How to use the teaser.logic.buildingobjects.buildingphysics.window.Window function in teaser
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RWTH-EBC / TEASER / teaser / examples / verification / verification_ASHRAE_140_600.py View on Github 
win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)
win_1_material.name = "GlasWindow"
win_1_material.thermal_conduc = 0.15
win_1_material.transmittance = 0.907
win_1_material.ir_emissivity = 0.9
win_2 = Window(parent=tz)
win_2.name = "WindowSouthRight"
win_2.area = 3 * 2
win_2.tilt = 90.0
win_2.orientation = 180.0
win_2.inner_convection = 3.16
win_2.inner_radiation = 5.13
win_2.outer_convection = 16.37
win_2.outer_radiation = 4.63
win_2.g_value = 0.789
win_2.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_2_layer = Layer(parent=win_2)
win_2_layer.id = 1
win_2_layer.thickness = 0.024
win_2_material = Material(win_2_layer)material_iwf1.name = "Concrete"
material_iwf1.density = 1400
material_iwf1.heat_capac = 1000 / 1000
material_iwf1.thermal_conduc = 1.13
material_iwf1.ir_emissivity = 0.9
layer_iwf2 = Layer(parent=in_wall_floor, id=1)
layer_iwf2.thickness = 1.007
material_iwf2 = Material(layer_iwf2)
material_iwf2.name = "Insulation"
material_iwf2.density = 0.000000000001 # 0.0001, as small as possible
material_iwf2.heat_capac = 0.000000000001 # 0.0001, as small as possible
material_iwf2.thermal_conduc = 0.04
win_1 = Window(parent=tz)
win_1.name = "WindowWest"
win_1.area = 3 * 2
win_1.tilt = 90.0
win_1.orientation = 270.0
win_1.inner_convection = 3.16
win_1.inner_radiation = 5.13
win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)material_iwf1.name = "TimberFlooring"
material_iwf1.density = 650
material_iwf1.heat_capac = 1200 / 1000
material_iwf1.thermal_conduc = 0.14
material_iwf1.ir_emissivity = 0.9
layer_iwf2 = Layer(parent=in_wall_floor, id=1)
layer_iwf2.thickness = 1.003
material_iwf2 = Material(layer_iwf2)
material_iwf2.name = "Insulation"
material_iwf2.density = 0.000000000001 # 0.0001, as small as possible
material_iwf2.heat_capac = 0.000000000001 # 0.0001, as small as possible
material_iwf2.thermal_conduc = 0.04
win_1 = Window(parent=tz)
win_1.name = "WindowWest"
win_1.area = 3 * 2
win_1.tilt = 90.0
win_1.orientation = 270.0
win_1.inner_convection = 3.16
win_1.inner_radiation = 5.13
win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)
win_1_material.name = "GlasWindow"
win_1_material.thermal_conduc = 0.15
win_1_material.transmittance = 0.907
win_1_material.ir_emissivity = 0.9
win_2 = Window(parent=tz)
win_2.name = "WindowEast"
win_2.area = 3 * 2
win_2.tilt = 90.0
win_2.orientation = 90.0
win_2.inner_convection = 3.16
win_2.inner_radiation = 5.13
win_2.outer_convection = 16.37
win_2.outer_radiation = 4.63
win_2.g_value = 0.789
win_2.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_2_layer = Layer(parent=win_2)
win_2_layer.id = 1
win_2_layer.thickness = 0.024
win_2_material = Material(win_2_layer)win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)
win_1_material.name = "GlasWindow"
win_1_material.thermal_conduc = 0.15
win_1_material.transmittance = 0.907
win_1_material.ir_emissivity = 0.9
win_2 = Window(parent=tz)
win_2.name = "WindowSouthRight"
win_2.area = 3 * 2
win_2.tilt = 90.0
win_2.orientation = 180.0
win_2.inner_convection = 3.16
win_2.inner_radiation = 5.13
win_2.outer_convection = 16.37
win_2.outer_radiation = 4.63
win_2.g_value = 0.789
win_2.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_2_layer = Layer(parent=win_2)
win_2_layer.id = 1
win_2_layer.thickness = 0.024
win_2_material = Material(win_2_layer)win_1.outer_convection = 16.37
win_1.outer_radiation = 4.63
win_1.g_value = 0.789
win_1.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_1_layer = Layer(parent=win_1)
win_1_layer.id = 1
win_1_layer.thickness = 0.024
win_1_material = Material(win_1_layer)
win_1_material.name = "GlasWindow"
win_1_material.thermal_conduc = 0.15
win_1_material.transmittance = 0.907
win_1_material.ir_emissivity = 0.9
win_2 = Window(parent=tz)
win_2.name = "WindowEast"
win_2.area = 3 * 2
win_2.tilt = 90.0
win_2.orientation = 90.0
win_2.inner_convection = 3.16
win_2.inner_radiation = 5.13
win_2.outer_convection = 16.37
win_2.outer_radiation = 4.63
win_2.g_value = 0.789
win_2.a_conv = 0.03 # for the given U-value extracted from VDI 6007-2/-3
win_2_layer = Layer(parent=win_2)
win_2_layer.id = 1
win_2_layer.thickness = 0.024
win_2_material = Material(win_2_layer)----------
parent : wall()
parent class of element
'''
if type == "Outer Wall":
element = OuterWall(parent)
element.name = name
element.area = area
if type == "Inner Wall":
element = InnerWall(parent)
element.name = name
element.area = area
if type == "Window":
element = Window(parent)
element.name = name
element.area = area
if type == "GroundFloor":
element = GroundFloor(parent)
element.name = name
element.area = area
if type == "Ceiling":
element = Ceiling(parent)
element.name = name
element.area = area
if type == "Rooftop":
element = Rooftop(parent)
element.name = name
element.area = area
if type == "Floor":
element = Floor(parent)ground.load_type_element(
year=bldg.year_of_construction,
construction='heavy')
ground.area = value[0]
ground.tilt = value[1]
ground.orientation = value[2]
from teaser.logic.buildingobjects.buildingphysics.window import Window
win_dict = {"Window_east": [5.0, 90.0, 90.0],
"Window_south": [8.0, 90.0, 180.0],
"Window_west": [5.0, 90.0, 270.0]}
for key, value in win_dict.items():
win = Window(parent=tz)
win.name = key
win.area = value[0]
win.tilt = value[1]
win.orientation = value[2]
# Additional to the already known attributes the window has
# additional attributes. Window.g_value describes the solar gain
# through windows, a_conv the convective heat transmission due to
# absorption of the window on the inner side. shading_g_total and
# shading_max_irr refers to the shading (solar gain reduction of the
# shading and shading_max_irr the threshold of irradiance to
# automatically apply shading).
win.inner_convection = 1.7
win.inner_radiation = 5.0
win.outer_convection = 20.0"index in the produced ZonedInput.xlsx"
% (
group["Zone"].iloc[0],
group["OuterWallOrientation[°]"].iloc[0],
group,
)
)
grouped = zone.groupby(["WindowOrientation[°]", "WindowConstruction"])
for name, group in grouped:
# looping through a groupby object automatically discards the
# groups where one of the attributes is nan
# additionally check for strings, since the value must be of type
# int or float
if not isinstance(group["OuterWallOrientation[°]"].iloc[0], str):
window = Window(parent=tz)
window.name = (
"window_"
+ str(int(group["WindowOrientation[°]"].iloc[0]))
+ "_"
+ str(group["WindowConstruction"].iloc[0])
)
window.area = group["WindowArea[m²]"].sum()
window.tilt = window_tilt
window.orientation = group["WindowOrientation[°]"].iloc[0]
# load wall properties from "TypeBuildingElements.json"
window.load_type_element(
year=bldg.year_of_construction,
construction=group["WindowConstruction"].iloc[0],
)
warn_constructiontype(window)
else:teaser
Tool for Energy Analysis and Simulation for Efficient Retrofit
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