material_lib['thermal_resistance']['#text']
layer.material = material layer.material = material

View File

@ -20,7 +20,6 @@ class UsBaseUsageParameters:
# todo: control not archetype found # todo: control not archetype found
# ToDo: this is using the german library as a temporary approach, need to use/define a library for US # ToDo: this is using the german library as a temporary approach, need to use/define a library for US
path = str(Path(__file__).parent.parent.parent / 'data/usage/de_library.xml') path = str(Path(__file__).parent.parent.parent / 'data/usage/de_library.xml')
print('usage:', path)
with open(path) as xml: with open(path) as xml:
self._library = xmltodict.parse(xml.read(), force_list='zoneUsageVariant') self._library = xmltodict.parse(xml.read(), force_list='zoneUsageVariant')
for city_object in self._city.buildings: for city_object in self._city.buildings:

View File

@ -67,20 +67,21 @@ class IdfHelper:
self._idf.intersect_match() self._idf.intersect_match()
def add_surfaces(self, building): def add_surfaces(self, building):
self.add_block(building) index = 0
for zone in self._idf.idfobjects['ZONE']: for zone in building.thermal_zones:
if zone.Name.find(building.name) != -1: zone_name = f'Building {building.name} usage zone {index}'
for surface in building.surfaces: self._idf.newidfobject('ZONE', Name=zone_name)
for surface in zone.surfaces:
idf_surface = self.idf_surfaces[surface.type] idf_surface = self.idf_surfaces[surface.type]
wall = self._idf.newidfobject(self._SURFACE, Name=surface.name, Surface_Type=idf_surface, Zone_Name=zone.Name) wall = self._idf.newidfobject(self._SURFACE, Name=f'{building.name}-{surface.name}', Surface_Type=idf_surface,
Zone_Name=zone_name)
coordinates = IdfHelper._matrix_to_list(surface.points) coordinates = IdfHelper._matrix_to_list(surface.points)
if surface.area <= 0:
print(surface.area)
wall.setcoords(coordinates) wall.setcoords(coordinates)
index += 1
self.add_heating_system(building)
self._idf.intersect_match()
def run(self, output_directory, window_ratio=0.35, display_render=False, output_prefix=None, keep_file=None): def run(self, output_directory, window_ratio=0.35, display_render=False, output_prefix=None, keep_file=None):
self._idf.set_default_constructions() self._idf.set_default_constructions()
self._idf.set_wwr(window_ratio, construction="Project External Window") self._idf.set_wwr(window_ratio, construction="Project External Window")
self._idf.translate_to_origin() self._idf.translate_to_origin()
@ -112,4 +113,3 @@ class IdfHelper:
heating = [(float(x)) / 3600000.0 for x in list_values[0]] heating = [(float(x)) / 3600000.0 for x in list_values[0]]
cooling = [(float(x)) / 3600000.0 for x in list_values[1]] cooling = [(float(x)) / 3600000.0 for x in list_values[1]]
return heating, cooling return heating, cooling

View File

@ -9,6 +9,8 @@ from factories.geometry_factory import GeometryFactory
from factories.physics_factory import PhysicsFactory from factories.physics_factory import PhysicsFactory
from factories.usage_factory import UsageFactory from factories.usage_factory import UsageFactory
from helpers.idf_helper import IdfHelper from helpers.idf_helper import IdfHelper
import os
import glob
class TestIdf(TestCase): class TestIdf(TestCase):
@ -27,7 +29,7 @@ class TestIdf(TestCase):
def _get_city(self): def _get_city(self):
if self._city_gml is None: if self._city_gml is None:
file_path = (self._example_path / '20buildings.gml').resolve() file_path = (self._example_path / 'buildings.gml').resolve()
self._city_gml = GeometryFactory('citygml', file_path).city self._city_gml = GeometryFactory('citygml', file_path).city
PhysicsFactory('us_new_york', self._city_gml) PhysicsFactory('us_new_york', self._city_gml)
UsageFactory('us_new_york', self._city_gml) UsageFactory('us_new_york', self._city_gml)
@ -37,17 +39,25 @@ class TestIdf(TestCase):
idd_file_path = (self._example_path / 'energy+.idd').resolve() idd_file_path = (self._example_path / 'energy+.idd').resolve()
idf_file_path = (self._example_path / 'minimal.idf').resolve() idf_file_path = (self._example_path / 'minimal.idf').resolve()
epw_file_path = (self._example_path / 'montreal.epw').resolve() epw_file_path = (self._example_path / 'montreal.epw').resolve()
_idf = IdfHelper(idf_file_path, idd_file_path, epw_file_path) _idf = IdfHelper(idf_file_path, idd_file_path, epw_file_path)
city = self._get_city() city = self._get_city()
for building in city.buildings: for building in city.buildings:
_idf.add_block(building) _idf.add_block(building)
for thermal_zone in building.thermal_zones:
for bound in thermal_zone.bounded:
for layer in bound.layers:
print(layer.thickness)
print(layer.material.density)
test_prefix = 'test_idf_blocks' test_prefix = 'test_idf_blocks'
_idf.run(self._output_path, output_prefix=test_prefix, keep_file=self._output_path, display_render=True) _idf.run(self._output_path, output_prefix=test_prefix, keep_file=self._output_path, display_render=True)
eso_file_path = (self._output_path / f'{test_prefix}out.eso') eso_file_path = (self._output_path / f'{test_prefix}out.eso')
heating, cooling = _idf.read_eso(str(eso_file_path)) heating, cooling = _idf.read_eso(str(eso_file_path))
self.assertEqual(len(heating), len(cooling), "Cooling and Heating doesn't contains the same amount of values") self.assertEqual(len(heating), len(cooling), "Cooling and Heating doesn't contains the same amount of values")
# todo: clean up the files self.assertNotEqual(len(heating), 0, "Cooling and Heating series are empty")
file_list = glob.glob(Path(self._output_path / '*').resolve())
for file_path in file_list:
os.remove(file_path)
def test_idf_surfaces(self): def test_idf_surfaces(self):
idd_file_path = (self._example_path / 'energy+.idd').resolve() idd_file_path = (self._example_path / 'energy+.idd').resolve()
@ -58,9 +68,13 @@ class TestIdf(TestCase):
city = self._get_city() city = self._get_city()
for building in city.buildings: for building in city.buildings:
_idf.add_surfaces(building) _idf.add_surfaces(building)
break
test_prefix = 'test_idf_blocks' test_prefix = 'test_idf_blocks'
_idf.run(self._output_path, output_prefix=test_prefix, keep_file=self._output_path) _idf.run(self._output_path, output_prefix=test_prefix, keep_file=self._output_path)
eso_file_path = (self._output_path / f'{test_prefix}out.eso') eso_file_path = (self._output_path / f'{test_prefix}out.eso')
heating, cooling = _idf.read_eso(str(eso_file_path)) heating, cooling = _idf.read_eso(str(eso_file_path))
self.assertEqual(len(heating), len(cooling), "Cooling and Heating doesn't contains the same amount of values") self.assertEqual(len(heating), len(cooling), "Cooling and Heating doesn't contains the same amount of values")
# todo: clean up the files self.assertNotEqual(len(heating), 0, "Cooling and Heating series are empty")
file_list = glob.glob(str(Path(self._output_path / '*').resolve()))
for file_path in file_list:
os.remove(file_path)

View File

@ -57,3 +57,4 @@ class TestPhysicsFactory(TestCase):
self.assertIsNotNone(thermal_boundary.outside_solar_absorptance, 'outside_solar_absorptance is none') self.assertIsNotNone(thermal_boundary.outside_solar_absorptance, 'outside_solar_absorptance is none')
self.assertIsNotNone(thermal_boundary.window_ratio, 'window_ratio is none') self.assertIsNotNone(thermal_boundary.window_ratio, 'window_ratio is none')
self.assertIsNotNone(thermal_boundary.layers, 'layers is none') self.assertIsNotNone(thermal_boundary.layers, 'layers is none')
print(thermal_boundary.construction_name)

View File

@ -1,808 +0,0 @@
<?xml version="1.0" encoding="utf-8"?>
<archetypes reference_library_building_type="us_library" >
<archetype id="1" building_type="small office" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.21</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="5" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">2</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.5</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="2" building_type="medium office" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.33</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.34</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="3" building_type="large office" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.38</window_ratio>
<window>4</window>
</construction>
<construction id="18" type="interior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.34</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="4" building_type="primary school" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.35</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0.0019</window_ratio>
<window>2</window>
</construction>
</constructions>
<average_storey_height units="m">3.96</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="5" building_type="secondary school" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.33</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0.0068</window_ratio>
<window>2</window>
</construction>
</constructions>
<average_storey_height units="m">3.96</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="6" building_type="stand-alone retail" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.07</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0.0064</window_ratio>
<window>2</window>
</construction>
</constructions>
<average_storey_height units="m">6.1</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="7" building_type="strip mall" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">5.18</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="8" building_type="supermarket" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">6.1</average_storey_height>
<number_of_storeys units="-">1</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="9" building_type="quick service restaurant" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="3" type="exterior wall" >
<window_ratio units="-">0.14</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="5" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="10" building_type="full service restaurant" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.17</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="5" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="11" building_type="small hotel" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="12" building_type="large hotel" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.3</window_ratio>
<window>4</window>
</construction>
<construction id="18" type="interior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="13" building_type="hospital" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="13" type="exterior wall" >
<window_ratio units="-">0.15</window_ratio>
<window>4</window>
</construction>
<construction id="18" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">4.27</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="14" building_type="outpatient healthcare" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.2</window_ratio>
<window>4</window>
</construction>
<construction id="21" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="15" building_type="warehouse" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="24" type="exterior wall" >
<window_ratio units="-">0.006</window_ratio>
<window>4</window>
</construction>
<construction id="20" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="14" type="roof" >
<window_ratio units="-">.0032</window_ratio>
<window>2</window>
</construction>
</constructions>
<average_storey_height units="m">8.53</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="16" building_type="midrise apartment" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.15</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="17" building_type="high-rise apartment" reference_standard="ASHRAE 90.1_2004" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="19" type="exterior wall" >
<window_ratio units="-">0.3</window_ratio>
<window>4</window>
</construction>
<construction id="22" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="17" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.15</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.50</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="18" building_type="small office" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.21</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="4" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">2</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="19" building_type="medium office" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.33</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.34</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="20" building_type="large office" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.38</window_ratio>
<window>3</window>
</construction>
<construction id="1" type="interior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.34</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="21" building_type="primary school" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.35</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0.0019</window_ratio>
<window>1</window>
</construction>
</constructions>
<average_storey_height units="m">3.96</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="22" building_type="secondary school" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.33</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0.0068</window_ratio>
<window>1</window>
</construction>
</constructions>
<average_storey_height units="m">3.96</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="23" building_type="stand-alone retail" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.07</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0.0064</window_ratio>
<window>1</window>
</construction>
</constructions>
<average_storey_height units="m">6.1</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="24" building_type="strip mall" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">5.18</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.1</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="25" building_type="supermarket" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">6.1</average_storey_height>
<number_of_storeys units="-">1</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="26" building_type="quick service restaurant" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="16" type="exterior wall" >
<window_ratio units="-">0.14</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="4" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="27" building_type="full service restaurant" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.17</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="4" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="28" building_type="small hotel" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.11</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="29" building_type="large hotel" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.3</window_ratio>
<window>3</window>
</construction>
<construction id="1" type="interior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="30" building_type="hospital" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="2" type="exterior wall" >
<window_ratio units="-">0.15</window_ratio>
<window>3</window>
</construction>
<construction id="1" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">4.27</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">130</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="31" building_type="outpatient healthcare" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.2</window_ratio>
<window>3</window>
</construction>
<construction id="10" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="32" building_type="warehouse" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="23" type="exterior wall" >
<window_ratio units="-">0.006</window_ratio>
<window>3</window>
</construction>
<construction id="7" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="11" type="roof" >
<window_ratio units="-">.0032</window_ratio>
<window>1</window>
</construction>
</constructions>
<average_storey_height units="m">8.53</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="33" building_type="midrise apartment" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.15</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="34" building_type="high-rise apartment" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.3</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
<archetype id="35" building_type="residential" reference_standard="ASHRAE 189.1_2009" climate_zone="ASHRAE_2004:4A">
<constructions>
<construction id="15" type="exterior wall" >
<window_ratio units="-">0.3</window_ratio>
<window>3</window>
</construction>
<construction id="12" type="exterior slab">
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
<construction id="9" type="roof" >
<window_ratio units="-">0</window_ratio>
<window/>
</construction>
</constructions>
<average_storey_height units="m">3.05</average_storey_height>
<number_of_storeys units="-">3</number_of_storeys>
<thermal_capacity units="kJ/K m2">90</thermal_capacity>
<extra_loses_due_to_thermal_bridges units="W/K m2">0.05</extra_loses_due_to_thermal_bridges>
<indirect_heated_ratio units="-">0.15</indirect_heated_ratio>
<infiltration_rate_for_ventilation_system_off units="ACH">0.10</infiltration_rate_for_ventilation_system_off>
<infiltration_rate_for_ventilation_system_on units="ACH">0</infiltration_rate_for_ventilation_system_on>
</archetype>
</archetypes>

View File

@ -1,606 +0,0 @@
<?xml version="1.0" encoding="utf-8"?>
<library name="us_library">
<windows>
<window type="skylight" id="1" name="189.1-2009 Nonres 4B Skylight without Curb">
<shgc>0.32</shgc>
<frame_ratio units="-">0</frame_ratio>
<thickness units="m">0.003</thickness>
<solar_transmittance_at_normal_incidence units="-">0.301483</solar_transmittance_at_normal_incidence>
<front_side_solar_transmittance_at_normal_incidence units="-">0.648517</front_side_solar_transmittance_at_normal_incidence>
<back_side_solar_transmittance_at_normal_incidence units="-">0.648517</back_side_solar_transmittance_at_normal_incidence>
<conductivity units="W/m K">0.0133144</conductivity>
</window>
<window type="skylight" id="2" name="90.1-2004 Nonres 4B Skylight without Curb">
<shgc>0.49</shgc>
<frame_ratio units="-">0</frame_ratio>
<thickness units="m">0.003</thickness>
<solar_transmittance_at_normal_incidence units="-">0.481761</solar_transmittance_at_normal_incidence>
<front_side_solar_transmittance_at_normal_incidence units="-">0.468239</front_side_solar_transmittance_at_normal_incidence>
<back_side_solar_transmittance_at_normal_incidence units="-">0.468239</back_side_solar_transmittance_at_normal_incidence>
<conductivity units="W/m K">0.03026</conductivity>
</window>
<window type="window" id="3" name="189.1-2009 Nonres 4B Window Nonmetal framing">
<shgc>0.35</shgc>
<frame_ratio units="-">0</frame_ratio>
<thickness units="m">0.003</thickness>
<solar_transmittance_at_normal_incidence units="-">0.328881</solar_transmittance_at_normal_incidence>
<front_side_solar_transmittance_at_normal_incidence units="-">0.621119</front_side_solar_transmittance_at_normal_incidence>
<back_side_solar_transmittance_at_normal_incidence units="-">0.621119</back_side_solar_transmittance_at_normal_incidence>
<conductivity units="W/m K">0.0071399</conductivity>
</window>
<window type="window" id="4" name="90.1-2004 Nonres 4B Window Fixed">
<shgc>0.36</shgc>
<frame_ratio units="-">0</frame_ratio>
<thickness units="m">0.003</thickness>
<solar_transmittance_at_normal_incidence units="-">0.354957</solar_transmittance_at_normal_incidence>
<front_side_solar_transmittance_at_normal_incidence units="-">0.595043</front_side_solar_transmittance_at_normal_incidence>
<back_side_solar_transmittance_at_normal_incidence units="-">0.595043</back_side_solar_transmittance_at_normal_incidence>
<conductivity units="W/m K">0.0134755</conductivity>
</window>
</windows>
<materials>
<material id="1" name="MAT-CC05 8 HW CONCRETE">
<conductivity units="W/m K">1.311</conductivity>
<density units="kg/m3">2240</density>
<specific_heat units="J/kg K">836.8</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="2" name="CP02 CARPET PAD">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.21648</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.8</visible_absorptance>
</material>
<material id="3" name="Floor Insulation [4]">
<conductivity units="W/m K">0.045</conductivity>
<density units="kg/m3">265</density>
<specific_heat units="J/kg K">836.8</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="4" name="1IN Stucco">
<conductivity units="W/m K">0.6918</conductivity>
<density units="kg/m3">1858</density>
<specific_heat units="J/kg K">837</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.92</solar_absorptance>
<visible_absorptance units="-">0.92</visible_absorptance>
</material>
<material id="5" name="8IN Concrete HW">
<conductivity units="W/m K">1.7296</conductivity>
<density units="kg/m3">2243</density>
<specific_heat units="J/kg K">837</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.65</solar_absorptance>
<visible_absorptance units="-">0.65</visible_absorptance>
</material>
<material id="6" name="Wall Insulation [37]">
<conductivity units="W/m K">0.0432</conductivity>
<density units="kg/m3">91</density>
<specific_heat units="J/kg K">837</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.5</solar_absorptance>
<visible_absorptance units="-">0.5</visible_absorptance>
</material>
<material id="7" name="1/2IN Gypsum">
<conductivity units="W/m K">0.16</conductivity>
<density units="kg/m3">784.9</density>
<specific_heat units="J/kg K">830</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.92</solar_absorptance>
<visible_absorptance units="-">0.92</visible_absorptance>
</material>
<material id="8" name="Wood Siding">
<conductivity units="W/m K">0.11</conductivity>
<density units="kg/m3">544.62</density>
<specific_heat units="J/kg K">1210</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.78</solar_absorptance>
<visible_absorptance units="-">0.78</visible_absorptance>
</material>
<material id="9" name="Wood Shingles">
<conductivity units="W/m K">0.115</conductivity>
<density units="kg/m3">513</density>
<specific_heat units="J/kg K">1255</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.78</solar_absorptance>
<visible_absorptance units="-">0.78</visible_absorptance>
</material>
<material id="10" name="1IN Wood Decking">
<conductivity units="W/m K">0.1211</conductivity>
<density units="kg/m3">593</density>
<specific_heat units="J/kg K">2510</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.78</solar_absorptance>
<visible_absorptance units="-">0.78</visible_absorptance>
</material>
<material id="11" name="Roof Insulation [23]">
<conductivity units="W/m K">0.049</conductivity>
<density units="kg/m3">265</density>
<specific_heat units="J/kg K">836.8</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="12" name="MAT-SHEATH">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.36256</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="13" name="MAT-SHEATH">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.36256</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="14" name="Metal Decking">
<conductivity units="W/m K">45.006</conductivity>
<density units="kg/m3">7680</density>
<specific_heat units="J/kg K">418.4</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.3</visible_absorptance>
</material>
<material id="15" name="Roof Membrane">
<conductivity units="W/m K">0.16</conductivity>
<density units="kg/m3">1121.29</density>
<specific_heat units="J/kg K">1460</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="16" name="CP02 CARPET PAD">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.21648</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.8</visible_absorptance>
</material>
<material id="17" name="MAT-SHEATH">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.36256</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="18" name="CP02 CARPET PAD">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.21648</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.8</visible_absorptance>
</material>
<material id="19" name="MAT-SHEATH">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.36256</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="20" name="CP02 CARPET PAD">
<no_mass>true</no_mass>
<thermal_resistance units="m2 K/W">0.21648</thermal_resistance>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.8</visible_absorptance>
</material>
<material id="21" name="Wall Insulation [38]">
<conductivity units="W/m K">0.045</conductivity>
<density units="kg/m3">265</density>
<specific_heat units="J/kg K">836.8</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.7</solar_absorptance>
<visible_absorptance units="-">0.7</visible_absorptance>
</material>
<material id="22" name="metal siding">
<conductivity units="W/m K">44.96</conductivity>
<density units="kg/m3">7688.86</density>
<specific_heat units="J/kg K">410</specific_heat>
<thermal_absorptance units="-">0.9</thermal_absorptance>
<solar_absorptance units="-">0.2</solar_absorptance>
<visible_absorptance units="-">0.2</visible_absorptance>
</material>
</materials>
<constructions>
<construction type="exterior slab" id="1" name="189.1-2009 Nonres 4B Exposed Floor Mass">
<layers>
<layer id="1" name="Layer 1">
<material>3</material>
<thickness units="m">0.0795397</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>1</material>
<thickness units="m">0.20321</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>2</material>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="2" name="189.1-2009 Nonres 4B Ext Wall Mass">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>4</material>
<thickness units="m">0.0253</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>5</material>
<thickness units="m">0.2033</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>6</material>
<thickness units="m">0.0680962</thickness>
</layer>
<layer id="4" name="Layer 4">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="3" name="90.1-2004 Nonres 4B Ext Wall Wood-Framed and Other">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>8</material>
<thickness units="m">0.01</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.0746874</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="4" name="189.1-2009 Nonres 4B Roof Attic and Other">
<outside_solar_absorptance units="-">0.78</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.78</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>9</material>
<thickness units="m">0.0178</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>10</material>
<thickness units="m">0.0254</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>11</material>
<thickness units="m">0.375211</thickness>
</layer>
<layer id="4" name="Layer 4">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="5" name="90.1-2004 Nonres 4B Roof Attic and Other">
<outside_solar_absorptance units="-">0.78</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.78</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>9</material>
<thickness units="m">0.0178</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>10</material>
<thickness units="m">0.0254</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>11</material>
<thickness units="m">0.221604</thickness>
</layer>
<layer id="4" name="Layer 4">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="6" name="189.1-2009 Nonres 4B Ext Wall Steel-Framed">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>12</material>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.118387</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="7" name="189.1-2009 Nonres 4B Ext Slab Unheated - 8in Slab without Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.20321</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="8" name="90.1-2004 Nonres 4B Ext Wall Steel-Framed">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>13</material>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.0373223</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="9" name="189.1-2009 Nonres 4B Roof IEAD">
<outside_solar_absorptance units="-">0.7</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.7</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>15</material>
<thickness units="m">0.0095</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>11</material>
<thickness units="m">0.210538</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>14</material>
<thickness units="m">0.001524</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="10" name="189.1-2009 Nonres 4B Ext Slab Unheated - 4in Slab without Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.1016</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="11" name="189.1-2009 Nonres 4B Roof Metal Building">
<outside_solar_absorptance units="-">0.7</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.3</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>14</material>
<thickness units="m">0.001524</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>11</material>
<thickness units="m">0.23578</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="12" name="189.1-2009 Nonres 4B Ext Slab Unheated - 4in Slab with Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.1016</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>16</material>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="13" name="90.1-2004 Nonres 4B Ext Wall Mass">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>4</material>
<thickness units="m">0.0253</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>5</material>
<thickness units="m">0.2033</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>6</material>
<thickness units="m">0.0338606</thickness>
</layer>
<layer id="4" name="Layer 4">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="14" name="90.1-2004 Nonres 4B Roof Metal Building">
<outside_solar_absorptance units="-">0.7</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.3</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>14</material>
<thickness units="m">0.001524</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>11</material>
<thickness units="m">0.123533</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="15" name="189.1-2009 Res 4B Ext Wall Steel-Framed">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>17</material>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.118387</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="16" name="189.1-2009 Nonres 4B Ext Wall Wood-Framed and Other">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>8</material>
<thickness units="m">0.01</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.110422</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="roof" id="17" name="90.1-2004 Nonres 4B Roof IEAD">
<outside_solar_absorptance units="-">0.7</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.7</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>15</material>
<thickness units="m">0.0095</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>11</material>
<thickness units="m">0.124958</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>14</material>
<thickness units="m">0.001524</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="18" name="90.1-2004 Nonres 4B Exposed Floor Mass">
<layers>
<layer id="1" name="Layer 1">
<material>3</material>
<thickness units="m">0.0463846</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>1</material>
<thickness units="m">0.20321</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>18</material>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="19" name="90.1-2004 Res 4B Ext Wall Steel-Framed">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>19</material>
</layer>
<layer id="2" name="Layer 2">
<material>3</material>
<thickness units="m">0.0971136</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="20" name="90.1-2004 Nonres 4B Ext Slab Unheated - 8in Slab without Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.20321</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="21" name="90.1-2004 Nonres 4B Ext Slab Unheated - 4in Slab without Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.1016</thickness>
</layer>
</layers>
</construction>
<construction type="exterior slab" id="22" name="90.1-2004 Nonres 4B Ext Slab Unheated - 4in Slab with Carpet">
<layers>
<layer id="1" name="Layer 1">
<material>1</material>
<thickness units="m">0.1016</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>20</material>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="23" name="189.1-2009 Nonres 4B Ext Wall Metal Building">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>22</material>
<thickness units="m">0.0015</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>21</material>
<thickness units="m">0.139618</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
<construction type="exterior wall" id="24" name="90.1-2004 Nonres 4B Ext Wall Metal Building">
<outside_solar_absorptance units="-">0.92</outside_solar_absorptance>
<outside_thermal_absorptance units="-">0.9</outside_thermal_absorptance>
<outside_visible_absorptance units="-">0.92</outside_visible_absorptance>
<layers>
<layer id="1" name="Layer 1">
<material>22</material>
<thickness units="m">0.0015</thickness>
</layer>
<layer id="2" name="Layer 2">
<material>21</material>
<thickness units="m">0.0598725</thickness>
</layer>
<layer id="3" name="Layer 3">
<material>7</material>
<thickness units="m">0.01271</thickness>
</layer>
</layers>
</construction>
</constructions>
</library>