Object: Description: Application: ICE Printed: 2002-10-31, 12:06:37 Ce-Building officeCAV IDA resources Location Copenhagen Country = Denmark City = Copenhagen Latitude = 55.63 Longitude = -12.67 Elevation = 5 Time zone = -1 Winter design day Dry-bulb min = -11.1 Deg-C Dry-bulb max = -7.05 Deg-C Wet-bulb max = -7.55 Deg-C Wind direction = 360 Deg Wind speed = 5.1 m/s Clearness number = 1.0 dimless Summer design day Dry-bulb min = 16.9 Deg-C Dry-bulb max = 25.0 Deg-C Wet-bulb max = 17.2 Deg-C Wind direction = 160 Deg Wind speed = 4.7 m/s Clearness number = 1.0 dimless Climate-Def Værløse (Copenhagen) TRY File name = COP_TRY.PRN Station = Copenhagen Country = Denmark Latitude = 55.767 Longitude = -12.317 Elevation = 19.0 Time zone = -1 WIND-HEIGHT = 10 m Walldef Concrete floor 150 layer-1 Material = Floor coating Thickness = 0.005 m layer-2 Material = L/W concrete Thickness = 0.02 m layer-3 Material = Concrete Thickness = 0.15 m Walldef Concrete floor 250mm layer-1 Material = Floor coating Thickness = 0.005 m layer-2 Material = Concrete Thickness = 0.25 m Walldef Concrete joist roof layer-1 Material = Light insulation Thickness = 0.2 m layer-2 Material = Concrete Thickness = 0.15 m Walldef Interior wall with insulation layer-1 Material = Gypsum Thickness = 0.026 m layer-2 Material = Air in 30 mm vert. air gap Thickness = 0.032 m layer-3 Material = Light insulation Thickness = 0.03 m layer-4 Material = Air in 30 mm vert. air gap Thickness = 0.032 m layer-5 Material = Gypsum Thickness = 0.026 m Walldef Rendered l/w concrete wall 250 layer-1 Material = Render Thickness = 0.01 m layer-2 Material = L/W concrete Thickness = 0.25 m layer-3 Material = Render Thickness = 0.01 m Material Air in 30 mm vert. air gap HEAT-COND = 0.17 W/(m K) Density = 1.2 kg/m3 Specific heat = 1006 J/(kg K) Material Concrete HEAT-COND = 1.7 W/(m K) Density = 2300 kg/m3 Specific heat = 880 J/(kg K) Material Floor coating HEAT-COND = 0.18 W/(m K) Density = 1100 kg/m3 Specific heat = 920 J/(kg K) Material Gypsum HEAT-COND = 0.22 W/(m K) Density = 970 kg/m3 Specific heat = 1090 J/(kg K) Material L/W concrete HEAT-COND = 0.15 W/(m K) Density = 500 kg/m3 Specific heat = 1050 J/(kg K) Material Light insulation HEAT-COND = 0.036 W/(m K) Density = 20 kg/m3 Specific heat = 750 J/(kg K) Material Render HEAT-COND = 0.8 W/(m K) Density = 1800 kg/m3 Specific heat = 790 J/(kg K) Zone-Defaults Standard zone Model type = Default Geometry Ceiling height = 2.6 m X = 2.5 m Y = 4.0 m Air System type = CAV Choose AHU = Air Handling Unit Exhaust air for CAV = 2.0 Stratification = Well-mixed Infiltration area (at 4 Pa) 1 m above floor = 0.001 m2 Supply flow factor = 0.999 Controller setpoints = Office, normal control Thermal bridge coeff = 0.0 W/K Air velocity at occupants = 0.1 m/s Construction for external walls = [Default] Rendered l/w concrete wall 250 Construction for internal walls = [Default] Interior wall with insulation Construction for roof = [Default] Concrete joist roof Construction for external floors = [Default] Concrete floor 250mm Construction for internal floors = [Default] Concrete floor 150 Template for windows = Occupants Number per m2 = 0.1 Template = Schedule = Always present Equipment Number per m2 = 0.1 Template = Schedule = Always on Light Number per m2 = 0.1 Template = Schedule = Always on FURNITURE_AREA_FRACTION = 0.2 FURNITURE_WEIGHT = 25 kg/m2 Glass construction 3 pane glazing, clear, 4-12-4-12-4 SC = 0.7949 dimless SSC = 0.6639 dimless U = 2.0 W/(m2 K) Internal emissivity = 0.9 dimless External emissivity = 0.9 dimless Setpoint_Collection Office, normal control MIN_VENT_AIR = 0.3 MAX_VENT_AIR = 7 THERMOSTAT_MIN = 21 Deg-C THERMOSTAT_MAX = 25 Deg-C MIN_HUMIDITY = 20 % MAX_HUMIDITY = 80 % MIN_CO2 = 700 ppm (vol) MAX_CO2 = 1100 ppm (vol) MIN_LIGHT = 100 lux MAX_LIGHT = 10000 lux THERMOSTAT_MIN_SCHEDULE = THERMOSTAT_MAX_SCHEDULE = Location = Copenhagen Wind profile = [Default urban] Climate = Værløse (Copenhagen) TRY Site object Site area[1..4] Orientation = 0.0 Deg XY-ORIGIN[1..2] X-DIRECTION = 0.0 Deg Height = 6.0 m BOTTOM = -1.0 m PROTECTED_SHAPE = NIL CORNERS[1..4, 1..2] Face f1 PCOEF[1..8] Ground reflectance = 0.2 NCORN = 4 items CORNERS[1..4, 1..3] Slope = 90.0 Deg Face GROUND-FACE NCORN = 4 items CORNERS[1..4, 1..3] SLOPE = 90.0 Deg Face f2 PCOEF[1..8] Ground reflectance = 0.2 NCORN = 4 items CORNERS[1..4, 1..3] Slope = 90.0 Deg Face GROUND-FACE NCORN = 4 items CORNERS[1..4, 1..3] SLOPE = 90.0 Deg Face f3 PCOEF[1..8] Ground reflectance = 0.2 NCORN = 4 items CORNERS[1..4, 1..3] Slope = 90.0 Deg Face GROUND-FACE NCORN = 4 items CORNERS[1..4, 1..3] SLOPE = 90.0 Deg Face f4 PCOEF[1..8] Ground reflectance = 0.2 NCORN = 4 items CORNERS[1..4, 1..3] Slope = 90.0 Deg Face GROUND-FACE NCORN = 4 items CORNERS[1..4, 1..3] SLOPE = 90.0 Deg Face Crawl space PCOEF[1..8] Ground reflectance = 0.2 NCORN = 0 items CORNERS[1..0, 1..3] Slope = 180.0 Deg Face GROUND-FACE NCORN = 4 items CORNERS[1..4, 1..3] SLOPE = 180.0 Deg Face Roof PCOEF[1..8] Ground reflectance = 0.2 NCORN = 4 items CORNERS[1..4, 1..3] Slope = 0.0 Deg Face GROUND-FACE NCORN = 0 items CORNERS[1..0, 1..3] SLOPE = 0.0 Deg Simulation data MODEL-TYPE = Climate HMIN = 0 HMAX = 1.5 STARTUP-PHASE FROM-TIME = 2002-07-01, Monday TO-TIME = 2002-07-01, Monday STEP = 0.1 TOL = 0.02 TOL-LIM = 10.0 PERIOD-TOL = 0.01 PERIODS = 14 OUTPUT-STEP = 0.0 PERIODIC-P = DYNAMIC CALCULATION-PHASE FROM-TIME = 2002-07-01, Monday TO-TIME = 2002-07-31, Wednesday STEP = 0.1 TOL = 0.02 TOL-LIM = 10.0 PERIOD-TOL = 0.01 PERIODS = 14 OUTPUT-STEP = 0.0 PERIODIC-P = DYNAMIC System parameters WATER_MMIN = 1.0E-4 kg/s AIR_MMIN = 1.0E-5 kg/s CPLIQ = 4187 J/(kg K) RHOAIR20 = 1.2 kg/m3 TEMP_THROTTLE = 2.0 Deg-C COOLPANEL_OFFSET = 2.0 Deg-C DP0_AIR = 5.0 Pa DP0_AIR_NATURAL = 5.0 Pa DP0_WATER = 200 Pa EXTERNAL_LEAK_N = 0.6 INTERNAL_SHADING_CONTROL_LEVEL = 100 WINDOW_FRAME_ABSORPTANCE = 0.5 MAX_TEMP_TIME = 15 CO2_AMBIENT = 400.0 ppm (vol) VENT_OFF_INFILTRATION = 0.1 l/(s m2 external wall) REF_CELL_SIZE = 0.03 m NUMERICAL_AIR_MASS = 10 kg Defaults Template for new zones = Standard zone EXTERNAL_WALLS = Rendered l/w concrete wall 250 INTERNAL_WALLS = Interior wall with insulation ROOF = Concrete joist roof EXTERNAL_FLOORS = Concrete floor 250mm INTERNAL_FLOORS = Concrete floor 150 GLAZING = 3 pane glazing, clear, 4-12-4-12-4 Internal shading = No internal shading CURRENT_FLOOR_LEVEL = 0.0 m LEVEL_HEIGHT = 2.0 m Project Data Customer = Responsible engineer = PS Description = List of output objects PROJECT_REPORT = T POWER_CONSUMPTION = NIL AHU temperatures = T AHU air flows = NIL Plant temperatures = NIL Power supplied by plant = T Main temperatures = T Heat balance = T Air flow in zone = NIL Airborne heat flow into zone = NIL Air temperatures at floor and ceiling = NIL Fanger's comfort indices = NIL Indoor Air Quality = NIL Daylighting = NIL Directed operative temperatures = NIL Purchased Energy = NIL Used energy = NIL Lost work = NIL Free energy = NIL Free energy = NIL Temps and heat balance in zone = NIL Surface temperatures = NIL Surface heat fluxes = NIL TermoDeck temperatures = NIL Termodeck temperatures and air flow = NIL Boundaries Source-File Climate file TAIR = 20 Deg-C RELHUM = 50 dimless WINDDIR = 0 Deg WINDVELREF = 1 m/s IDIRNORM = 0 W/m2 IDIFFHOR = 0 W/m2 Source-Object Ground OUTSIDE_WALLS = [Default ground with insulation] UNDER_FLOOR = [Default ground with insulation] TGRADE = 10 Deg-C TERM_GRADE Zones Ce-Zone South Model type = Default INFO = NIL Multiplicity = 1 Geometry Shape = Prismatic PROTECTED_SHAPE = NIL Origin[1..2] NCORN = 4 items CORNERS[1..4, 1..2] Ceiling height = 2.6 m Orientation = 0.0 Deg Net floor area = 10.0 m2 Floor height from ground = 0.0 m Air System type = CAV Choose AHU = Air Handling Unit Exhaust air for CAV = 2.0 Stratification = Well-mixed Infiltration area (at 4 Pa) 1 m above floor = 0.001 m2 Supply flow factor = 0.999 Controller setpoints = Office, normal control Thermal bridge coeff = 0.0 W/K Air velocity at occupants = 0.1 m/s Surfaces Enclosing-Element Floor IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Concrete floor 150 CONSTRUCTION_EXTERNAL = [Default] Concrete floor 250mm Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] LENGTH = 4.0 m WIDTH = 2.5 m SLOPE = 0.0 Deg Enclosing-Element Ceiling IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Concrete floor 150 CONSTRUCTION_EXTERNAL = [Default] Concrete joist roof Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] LENGTH = 4.0 m WIDTH = 2.5 m SLOPE = 180.0 Deg Enclosing-Element Wall 1 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 2.5 m Features Opening Door X = 0.73 m Y = 0.0 m DX = 1 m DY = 2 m Z = 0.0 m Opening schedule = Always open Enclosing-Element Wall 2 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 4.0 m Enclosing-Element Wall 3 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 2.5 m Features Ce-Window Window X = 0.6 m Y = 0.8 m DX = 1.25 m DY = 1.2 m Z = 0.0 m Glazing = [Default] 3 pane glazing, clear, 4-12-4-12-4 Internal shading = [Default] No internal shading Control of internal shading = Light + Schedule Schedule for internal shading = Always drawn External shading = No external shading Opening schedule = Never open Frame area fraction = 0.1 dimless Frame u-value = 2.0 W/(m2 K) Enclosing-Element Wall 4 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 4.0 m Loads Light Light X = 1.077 m Y = 1.486 m DX = 0.5384 m DY = 0.743 m Control = Schedule Rated input = 50.0 W Luminous efficiency = 12 Convective fraction = 0.3 LUMEN_PER_WATT_VISIBLE_RAD = 118 Number of = 1 Schedule = Always on Z = 0.0 m Occupant Occupant Activity level = 1.0 Clothing = 0.5 Number of = 1 Schedule = Always present Position[1..3] Equipment Equipment Emitted sensible power = 150.0 W LW_RAD_FRACTION = 0.0 Humidity = 0.0 kg/s CO2 emission = 0.0 mg/s Number of = 1 Schedule = Always on Position[1..3] Internal masses Mass Furniture Area = 2.0 m2 Envelope = [Default furniture] Heat transfer coefficient = 6.0 W/(m2 K) Ce-Zone North Model type = Default INFO = NIL Multiplicity = 1 Geometry Shape = Prismatic PROTECTED_SHAPE = NIL Origin[1..2] NCORN = 4 items CORNERS[1..4, 1..2] Ceiling height = 2.6 m Orientation = 180.0 Deg Net floor area = 10.0 m2 Floor height from ground = 0.0 m Air System type = CAV Choose AHU = Air Handling Unit Exhaust air for CAV = 2.0 Stratification = Well-mixed Infiltration area (at 4 Pa) 1 m above floor = 0.001 m2 Supply flow factor = 0.999 Controller setpoints = Office, normal control Thermal bridge coeff = 0.0 W/K Air velocity at occupants = 0.1 m/s Surfaces Enclosing-Element Floor IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Concrete floor 150 CONSTRUCTION_EXTERNAL = [Default] Concrete floor 250mm Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] LENGTH = 4.0 m WIDTH = 2.5 m SLOPE = 0.0 Deg Enclosing-Element Ceiling IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Concrete floor 150 CONSTRUCTION_EXTERNAL = [Default] Concrete joist roof Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] LENGTH = 4.0 m WIDTH = 2.5 m SLOPE = 180.0 Deg Enclosing-Element Wall 1 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 2.5 m Enclosing-Element Wall 2 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 4.0 m Enclosing-Element Wall 3 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 2.5 m Features Ce-Window Window X = 0.6 m Y = 0.8 m DX = 1.25 m DY = 1.2 m Z = 0.0 m Glazing = [Default] 3 pane glazing, clear, 4-12-4-12-4 Internal shading = [Default] No internal shading Control of internal shading = Light + Schedule Schedule for internal shading = Always drawn External shading = No external shading Opening schedule = Never open Frame area fraction = 0.1 dimless Frame u-value = 2.0 W/(m2 K) Enclosing-Element Wall 4 FACE = NIL IF_NOT_CONNECTED = ADIABATIC CONSTRUCTION_INTERNAL = [Default] Interior wall with insulation CONSTRUCTION_EXTERNAL = [Default] Rendered l/w concrete wall 250 Inner surface = Default surface Outer surface = Default surface Geometry CORNERS[1..4, 1..3] SLOPE = 90.0 Deg HEIGHT = 2.6 m WIDTH = 4.0 m Loads Occupant Occupant Activity level = 1.0 Clothing = 0.5 Number of = 0 Schedule = Always present Position[1..3] Internal masses Mass Furniture Area = 2.0 m2 Envelope = [Default furniture] Heat transfer coefficient = 6.0 W/(m2 K) HVAC components Ah-Macro Air Handling Unit Parameters AIR-SUPPLY-STRATEGY = Constant Interfaces Air_Sup (sf.FANOUT) <--- LIB.AIRPLUG.INLET Air_Rtn (hx.EXHIN) <--- LIB.AIRPLUG.OUTLET AHU_Sup_Cold (cc.LIQFLOWIN) <---> PLANT.AHU_sup_cold AHU_Rtn_Cold (cc.LIQFLOWOUT) <---> PLANT.AHU_rtn_cold AHU_Rtn_Hot (hc.LIQFLOWOUT) <---> PLANT.AHU_rtn_hot AHU_Sup_Hot (hc.LIQFLOWIN) <---> PLANT.AHU_sup_hot Prim-Macro Plant Interfaces AHU_sup_cold (chil.OUTLET1) <---> AHU.AHU_Sup_Cold AHU_rtn_cold (chil.INLET1) <---> AHU.AHU_Rtn_Cold AHU_sup_hot (boil.OUTLET[1]) <---> AHU.AHU_Sup_Hot AHU_rtn_hot (boil.INLET[1]) <---> AHU.AHU_Rtn_Hot Zone_sup_hot (boil.OUTLET[2]) <--- LIB.WATPLUG.INLET Zone_rtn_hot (boil.INLET[2]) <--- LIB.WATPLUG.OUTLET Zone_sup_cold (chil.OUTLET2) <--- LIB.WATPLUG.INLET Zone_rtn_cold (chil.INLET2) <--- LIB.WATPLUG.OUTLET Energy meters Energy-Meter Electricity meter for zones Rate plan = Additional consumption = Energy-Meter Electricity meter for AHU/Plant Rate plan = Additional consumption = Energy-Meter Primary energy meter Rate plan = Additional consumption =