<windowCatalogname="German Building Typology Library IWU"description="Window catalog from German Building Typology Library IWU"source="http://www.iwu.de">
<buildphys:BuildingPhysicsCatalogxmi:version="2.0"xmlns:xmi="http://www.omg.org/XMI"xmlns:buildphys="http://www.hftstuttgart.de/buildingphysics"name="German Building Typology Library IWU"description="Update: 27.02.2018 / inspired from Deutsche Gebaeudetypologie, Institut Wohnen und Umwelt (2003 and 2011), including the EnEV2016 standards.
Update: 27.06.2019 Verena Weiler : window ratio calculated from reference building types' area for walls and windows from IWU 2015."source="http://www.iwu.de">
<windows>
<windowTypeswindowTypeId="window_0"name="Double-glazed window with old wooden/aluminum frame"uValue="3.2 W/(m²·K)"gValue="0.76"glazingNumber="2"frameRatio="0.3"embodiedEnergy="809.02 kW·h/m²"embodiedCarbon="143.4 kg"constructionDescription="double glazing with old wooden/aluminum frame, produced in Germany, transportation 50 km "disposalEnergy="5.16 kW·h/m²"disposalCarbon="1.5 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_1"name="Double-glazed window with plastic frame"uValue="2.57 W/(m²·K)"gValue="0.76"glazingNumber="2"frameRatio="0.3"embodiedEnergy="577.53 kW·h/m²"embodiedCarbon="106.92 kg"constructionDescription="double glazing with plastic frame, produced in Germany, transportation 50 km "disposalEnergy="4.48 kW·h/m²"disposalCarbon="2.26 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_2"name="Low-E double-glazed window"uValue="1.6 W/(m²·K)"gValue="0.63"glazingNumber="2"frameRatio="0.3"embodiedEnergy="628.89 kW·h/m²"embodiedCarbon="81.57 kg"constructionDescription="double glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="3.97 kW·h/m²"disposalCarbon="4.48 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
...
...
@@ -9,8 +9,7 @@
<windowTypeswindowTypeId="window_5"name="Low-E triple-glazed window KfW 40"uValue="0.91 W/(m²·K)"gValue="0.5"glazingNumber="3"frameRatio="0.3"embodiedEnergy="694.42 kW·h/m²"embodiedCarbon="98.5 kg"constructionDescription="triple glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="4.56 kW·h/m²"disposalCarbon="4.93 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_6"name="Low-E triple-glazed window KfW 55"uValue="0.91 W/(m²·K)"gValue="0.5"glazingNumber="3"frameRatio="0.3"embodiedEnergy="694.42 kW·h/m²"embodiedCarbon="98.5 kg"constructionDescription="triple glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="4.56 kW·h/m²"disposalCarbon="4.93 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialCatalogname="German Building Typology Library IWU"description="Construction catalog from German Building Typology Library IWU"source="http://www.iwu.de">
</windows>
<materialCategoriesname="Brick">
<materialsmaterialId="material_0"name="Solid brick"density="2000 kg/m³"heatCapacity="840 J/K"conductivity="0.96 W/(m·K)"embodiedEnergy="0.8 kW·h/kg"embodiedCarbon="0.25 kg"constructionDescription="solid brick made of clay, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowCatalogname="German Building Typology Library IWU"description="Window catalog from German Building Typology Library IWU"source="http://www.iwu.de">
<windowTypeswindowTypeId="window_0"name="Double-glazed window with old wooden/aluminum frame"uValue="3.2 W/(m²·K)"gValue="0.76"glazingNumber="2"frameRatio="0.3"embodiedEnergy="809.02 kW·h/m²"embodiedCarbon="143.4 kg"constructionDescription="double glazing with old wooden/aluminum frame, produced in Germany, transportation 50 km "disposalEnergy="5.16 kW·h/m²"disposalCarbon="1.5 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_1"name="Double-glazed window with plastic frame"uValue="2.57 W/(m²·K)"gValue="0.76"glazingNumber="2"frameRatio="0.3"embodiedEnergy="577.53 kW·h/m²"embodiedCarbon="106.92 kg"constructionDescription="double glazing with plastic frame, produced in Germany, transportation 50 km "disposalEnergy="4.48 kW·h/m²"disposalCarbon="2.26 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_2"name="Low-E double-glazed window"uValue="1.6 W/(m²·K)"gValue="0.63"glazingNumber="2"frameRatio="0.3"embodiedEnergy="628.89 kW·h/m²"embodiedCarbon="81.57 kg"constructionDescription="double glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="3.97 kW·h/m²"disposalCarbon="4.48 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_3"name="Low-E double-glazed window EnEV2016"uValue="1.3 W/(m²·K)"gValue="0.6"glazingNumber="2"frameRatio="0.3"embodiedEnergy="628.89 kW·h/m²"embodiedCarbon="81.57 kg"constructionDescription="double glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="3.97 kW·h/m²"disposalCarbon="4.48 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_4"name="Low-E triple-glazed window"uValue="1.05 W/(m²·K)"gValue="0.5"glazingNumber="3"frameRatio="0.3"embodiedEnergy="694.42 kW·h/m²"embodiedCarbon="98.5 kg"constructionDescription="triple glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="4.56 kW·h/m²"disposalCarbon="4.93 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_5"name="Low-E triple-glazed window KfW 40"uValue="0.91 W/(m²·K)"gValue="0.5"glazingNumber="3"frameRatio="0.3"embodiedEnergy="694.42 kW·h/m²"embodiedCarbon="98.5 kg"constructionDescription="triple glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="4.56 kW·h/m²"disposalCarbon="4.93 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<windowTypeswindowTypeId="window_6"name="Low-E triple-glazed window KfW 55"uValue="0.91 W/(m²·K)"gValue="0.5"glazingNumber="3"frameRatio="0.3"embodiedEnergy="694.42 kW·h/m²"embodiedCarbon="98.5 kg"constructionDescription="triple glazing with wooden frame, produced in Germany, transportation 50 km "disposalEnergy="4.56 kW·h/m²"disposalCarbon="4.93 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialCatalogname="German Building Typology Library IWU"description="Construction catalog from German Building Typology Library IWU"source="http://www.iwu.de">
<materialCategoriesname="Brick">
<materialsmaterialId="material_0"name="Solid brick"density="2000 kg/m³"heatCapacity="840 J/K"conductivity="0.96 W/(m·K)"embodiedEnergy="0.8 kW·h/kg"embodiedCarbon="0.25 kg"constructionDescription="solid brick made of clay, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_2"name="Honeycomb brick"density="1120 kg/m³"heatCapacity="790 J/K"conductivity="0.3 W/(m·K)"embodiedEnergy="0.77 kW·h/kg"embodiedCarbon="0.14 kg"constructionDescription="light clay brick, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_3"name="Inner leaf brick"density="1800 kg/m³"heatCapacity="840 J/K"conductivity="0.62 W/(m·K)"embodiedEnergy="1.1 kW·h/kg"embodiedCarbon="0.95 kg"constructionDescription="made of portland clinker, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_4"name="Outer leaf brick"density="2000 kg/m³"heatCapacity="650 J/K"conductivity="0.96 W/(m·K)"embodiedEnergy="1.1 kW·h/kg"embodiedCarbon="0.95 kg"constructionDescription="made of portland clinker, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_21"name="Glasswool"density="250 kg/m³"heatCapacity="840 J/K"conductivity="0.04 W/(m·K)"embodiedEnergy="2.98 kW·h/kg"embodiedCarbon="0.54 kg"constructionDescription="glaswool mat for insulation, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_26"name="Foamed glass"density="125 kg/m³"heatCapacity="833 J/K"conductivity="0.05 W/(m·K)"embodiedEnergy="9.04 kW·h/kg"embodiedCarbon="2.04 kg"constructionDescription="foamed glass, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_27"name="Cellulose (loose fill)"density="300 kg/m³"heatCapacity="1000 J/K"conductivity="0.037 W/(m·K)"embodiedEnergy="2.98 kW·h/kg"embodiedCarbon="0.54 kg"constructionDescription="cellulose loose fill including blow in, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_41"name="Gypsum plasterboard"density="950 kg/m³"heatCapacity="833 J/K"conductivity="0.16 W/(m·K)"embodiedEnergy="1.61 kW·h/kg"embodiedCarbon="0.43 kg"constructionDescription="produced from 100% natural gypsum, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_43"name="Gypsum plastering"density="1200 kg/m³"heatCapacity="833 J/K"conductivity="0.42 W/(m·K)"embodiedEnergy="0.3 kW·h/kg"embodiedCarbon="0.07 kg"constructionDescription="gypsum plastering made of gypsum, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_51"name="Gravel"density="1840 kg/m³"heatCapacity="833 J/K"conductivity="0.36 W/(m·K)"embodiedEnergy="0.08 kW·h/kg"embodiedCarbon="0.02 kg"constructionDescription="gravel, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_53"name="Pumice stone"density="1280 kg/m³"heatCapacity="840 J/K"conductivity="0.53 W/(m·K)"embodiedEnergy="0.44 kW·h/kg"embodiedCarbon="0.24 kg"constructionDescription="light weight concrete block - pumice, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_54"name="Sand"density="1500 kg/m³"heatCapacity="830 J/K"conductivity="0.2 W/(m·K)"embodiedEnergy="0.05 kW·h/kg"embodiedCarbon="0.01 kg"constructionDescription="sand, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_55"name="Cinder aggregate"density="1000 kg/m³"heatCapacity="800 J/K"conductivity="0.4 W/(m·K)"embodiedEnergy="0.04 kW·h/kg"embodiedCarbon="0.01 kg"constructionDescription="ground granulated plast furnace slag, produced in Germany, transportation 50 km"disposalEnergy="0.07 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_59"name="Cement screed"density="2100 kg/m³"heatCapacity="650 J/K"conductivity="1.4 W/(m·K)"embodiedEnergy="0.36 kW·h/kg"embodiedCarbon="0.2 kg"constructionDescription=" cement is portland cement, strength class Z 42.5, produced in Germany, transportation 50 km"disposalEnergy="0.12 kW·h/kg"disposalCarbon="0.02 kg"disposalDescription="100% sent to material landfill, transportation 50 km"/>
<materialsmaterialId="material_89"name="Hardwood (oak, mapple, walnut...)"density="700 kg/m³"heatCapacity="1412 J/K"conductivity="0.15 W/(m·K)"embodiedEnergy="1.59 kW·h/kg"embodiedCarbon="0.03 kg"constructionDescription="sawing of hardwood, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.08 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_92"name="Fibreboard"density="300 kg/m³"heatCapacity="1000 J/K"conductivity="0.06 W/(m·K)"embodiedEnergy="5.23 kW·h/kg"embodiedCarbon="1.2 kg"constructionDescription="fibreboard soft without adhesives, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.08 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
</materialCategories>
<materialCategoriesname="Others">
<materialsmaterialId="material_93"name="Loam"density="1280 kg/m³"heatCapacity="1000 J/K"conductivity="0.55 W/(m·K)"embodiedEnergy="0.06 kW·h/kg"embodiedCarbon="0.01 kg"constructionDescription="market for clay, produced in Germany, transportation 50 km"disposalEnergy="0.08 kW·h/kg"disposalCarbon="0.01 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<materialsmaterialId="material_94"name="Air layer (horizontal 10cm)"density="1.2 kg/m³"heatCapacity="1400 J/K"conductivity="0.45 W/(m·K)"embodiedEnergy="<unknown> one"embodiedCarbon="<unknown> one"constructionDescription="air layer inbetween different construction types"disposalEnergy="<unknown> one"disposalCarbon="<unknown> one"disposalDescription="no disposal for air layer"/>
<materialsmaterialId="material_95"name="Air layer (vertical 10cm)"density="1.2 kg/m³"heatCapacity="1400 J/K"conductivity="0.55 W/(m·K)"embodiedEnergy="<unknown> one"embodiedCarbon="<unknown> one"constructionDescription="air layer inbetween different construction types"disposalEnergy="<unknown> one"disposalCarbon="<unknown> one"disposalDescription="no disposal for air layer"/>
<materialsmaterialId="material_96"name="Rafters with glasswool insulation"density="288 kg/m³"heatCapacity="1032 J/K"conductivity="0.05 W/(m·K)"embodiedEnergy="15.18 kW·h/kg"embodiedCarbon="0.71 kg"constructionDescription="ratio 80/20 Vol.-% (glasswool/rafters), glued laminated timber used as rafters, produced in Germany, transportation 50 km"disposalEnergy="0.11 kW·h/kg"disposalCarbon="0.06 kg"disposalDescription="100% sent to landfill, transportation 50 km"/>
<ownedRepresentationDescriptorsxmi:type="viewpoint:DRepresentationDescriptor"uid="_JKPtIZUqEeudooziRGqkJA"name="Buildingphysics Class Diagram"repPath="#_JKN38JUqEeudooziRGqkJA"changeId="71726de9-de49-46bf-ba79-c7575f2c14bd">
<ownedRepresentationDescriptorsxmi:type="viewpoint:DRepresentationDescriptor"uid="_JKPtIZUqEeudooziRGqkJA"name="Buildingphysics Class Diagram"repPath="#_JKN38JUqEeudooziRGqkJA"changeId="938342a3-345d-40bf-9732-a7d354ccd5c3">
* Sets the value of the '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getWindowCatalog <em>Window Catalog</em>}' containment reference.
* Sets the value of the '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getDescription <em>Description</em>}' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @param value the new value of the '<em>Window Catalog</em>' containment reference.
* @see #getWindowCatalog()
* @param value the new value of the '<em>Description</em>' attribute.
* @see #getDescription()
* @generated
*/
voidsetWindowCatalog(WindowCatalogvalue);
voidsetDescription(Stringvalue);
/**
* Returns the value of the '<em><b>Material Catalog</b></em>' containment reference.
* Returns the value of the '<em><b>Source</b></em>' attribute.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the value of the '<em>Material Catalog</em>' containment reference.
* Sets the value of the '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getMaterialCatalog <em>Material Catalog</em>}' containment reference.
* Returns the value of the '<em><b>Material Categories</b></em>' containment reference list.
* The list contents are of type {@link de.hftstuttgart.buildingphysics.MaterialCategory}.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @param value the new value of the '<em>Material Catalog</em>' containment reference.
* @see #getMaterialCatalog()
* @return the value of the '<em>Material Categories</em>' containment reference list.
* Returns the meta object for the containment reference '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getWindowCatalog <em>Window Catalog</em>}'.
* Returns the meta object for the attribute '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getSource <em>Source</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference '<em>Window Catalog</em>'.
* Returns the meta object for the containment reference '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getMaterialCatalog <em>Material Catalog</em>}'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getConstructionCategories <em>Construction Categories</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference '<em>Material Catalog</em>'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.BuildingPhysicsCatalog#getMaterialCategories <em>Material Categories</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference list '<em>Material Categories</em>'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.WindowCatalog#getWindowTypes <em>Window Types</em>}'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.WindowCategory#getWindowTypes <em>Window Types</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference list '<em>Window Types</em>'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.MaterialCatalog#getMaterialCategories <em>Material Categories</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference list '<em>Material Categories</em>'.
* Returns the meta object for the containment reference list '{@link de.hftstuttgart.buildingphysics.MaterialCatalog#getConstructionCategories <em>Construction Categories</em>}'.
* <!-- begin-user-doc -->
* <!-- end-user-doc -->
* @return the meta object for the containment reference list '<em>Construction Categories</em>'.