// hardcoded default library public static Library getHardCodedDefaultLib() { Library Library = new Library(); #region DEFAULTS - MUST BE IN LIBRARY OpaqueMaterial defaultMat = new OpaqueMaterial() { Name ="defaultMat", Category ="Concrete", Conductivity= 2.30, Density =2400, SpecificHeat=840, ThermalEmittance=0.9, SolarAbsorptance= 0.7, VisibleAbsorptance=0.7 }; Library.Add(defaultMat); GlazingMaterial defaultGMat = new GlazingMaterial() { Name = "defaultGlazingMat", Type= "Uncoated", Conductivity = 0.9, Density= 2500, SolarTransmittance =0.68, SolarReflectanceFront =0.09, SolarReflectanceBack=0.10, VisibleTransmittance=0.81, VisibleReflectanceFront=0.11, VisibleReflectanceBack=0.12, IRTransmittance=0.00, IREmissivityFront=0.84, IREmissivityBack=0.20 }; Library.Add( defaultGMat); Layer<OpaqueMaterial> defaultLay = new Layer<OpaqueMaterial>(0.25, defaultMat); OpaqueConstruction defaultConstruction = new OpaqueConstruction(); defaultConstruction.Layers.Add(defaultLay); defaultConstruction.Name = "defaultConstruction"; defaultConstruction.Type = ConstructionTypes.Facade;// "Facade"; Library.Add( defaultConstruction); Layer<WindowMaterialBase> defaultGLay = new Layer<WindowMaterialBase>(0.006, defaultGMat); GlazingConstruction defaultGlazing = new GlazingConstruction(); defaultGlazing.Layers.Add(defaultGLay); defaultGlazing.Name = "defaultGlazing"; defaultGlazing.Type = GlazingConstructionTypes.Single;// "Single"; Library.Add( defaultGlazing); //AIRWALL GlazingMaterial AirWallMat = new GlazingMaterial() { Name = "100TRANS", Type = "uncoated", Conductivity = 5, Density = 0.0001, SolarTransmittance = 0.99, SolarReflectanceFront = 0.005, SolarReflectanceBack = 0.005, VisibleTransmittance = 0.99, VisibleReflectanceFront = 0.005, VisibleReflectanceBack = 0.005, IRTransmittance = 0.99, IREmissivityFront = 0.005, IREmissivityBack = 0.005 }; Library.Add(AirWallMat); Layer<WindowMaterialBase> airwallLayer = new Layer<WindowMaterialBase>(0.003, AirWallMat); GlazingConstruction airWall = new GlazingConstruction(); airWall.Layers.Add(airwallLayer); airWall.Name = "Airwall"; airWall.Type = GlazingConstructionTypes.Other;// "Other"; Library.Add( airWall); //---------------------------------------------------------------------------------gases // add all possible gas materials to GasMaterials // string[] gases = { "AIR", "ARGON", "KRYPTON", "XENON", "SF6" }; Library.GasMaterials.Clear(); foreach (var s in Enum.GetValues(typeof(GasTypes)).Cast<GasTypes>()) { Library.GasMaterials.Add(new GasMaterial(s)); } int[] MonthFrom = { 1 }; int[] DayFrom = { 1 }; int[] MonthTo = { 12 }; int[] DayTo = { 31 }; double[] hourlyAllOnArr = { 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; YearSchedule.QuickSchedule("AllOn", hourlyAllOnArr, "Fraction", "Default Library", ref Library); double[] hourlyAllOffArr = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; YearSchedule.QuickSchedule("AllOff", hourlyAllOffArr, "Fraction", "Default Library", ref Library); Library.Add(new ZoneLoad() { Name = "Off", PeopleIsOn = false, EquipmentIsOn = false , LightsIsOn = false, PeopleDensity = 0, IlluminanceTarget = 0, LightingPowerDensity = 0, EquipmentPowerDensity = 0, OccupancySchedule = "AllOn", EquipmentAvailibilitySchedule = "AllOn", LightsAvailibilitySchedule = "AllOn", Category = "Default", DataSource = "Default" }); Library.Add(new ZoneConditioning() { Name = "Off", HeatIsOn=false, CoolIsOn =false, MechVentIsOn = false, HeatingSetpoint = 19, CoolingSetpoint = 26, MinFreshAirPerson = 0, MinFreshAirArea = 0, Category = "Default" }); Library.Add(new ZoneVentilation() { Name = "Off", InfiltrationIsOn = false, InfiltrationAch = 0.15, InfiltrationModel = InfiltrationModel.Wind, Category = "Infiltration" }); Library.Add(new DomHotWater() { Name = "Off", IsOn = false, FlowRatePerFloorArea = 0, WaterSchedule = "AllOn", WaterTemperatureInlet = 10, WaterSupplyTemperature = 60 }); Library.Add(new ZoneConstruction() { Name = "Default", RoofConstruction = "defaultConstruction", FacadeConstruction = "defaultConstruction", SlabConstruction = "defaultConstruction", GroundConstruction = "defaultConstruction", PartitionConstruction = "defaultConstruction" }); #endregion #region OpaqueMaterialsWithEEIndicators Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Pine wood", Category = @"Timber", Conductivity = 0.13, Density = 520, SpecificHeat = 1600, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Douglas fir", Category = @"Timber", Conductivity = 0.12, Density = 530, SpecificHeat = 1600, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Oak", Category = @"Timber", Conductivity = 0.18, Density = 690, SpecificHeat = 2400, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Spruce", Category = @"Timber", Conductivity = 0.13, Density = 450, SpecificHeat = 1600, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Larch", Category = @"Timber", Conductivity = 0.13, Density = 460, SpecificHeat = 1600, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Oriented strand board", Category = @"Timber", Conductivity = 0.13, Density = 650, SpecificHeat = 1700, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 15, EmbodiedCarbon = 0.96, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.45fos + 0.54 bio- embodied carbon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Medium density fiberboard", Category = @"Timber", Conductivity = 0.09, Density = 500, SpecificHeat = 1700, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 11, EmbodiedCarbon = 0.72, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.39fos + 0.35bio- embodied carbon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Chipboard", Category = @"Timber", Conductivity = 0.14, Density = 650, SpecificHeat = 1800, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE (0.39fos + 0.35bio- embodied carbon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"General Concrete", Category = @"Concrete", Conductivity = 2, Density = 2400, SpecificHeat = 950, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 0.75, EmbodiedCarbon = 0.1, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA ICE, General Concrete data]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Concrete reinforced 20-30 MPa", Category = @"Concrete", Conductivity = 2, Density = 2400, SpecificHeat = 950, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 0.75, EmbodiedCarbon = 0.1, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] General concrete data used for density through visible absorptance. Data averaged for embodied enegy, embodied carbon and embodied carbon emissions." }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Concrete reinforced 30-50 MPa", Category = @"Concrete", Conductivity = 2, Density = 2400, SpecificHeat = 950, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0.74, EmbodiedCarbon = 0.099, Cost = 0, Comment = @"[lambda rho c: U-Wert.net]General concrete data used for density through visible absorptance. Data averaged for embodied enegy, embodied carbon and embodied carbon emissions." }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Asphalt low binder content", Category = @"Screed", Conductivity = 0.75, Density = 2350, SpecificHeat = 920, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.39, EmbodiedCarbon = 0.191, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] General asphalt data used for density through visible absorptance, averaged data for embodied energy through embodied carbon emissions" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Asphalt high binder content", Category = @"Screed", Conductivity = 0.75, Density = 2350, SpecificHeat = 920, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 4.46, EmbodiedCarbon = 0.216, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] General asphalt data used for density through visible absorptance, averaged data for embodied energy through embodied carbon emissions" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Lightweight concrete", Category = @"Concrete", Conductivity = 1.3, Density = 1800, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0.78, EmbodiedCarbon = 0.106, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Concrete 20/25 Mpa]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Cement screed", Category = @"Screed", Conductivity = 1.4, Density = 2000, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 1.33, EmbodiedCarbon = 0.221, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [ LCA ICE, Mortar (1:3 cement:sand mix) ]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Basalt", Category = @"Masonry", Conductivity = 3.5, Density = 2850, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 1.26, EmbodiedCarbon = 0.073, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Stone]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Granite", Category = @"Masonry", Conductivity = 2.8, Density = 2600, SpecificHeat = 790, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 11, EmbodiedCarbon = 0.64, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Granite]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Lime stone", Category = @"Masonry", Conductivity = 1.4, Density = 2000, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 1.5, EmbodiedCarbon = 0.087, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, Limestone]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Adobe 1500kg_m3", Category = @"Masonry", Conductivity = 0.66, Density = 1500, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA ICE, General Clay data]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Sand stone", Category = @"Masonry", Conductivity = 2.3, Density = 2600, SpecificHeat = 710, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 1, EmbodiedCarbon = 0.058, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Sandstone]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Clinker brick 1400kg_m3", Category = @"Masonry", Conductivity = 0.58, Density = 1400, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General (Common Brick)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Clinker brick 1600kg_m3", Category = @"Masonry", Conductivity = 0.68, Density = 1600, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General (Common Brick)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Clinker brick 1800kg_m3", Category = @"Masonry", Conductivity = 0.81, Density = 1800, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General (Common Brick)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Clinker brick 2000kg_m3", Category = @"Masonry", Conductivity = 0.96, Density = 2000, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General (Common Brick)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Aerated concrete 350kg_m3", Category = @"Masonry", Conductivity = 0.09, Density = 350, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.3075, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Autoclaved Aerated Blocks (ACC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Aerated concrete 500kg_m3", Category = @"Masonry", Conductivity = 0.12, Density = 500, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.3075, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Autoclaved Aerated Blocks (ACC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 1.6-0.30", Category = @"Masonry", Conductivity = 0.08, Density = 300, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Autoclaved Aerated Blocks (ACC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Poroton Plan-T10", Category = @"Masonry", Conductivity = 0.1, Density = 650, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Common Brick]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Rigid foam EPS 035", Category = @"Insulation", Conductivity = 0.035, Density = 30, SpecificHeat = 1500, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 101.5, EmbodiedCarbon = 3.48, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Polyurethane Rigid Foam]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Rigid foam PUR no coating", Category = @"Insulation", Conductivity = 0.03, Density = 30, SpecificHeat = 1400, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 101.5, EmbodiedCarbon = 3.48, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Polyurethane Rigid Foam]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Rigid foam PUR alu coating", Category = @"Insulation", Conductivity = 0.025, Density = 30, SpecificHeat = 1400, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 101.5, EmbodiedCarbon = 3.48, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Polyurethane Rigid Foam]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Rigid foam PUR fleece coating", Category = @"Insulation", Conductivity = 0.028, Density = 30, SpecificHeat = 1400, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 101.5, EmbodiedCarbon = 3.48, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE Polyurethane Rigid Foam]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Wood fiber insulating board", Category = @"Insulation", Conductivity = 0.042, Density = 160, SpecificHeat = 2100, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Styrofoam", Category = @"Insulation", Conductivity = 0.04, Density = 20, SpecificHeat = 1500, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 101.5, EmbodiedCarbon = 3.48, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] No data found" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Vacuum insulation panel Variotec", Category = @"Insulation", Conductivity = 0.007, Density = 205, SpecificHeat = 900, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Wood wool board 15mm", Category = @"Timber", Conductivity = 0.09, Density = 570, SpecificHeat = 2100, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 20, EmbodiedCarbon = 0.98, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, Woodwool (Board)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Wood wool board 25mm", Category = @"Timber", Conductivity = 0.09, Density = 460, SpecificHeat = 2100, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 20, EmbodiedCarbon = 0.98, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, Woodwool (Board)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Wood wool board 35mm", Category = @"Timber", Conductivity = 0.09, Density = 415, SpecificHeat = 2100, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 20, EmbodiedCarbon = 0.98, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][LCA, ICE, Woodwool (Board)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Wood wool board 50mm", Category = @"Timber", Conductivity = 0.09, Density = 390, SpecificHeat = 2100, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 20, EmbodiedCarbon = 0.98, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, Woodwool (Board)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Light adobe NF 700", Category = @"Masonry", Conductivity = 0.21, Density = 700, SpecificHeat = 1200, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"U-Wert.net [LCA, ICE General (Simple Clay Baked Products)" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Light adobe NF 1200", Category = @"Masonry", Conductivity = 0.47, Density = 1200, SpecificHeat = 1200, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"U-Wert.net [LCA, ICE General (Simple Clay Baked Products)" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Light adobe NF 1800", Category = @"Masonry", Conductivity = 0.91, Density = 1800, SpecificHeat = 1200, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"U-Wert.net [LCA, ICE General (Simple Clay Baked Products)" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Shale", Category = @"Masonry", Conductivity = 2.2, Density = 2400, SpecificHeat = 760, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0.03, EmbodiedCarbon = 0.002, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Shale]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Clinker brick", Category = @"Masonry", Conductivity = 0.96, Density = 2000, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"U-Wert.net [LCA, ICE General Common Bricks]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 2-0.35", Category = @"Masonry", Conductivity = 0.09, Density = 350, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 2-0.40", Category = @"Masonry", Conductivity = 0.1, Density = 400, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 4-0.50", Category = @"Masonry", Conductivity = 0.12, Density = 500, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 4-0.55", Category = @"Masonry", Conductivity = 0.14, Density = 550, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 4-0.60", Category = @"Masonry", Conductivity = 0.16, Density = 600, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong block W PP 6-0.65", Category = @"Masonry", Conductivity = 0.18, Density = 650, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3.5, EmbodiedCarbon = 0.31, Cost = 0, Comment = @"U-Wert.net [LCA, ICE Autoclaved Aerated Blocks (AAC's)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Poroton T12", Category = @"Masonry", Conductivity = 0.12, Density = 650, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 3, EmbodiedCarbon = 0.23, Cost = 0, Comment = @"U-Wert.net [LCA, ICE General Common Bricks]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Cork", Category = @"Insulation", Conductivity = 0.05, Density = 160, SpecificHeat = 1800, ThermalEmittance = 0.9, SolarAbsorptance = 0.78, VisibleAbsorptance = 0.78, EmbodiedEnergy = 4, EmbodiedCarbon = 0.19, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][ThermalEmittance SolarAbsorptance VisibleAbsorptance: DesignBuilderv3] [LCA, ICE Cork]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong Multipor DAA ds", Category = @"Insulation", Conductivity = 0.047, Density = 115, SpecificHeat = 1300, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong Multipor WI WTR DI", Category = @"Insulation", Conductivity = 0.042, Density = 90, SpecificHeat = 1300, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Ytong Multipor WAP", Category = @"Insulation", Conductivity = 0.045, Density = 110, SpecificHeat = 1300, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Foam glass", Category = @"Insulation", Conductivity = 0.056, Density = 130, SpecificHeat = 750, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 27, EmbodiedCarbon = 0, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE, Celular Glass]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Reed", Category = @"Insulation", Conductivity = 0.065, Density = 225, SpecificHeat = 1200, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0.24, EmbodiedCarbon = 0.01, Cost = 0, Comment = @"[lambda rho c: U-Wert.net][ LCA, ICE, Straw]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Vacuum insulation panel Vacupor NT-B2-S", Category = @"Insulation", Conductivity = 0.007, Density = 190, SpecificHeat = 1050, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [LCA, ICE General Insulation]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Stainless Steel", Category = @"Metal", Conductivity = 45, Density = 7800, SpecificHeat = 480, ThermalEmittance = 0.1, SolarAbsorptance = 0.4, VisibleAbsorptance = 0.4, EmbodiedEnergy = 56.7, EmbodiedCarbon = 6.15, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [ LCA ICE, Stainless Steel]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Steel", Category = @"Metal", Conductivity = 45, Density = 7800, SpecificHeat = 480, ThermalEmittance = 0.1, SolarAbsorptance = 0.4, VisibleAbsorptance = 0.4, EmbodiedEnergy = 20.1, EmbodiedCarbon = 1.46, Cost = 0, Comment = @"[lambda rho c: U-Wert.net] [ LCA ICE, General Steel ]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Rammed Earth", Category = @"Masonry", Conductivity = 0.75, Density = 1730, SpecificHeat = 880, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0, EmbodiedCarbon = 0, Cost = 0, Comment = @" [lambda rho c: U-Wert.net] [LCA, ICE Mud] [LCA, ICE, Single Clay Brick]" }); //double check EE values Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"GypsumFibreBoard", Category = @"Boards", Conductivity = 0.32, Density = 1000, SpecificHeat = 1100, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 45, EmbodiedCarbon = 1.86, Cost = 0, Comment = @"[lambda rho c: Saint-Gobain Rigips][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Cross Laminated Timber", Category = @"Timber", Conductivity = 0.13, Density = 500, SpecificHeat = 1600, ThermalEmittance = 0.9, SolarAbsorptance = 0.7, VisibleAbsorptance = 0.7, EmbodiedEnergy = 10, EmbodiedCarbon = 0.71, Cost = 0, Comment = @"[lambda rho c: dataholz.com][LCA ICE (0.31fos + 0.41bio-embodied cabon emissions)]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Plaster", Category = @"Screed", Conductivity = 1.0, Density = 2000, SpecificHeat = 1130, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 1.33, EmbodiedCarbon = 0.221, Cost = 0, Comment = @"[lambda rho c: dataholz.com] [ LCA ICE, Mortar (1:3 cement:sand mix) ]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Mineral Wool", Category = @"Insulation", Conductivity = 0.041, Density = 155, SpecificHeat = 1130, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0, EmbodiedCarbon = 0, Cost = 0, Comment = @"[lambda rho c: dataholz.com]" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"XPS Board", Category = "Insulation", Conductivity = 0.034, Density = 35, SpecificHeat = 1400, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 87.4, EmbodiedCarbon = 2.8, Cost = 0.0, Comment = "" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Sand-Lime Brick", Category = "Masonry", Conductivity = 0.56, Density = 1200, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0, EmbodiedCarbon = 0, Cost = 0, Comment = "" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Bonded chippings", Category = @"Screed", Conductivity = 0.7, Density = 1800, SpecificHeat = 1000, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0, EmbodiedCarbon = 0, Cost = 0, Comment = "" }); Library.OpaqueMaterials.Add(new OpaqueMaterial() { Name = @"Impact sound insulation", Category = "Insulation", Conductivity = 0.035, Density = 120, SpecificHeat = 1030, ThermalEmittance = 0.9, SolarAbsorptance = 0.6, VisibleAbsorptance = 0.6, EmbodiedEnergy = 0, EmbodiedCarbon = 0, Cost = 0.0, Comment = "" }); #endregion //Basic wall OpaqueConstruction.QuickConstruction("120mmInsulation 200mmConcrete", ConstructionTypes.Facade, new string[] { "XPS Board", "General Concrete" }, new double[] { 0.12, 0.20 }, "Concrete", "", ref Library); //Basic roof OpaqueConstruction.QuickConstruction("300mmInsulation 200mmConcrete", ConstructionTypes.Facade, new string[] { "XPS Board", "General Concrete" }, new double[] { 0.30, 0.20 }, "Concrete", "", ref Library); //Basic floor OpaqueConstruction.QuickConstruction("200mmConcrete", ConstructionTypes.InteriorFloor, new string[] { "General Concrete" }, new double[] { 0.20 }, "Concrete", "", ref Library); //Basic partition OpaqueConstruction.QuickConstruction("115mmSandLimeBrick", ConstructionTypes.Partition, new string[] { "Plaster", "Sand-Lime Brick", "Plaster" }, new double[] { 0.005, 0.08, 0.08 }, "Concrete", "", ref Library); //Basic ground OpaqueConstruction.QuickConstruction("300mmConcrete 80mmInsulation 80mmScreed", ConstructionTypes.Partition, new string[] { "General Concrete", "XPS Board", "Cement screed" }, new double[] { 0.3, 0.115, 0.005 }, "Concrete", "", ref Library); //Solid wood constructions OpaqueConstruction.QuickConstruction("300mmInsulation 94mmSolidWood 24mmGypsum", ConstructionTypes.Facade, new string[] { "Medium density fiberboard", "Wood fiber insulating board", "Cross Laminated Timber", "Wood fiber insulating board", "GypsumFibreBoard" }, new double[] { 0.015, 0.3 , 0.094, 0.08, 0.0245 },"Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("120mmInsulation 78mmSolidWood 13mmGypsum", ConstructionTypes.Facade, new string[] { "Plaster", "Mineral Wool", "Cross Laminated Timber", "GypsumFibreBoard" }, new double[] { 0.004, 0.12, 0.078, 0.013 }, "Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("160mmInsulation 94mmSolidWood", ConstructionTypes.Facade, new string[] { "Mineral Wool", "Mineral Wool", "Cross Laminated Timber" }, new double[] { 0.08, 0.08, 0.094 }, "Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("160mmInsulation 94mmSolidWood", ConstructionTypes.Facade, new string[] { "Mineral Wool", "Mineral Wool", "Cross Laminated Timber" }, new double[] { 0.08, 0.08, 0.094 }, "Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("12mmGypsum 78mmSolidWood 12mmGypsum", ConstructionTypes.Partition, new string[] { "GypsumFibreBoard", "Cross Laminated Timber", "GypsumFibreBoard" }, new double[] { 0.012, 0.78, 0.012 }, "Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("78mmSolidWood", ConstructionTypes.Partition, new string[] { "Cross Laminated Timber" }, new double[] { 0.78 }, "Timber", "dataholz.com", ref Library); OpaqueConstruction.QuickConstruction("150mmScreedWithImpactSoundInsulation 140mmSolidWood", ConstructionTypes.InteriorFloor, new string[] { "Cross Laminated Timber", "Bonded chippings", "Impact sound insulation" , "Cement screed" }, new double[] { 0.14, 0.06, 0.03, 0.06 }, "Timber", "dataholz.com, gdmnxn02-00", ref Library); //List of premade basic glazing materials///////////////////////////////////////////////////////////////////////////////////////////////////////////////////// GlazingMaterial gm1 = new GlazingMaterial() { Name = "Generic Clear Glass 6mm", Type = "Uncoated", Conductivity = 0.9, Density = 2500, EmbodiedEnergy = 15, EmbodiedCarbon = 0.85, Cost = 0.0, Comment = "", SolarTransmittance = 0.68, SolarReflectanceFront = 0.09, SolarReflectanceBack = 0.10, VisibleTransmittance = 0.81, VisibleReflectanceFront = 0.11, VisibleReflectanceBack = 0.12, IRTransmittance = 0.00, IREmissivityFront = 0.84, IREmissivityBack = 0.20 }; Library.Add(gm1); //List of premade basic glazing constructions///////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //Basic double glazing Layer<WindowMaterialBase> go1 = new Layer<WindowMaterialBase>(0.006, gm1); Layer<WindowMaterialBase> go2 = new Layer<WindowMaterialBase>(0.0013, Library.GasMaterials.Single(o=>o.Name == "ARGON")); GlazingConstruction gc1 = new GlazingConstruction(); gc1.Layers.Add(go1); gc1.Layers.Add(go2); gc1.Layers.Add(go1); gc1.Name = "DblClear Air 6_13_6"; gc1.Type = GlazingConstructionTypes.Double;// "Double"; Library.Add( gc1); #region schedules //--------------------------------------------------------------------------------schedules YearSchedule.QuickSchedule("occBedroom", new double[] { 1, 1, 1, 1, 1, 1, 0.8, 0.6, 0.4, 0.4, 0.4, 0.6, 0.8, 0.6, 0.4, 0.4, 0.6, 0.8, 0.8, 0.8, 0.8, 1, 1, 1 }, "Residential" , "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipBedroom", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.5, 1, 0.5, 0.5, 0.5, 1, 1, 0.5, 0.5, 0.5, 1, 1, 1, 1, 0.5, 0.5, 0.5, 0.1 }, "Residential" , "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsBedroom", new double[] { 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0 }, "Residential", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occKitchen", new double[] { 0, 0, 0, 0, 0, 0, 0.4, 0.8, 0.4, 0, 0, 0.4, 0.8, 0.4, 0, 0, 0.4, 1, 0.6, 0.4, 0, 0, 0, 0 }, "Residential" , "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipKitchen", new double[] { 0.2, 0.2, 0.2, 0.2, 0.2, 0.2, 0.4, 0.8, 0.4, 0.2, 0.2, 0.4, 1, 0.4, 0.2, 0.2, 0.4, 1, 0.4, 0.2, 0.2, 0.2, 0.2, 0.2 }, "Residential", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsKitchen", new double[] { 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0, 1, 1, 1, 0, 0, 1, 1, 1, 1, 0, 0, 0, 0 }, "Residential", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occOffice", new double[] { 0, 0, 0, 0, 0, 0, 0, 0.2, 0.4, 0.6, 0.8, 0.8, 0.4, 0.6, 0.8, 0.8, 0.4, 0.2, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Office","SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipOffice", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.2, 0.4, 0.6, 0.8, 0.8, 0.4, 0.6, 0.8, 0.8, 0.4, 0.2, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 } , "Office", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsOffice", new double[] { 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Office", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occMeetingRoom", new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0.6, 1, 0.4, 0, 0, 0.6, 1, 0.4, 0, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Office", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipMeetingRoom", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.2, 0.4, 0.6, 0.8, 0.8, 0.4, 0.6, 0.8, 0.8, 0.4, 0.2, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, "Office", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsMeetingRoom", new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Office", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occLibrary", new double[] { 0, 0, 0, 0, 0, 0, 0, 0.2, 0.6, 1, 1, 0.2, 0.2, 1, 1, 0.6, 0.2, 0, 0, 0, 0, 0, 0, 0 }, "Education", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipLibrary", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.2, 0.6, 1, 1, 0.2, 0.2, 1, 1, 0.6, 0.4, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, "Education", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsLibrary", new double[] { 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 }, "Education", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occLectureHall", new double[] { 0, 0, 0, 0, 0, 0, 0, 0.2, 0.6, 1, 1, 0.2, 0.2, 1, 1, 0.6, 0.2, 0, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Education", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipLectureHall", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.2, 0.6, 1, 1, 0.2, 0.2, 1, 1, 0.6, 0.4, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 }, "Education", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsLectureHall", new double[] { 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 }, new double[] { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, "Education", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occSuperMarket", new double[] { 0, 0, 0, 0, 0, 0, 0, 0.2, 0.4, 0.4, 0.4, 0.6, 0.6, 0.6, 0.4, 0.4, 0.6, 0.8, 0.6, 0, 0, 0, 0, 0 }, "Commercial", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipSuperMarket", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0.1, 0.1, 0.1, 0.1, 0.1 }, "Commercial", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsSuperMarket", new double[] { 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 }, "Commercial", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); YearSchedule.QuickSchedule("occShopping", new double[] { 0, 0, 0, 0, 0, 0, 0, 0.2, 0.4, 0.4, 0.4, 0.6, 0.6, 0.6, 0.4, 0.4, 0.6, 0.8, 0.6, 0, 0, 0, 0, 0 }, "Commercial", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("equipShopping", new double[] { 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0.1, 0.1, 0.1, 0.1, 0.1 }, "Commercial", "SIA Merkblatt 2024", ref Library); YearSchedule.QuickSchedule("lightsShopping", new double[] { 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 }, "Commercial", "based on SIA Merkblatt 2024 Occ Schedule", ref Library); Random r = new Random(); var Values = new double[8760]; for (int i = 0; i < 8760; i++) { Values[i] = (double)r.Next(1, 100) / 100.0; } Library.Add(new ScheduleArray() { Name = "RandomBehavior", Category = "Random", Values = Values }); //Library.ArraySchedules.Add(new ScheduleArray() { Name = "RandomBehavior2", Category = "Random", Values = Values }); #endregion Library.Add(new ZoneLoad() { Name = "BedroomLoads", PeopleDensity = 1.0 / 40.0, IlluminanceTarget = 200, LightingPowerDensity = 9.5, EquipmentPowerDensity = 2, OccupancySchedule = "occBedroom", EquipmentAvailibilitySchedule = "equipBedroom", LightsAvailibilitySchedule = "lightsBedroom", Category = "Residential" ,DataSource = "SIA Merkblatt 2024" }); Library.Add(new ZoneLoad() { Name = "KitchenLoads", PeopleDensity = 1.0 / 5.0, IlluminanceTarget = 500, LightingPowerDensity = 17, EquipmentPowerDensity = 40, OccupancySchedule = "occKitchen", EquipmentAvailibilitySchedule = "equipKitchen", LightsAvailibilitySchedule = "lightsKitchen", Category = "Residential" ,DataSource = "SIA Merkblatt 2024" }); Library.Add(new ZoneLoad() { Name = "SingleOfficeLoads", PeopleDensity = 1.0 / 14.0, IlluminanceTarget = 500, LightingPowerDensity = 16, EquipmentPowerDensity = 7, OccupancySchedule = "occOffice", EquipmentAvailibilitySchedule = "equipOffice", LightsAvailibilitySchedule = "lightsOffice", Category = "Office", DataSource = "SIA Merkblatt 2024" }); Library.Add(new ZoneLoad() { Name = "MeetingRoomLoads", PeopleDensity = 1.0 / 3.0, IlluminanceTarget = 500, LightingPowerDensity = 16, EquipmentPowerDensity = 2, OccupancySchedule = "occMeetingRoom", EquipmentAvailibilitySchedule = "equipMeetingRoom", LightsAvailibilitySchedule = "lightsMeetingRoom", Category = "Office", DataSource = "SIA Merkblatt 2024" }); Library.Add(new ZoneConditioning() { Name = "BedroomHeatingCoolingMechVent", HeatingSetpoint = 19, CoolingSetpoint = 26, MechVentIsOn = true, MinFreshAirPerson = 2.5, MinFreshAirArea = 0.3, Category = "Residential" }); Library.Add(new ZoneConditioning() { Name = "KitchenHeatingCoolingMechVent", HeatingSetpoint = 20, CoolingSetpoint = 26, MechVentIsOn = true, MinFreshAirPerson = 3.9, MinFreshAirArea = 0.9, Category = "Residential" }); Library.Add(new ZoneConditioning() { Name = "OfficeHeatingCoolingMechVent", HeatingSetpoint = 20, CoolingSetpoint = 26, MechVentIsOn = true, MinFreshAirPerson = 2.5, MinFreshAirArea = 0.3, Category = "Office" }); Library.Add(new ZoneConditioning() { Name = "MeetingRoomHeatingCoolingMechVent", HeatingSetpoint = 20, CoolingSetpoint = 26, MechVentIsOn = true, MinFreshAirPerson = 3.8, MinFreshAirArea = 0.3, Category = "Office" }); Library.Add(new ZoneConditioning() { Name = "LectureHallHeatingCoolingMechVent", HeatingSetpoint = 20, CoolingSetpoint = 26, MechVentIsOn = true, MinFreshAirPerson = 3.8, MinFreshAirArea = 0.3, Category = "Education" }); Library.Add(new ZoneVentilation() { Name = "PoorAirTightness", InfiltrationIsOn = true, InfiltrationAch = 1.2, InfiltrationModel = InfiltrationModel.Wind, Category = "Infiltration" }); Library.Add(new ZoneVentilation() { Name = "ModerateAirTightness", InfiltrationIsOn = true, InfiltrationAch = 0.5, InfiltrationModel = InfiltrationModel.Wind, Category = "Infiltration" }); Library.Add(new ZoneVentilation() { Name = "GoodAirTightness", InfiltrationIsOn = true, InfiltrationAch = 0.15, InfiltrationModel = InfiltrationModel.Wind, Category = "Infiltration" }); Library.Add(new DomHotWater() { Name = "House" , FlowRatePerFloorArea =0.03 , WaterSchedule = "AllOn" , WaterTemperatureInlet = 10, WaterSupplyTemperature = 60 }); Library.Add(new ZoneConstruction() { Name = "SolidWood", RoofConstruction = "300mmInsulation 94mmSolidWood 24mmGypsum", FacadeConstruction = "300mmInsulation 94mmSolidWood 24mmGypsum", SlabConstruction = "150mmScreedWithImpactSoundInsulation 140mmSolidWood", GroundConstruction = "120mmInsulation 200mmConcrete", PartitionConstruction = "12mmGypsum 78mmSolidWood 12mmGypsum" }); #region SimpleGlass Library.Add(new GlazingConstructionSimple("SinglePaneClr", "Single pane", "Standard clear", 0.913, 5.894, 0.905)); Library.Add(new GlazingConstructionSimple("DoublePaneClr", "Double pane", "Standard clear", 0.812, 2.720, 0.764)); Library.Add(new GlazingConstructionSimple("DoublePaneLoEe2", "Double pane", "Low emissivity coating on layer e2", 0.444, 1.493, 0.373)); Library.Add(new GlazingConstructionSimple("DoublePaneLoEe3", "Double pane", "Low emissivity coating on layer e3", 0.769, 1.507, 0.649)); Library.Add(new GlazingConstructionSimple("TriplePaneLoE", "Triple pane", "Low emissivity coating on layer e2 and e5", 0.661, 0.785, 0.764)); #endregion #region ZoneDefTemplates Library.Add(new WindowSettings()); Library.Add(new ZoneDefinition()); var fl1 = Library.Add(new FloorDefinition() { BuildingID ="Default", Type = "INT", Name= "Default_INT"}); var fl2 = Library.Add(new FloorDefinition() { BuildingID = "Default", Type = "B" , Name= "Default_B" }); var fl3 = Library.Add(new FloorDefinition() { BuildingID = "Default", Type = "G" , Name= "Default_G" }); var fl4 = Library.Add(new FloorDefinition() { BuildingID = "Default", Type = "R" , Name= "Default_R" }); BuildingDefinition b = new BuildingDefinition { Name = "Default" }; b.Floors.Add(fl1); b.Floors.Add(fl2); b.Floors.Add(fl3); b.Floors.Add(fl4); Library.Add(b); #endregion ////--------------------------------------------------------------------------------serialization test //string xml = SerializeDeserialize.Serialize(Library); //SerializeDeserialize.Deserialize(xml, typeof(ArchsimLib.Lib)); ////--------------------------------------------------------------------------------out return Library; }
public static Library Excel2Lib(string file) { Library lib = LibraryDefaults.getHardCodedDefaultLib(); XSSFWorkbook wb; // get sheets list from xlsx using (var fs = new FileStream(file, FileMode.Open, FileAccess.Read)) { wb = new XSSFWorkbook(fs); } Parse Wr = new Parse(wb, ref lib); //Logger.WriteLine("Worksheets in file:"); for (int k = 0; k < wb.Count; k++) { // Debug.WriteLine("Worksheet " + wb.GetSheetAt(k).SheetName); // Logger.WriteLine("Worksheet " + wb.GetSheetAt(k).SheetName); } //primitives foreach (var o in Wr.Objects<OpaqueMaterial>("Material")) lib.Add(o); foreach (var o in Wr.Constructions( "Construction")) lib.Add(o); foreach (var o in Wr.Objects<GlazingConstructionSimple>("GlazingConstructionSimple")) lib.Add(o); foreach (var o in Wr.Schedule("Schedule")) lib.Add(o); foreach (var o in Wr.ArraySchedule("ArraySchedule")) lib.Add(o); //zone defs foreach (var o in Wr.Objects<ZoneLoad>("ZoneLoad")) lib.Add(o); foreach (var o in Wr.Objects<ZoneConditioning>("ZoneConditioning")) lib.Add(o); foreach (var o in Wr.Objects<ZoneVentilation>( "ZoneVentilation")) lib.Add(o); foreach (var o in Wr.Objects<ZoneConstruction>("ZoneConstruction")) lib.Add(o); foreach (var o in Wr.Objects<DomHotWater>("DomHotWater")) lib.Add(o); //zone and window foreach (var o in Wr.Objects<WindowSettings>("Window")) lib.Add(o); foreach (var o in Wr.Zone("Zone")) lib.Add(o); //building foreach (var o in Wr.Objects<FloorDefinition>("Building")) lib.Add(o); // generate building templates from floors var list = new HashSet<string>(lib.FloorDefinitions.Select(x => x.BuildingID).ToList()).ToList(); foreach (var n in list) { BuildingDefinition bd = new BuildingDefinition { Name = n }; bd.Floors.AddRange( lib.FloorDefinitions.Where(x => x.BuildingID == n) ); lib.Add(bd); } return lib; }