コード例 #1
0
ファイル: archetype.py プロジェクト: RWTH-EBC/TEASER
def example_type_building():
    """"First thing we need to do is to import our Project API module"""

    from teaser.project import Project

    """We instantiate the Project class. The parameter load_data = True indicates
    that we load the XML data bases into our Project.
    This can take a few sec."""

    prj = Project(load_data=True)
    prj.name = "ArchetypeBuildings_Ref"

    """The five functions starting with type_bldg giving us the opportunity to
    create the specific type building (e.g. type_bldg_residential). The function
    automatically calculates all the necessary parameter. If not specified different
    it uses vdi calculation method."""

    prj.type_bldg_residential(name="ResidentialBuilding",
                              year_of_construction=1988,
                              number_of_floors=2,
                              height_of_floors=3.5,
                              net_leased_area=100,
                              with_ahu=True,
                              residential_layout=1,
                              neighbour_buildings=1,
                              attic=1,
                              cellar=1,
                              construction_type="heavy",
                              dormer=1)

    prj.type_bldg_office(name="Office1",
                         year_of_construction=1988,
                         number_of_floors=2,
                         height_of_floors=3.5,
                         net_leased_area=100,
                         office_layout=1,
                         window_layout=1,
                         with_ahu=True,
                         construction_type="heavy")

    '''
    We need to set the projects calculation method. The library we want to
    use is AixLib, we are using a two element model and want an extra resistance
    for the windows. To export the parameters to a Modelica record, we use
    the export_aixlib function. path = None indicates, that we want to store
    the records in TEASER'S Output folder
    '''

    prj.used_library_calc = 'AixLib'
    prj.number_of_elements_calc = 2
    prj.merge_windows_calc = False

    prj.calc_all_buildings()

    '''
    Export the Modelica Record. If you have a Dymola License you can  export
    the model with a central AHU (MultizoneEquipped) (only default for office
    and institute buildings)
    '''

    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    '''
    For OpenModelica you need to exclude the centralAHU (because it is using
    state machines). Therefore use the building_model "Multizone"
    '''

    #prj.export_aixlib(building_model="Multizone",
    #                  zone_model="ThermalZoneEquipped",
    #                  corG=True,
    #                  internal_id=None,
    #                  path=None)


    '''Or we use Annex60 method (e.g with four elements). Which exports one
    Model per zone'''

    #prj.used_library_calc = 'Annex60'
    #prj.number_of_elements_calc = 4
    #prj.merge_windows_calc = False

    #prj.calc_all_buildings()
    #prj.export_annex()

    """Now we retrofit all buildings in the year 2015 (EnEV2014). \
    That includes new insulation layer and new windows. The name is changed \
    to Retrofit"""

    prj.name = "ArchetypeBuildings_Retrofit"
    prj.retrofit_all_buildings(2015)
    prj.calc_all_buildings()

    '''You could also change the exports here as seen above'''

    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    prj.save_project("Retrofit_Building",
                     path=None)

    '''Save the human readable output txt'''
    prj.export_parameters_txt(path=None)

    '''
    Save the human readable output txt
    '''
    prj.save_citygml(path=None)
コード例 #2
0
def example_create_building():
    '''
    Instantiate a Project class (with load_data set to true), instantiate a
    Building class, with the project as a parent. This automatically adds the
    specific building and all its future changes to the project.
    '''
    prj = Project(load_data=True)
    bldg = Building(parent=prj)

    '''Set some building parameters'''

    bldg.name = "SuperExampleBuilding"
    bldg.street_name = "Awesome Avenue 42"
    bldg.city = "46325 Fantastic Town"
    bldg.year_of_construction = 1988
    bldg.number_of_floors = 1
    bldg.height_of_floors = 3.5

    '''Instantiate a ThermalZone class, with building as parent and set  some
    parameters of the thermal zone'''

    tz = ThermalZone(parent=bldg)
    tz.name = "Living Room"
    tz.area = 140.0
    tz.volume = tz.area * bldg.number_of_floors * bldg.height_of_floors
    tz.infiltration_rate = 0.5

    '''Instantiate UseConditions18599 class with thermal zone as parent,
    and load the use conditions for the usage 'Living' '''

    tz.use_conditions = BoundaryConditions(parent=tz)
    tz.use_conditions.load_use_conditions("Living")

    '''Define two elements representing a pitched roof and define Layers and
    Materials explicitly'''

    roof_south = Rooftop(parent=tz)
    roof_south.name = "Roof_South"

    roof_north = Rooftop(parent=tz)
    roof_north.name = "Roof_North"

    '''Set area, orientation and tilt of South Roof'''
    roof_south.area = 75.0
    roof_south.orientation = 180.0
    roof_south.tilt = 55.0

    '''Set coefficient of heat transfer'''
    roof_south.inner_convection = 1.7
    roof_south.outer_convection = 5.0
    roof_south.inner_radiation = 20.0
    roof_south.outer_radiation = 5.0

    '''Set layer and material'''
    layer_1s = Layer(parent=roof_south, id=0) # id indicates the order of
                                              # layer from inside to outside
    layer_1s.thickness = 0.15

    material_1_2 = Material(layer_1s)
    material_1_2.name = "Insulation"
    material_1_2.density = 120.0
    material_1_2.heat_capac = 0.04
    material_1_2.thermal_conduc = 1.0

    layer_2s = Layer(parent=roof_south, id=1)
    layer_2s.thickness = 0.15

    material_1_1 = Material(layer_2s)
    material_1_1.name = "Tile"
    material_1_1.density = 1400.0
    material_1_1.heat_capac = 0.6
    material_1_1.thermal_conduc = 2.5

    '''Set area, orientation and tilt of North Roof'''
    roof_north.area = 75.0
    roof_north.orientation = 0.0
    roof_north.tilt = 55.0

    '''Set coefficient of heat transfer'''
    roof_north.inner_convection = 1.7
    roof_north.outer_convection = 5.0
    roof_north.inner_radiation = 20.0
    roof_north.outer_radiation = 5.0

    '''Set layer and material'''
    layer_1n = Layer(parent=roof_north, id=0)
    layer_1n.thickness = 0.15

    material_1_2 = Material(layer_1n)
    material_1_2.name = "Insulation"
    material_1_2.density = 120.0
    material_1_2.heat_capac = 0.04
    material_1_2.thermal_conduc = 1.0

    layer_2n = Layer(parent=roof_north, id=1)
    layer_2n.thickness = 0.15
    layer_2n.position = 1

    material_1_1 = Material(layer_2n)
    material_1_1.name = "Tile"
    material_1_1.density = 1400.0
    material_1_1.heat_capac = 0.6
    material_1_1.thermal_conduc = 2.5

    '''We save information of the Outer and Inner walls as well as Windows
    in dicts, the key is the name, while the value is a list (if applicable)
    [year of construciton,
     construction type,
     area,
     tilt,
     orientation]
     '''

    out_wall_dict = {"Outer Wall 1": [bldg.year_of_construction, 'heavy',
                                      10.0, 90.0, 0.0],
                     "Outer Wall 2": [bldg.year_of_construction, 'heavy',
                                      14.0, 90.0, 90.0],
                     "Outer Wall 3": [bldg.year_of_construction, 'heavy',
                                      10.0, 90.0, 180.0],
                     "Outer Wall 4": [bldg.year_of_construction, 'heavy',
                                      14.0, 90.0, 270.0]}

    in_wall_dict = {"Inner Wall 1": [bldg.year_of_construction, 'light', 10.0],
                    "Inner Wall 2": [bldg.year_of_construction, 'heavy', 14.0],
                    "Inner Wall 3": [bldg.year_of_construction, 'light', 10.0]}

    win_dict = {"Window 1": [bldg.year_of_construction,
                             5.0, 90.0, 90.0],
                "Window 2": [bldg.year_of_construction,
                             8.0, 90.0, 180.0],
                "Window 3": [bldg.year_of_construction,
                             5.0, 90.0, 270.0]}

    for key, value in out_wall_dict.items():
        '''instantiate OuterWall class'''
        out_wall = OuterWall(parent = tz)
        out_wall.name = key
        '''load typical construction, based on year of construction and
        construction type'''
        out_wall.load_type_element(year=value[0],
                                   construction=value[1])
        out_wall.area = value[2]
        out_wall.tilt = value[3]
        out_wall.orientation = value[4]

    for key, value in in_wall_dict.items():
        '''instantiate InnerWall class'''
        in_wall = InnerWall(parent = tz)
        in_wall.name = key
        '''load typical construction, based on year of construction and
        construction type'''
        in_wall.load_type_element(year=value[0],
                                  construction=value[1])
        in_wall.area = value[2]

    for key, value in win_dict.items():
        '''instantiate Window class'''
        win = Window(parent = tz)
        win.name = key
        win.area = value[1]
        win.tilt = value[2]
        win.orientation = value[3]

        '''
        We know the exact properties of the window, thus we set them instead
        of loading a typical construction
        '''
        win.inner_convection = 1.7
        win.inner_radiation = 5.0
        win.outer_convection = 20.0
        win.outer_radiation = 5.0
        win.g_value = 0.789
        win.a_conv = 0.03
        win.shading_g_total = 1.0
        win.shading_max_irr = 180.0
        '''Instantiate a Layer class, with window as parent, set attributes'''
        win_layer = Layer(parent = win)
        win_layer.id = 1
        win_layer.thickness = 0.024
        '''Instantiate a Material class, with window layer as parent,
        set attributes'''
        win_material = Material(win_layer)
        win_material.name = "GlasWindow"
        win_material.thermal_conduc = 0.067
        win_material.transmittance = 0.9


    '''For a GroundFloor we are using the load_type_element function,
    which needs the year of construction and the construction type ('heavy'
    or 'light')
    '''
    ground = GroundFloor(parent=tz)
    ground.name = "Ground floor"
    ground.load_type_element(bldg.year_of_construction, 'heavy')
    ground.area = 140.0

    '''
    We calculate the RC Values according to AixLib procedure
    '''

    prj.used_library_calc = 'AixLib'
    prj.number_of_elements_calc = 2
    prj.merge_windows_calc = False

    prj.calc_all_buildings()
    '''
    Export the Modelica Record
    '''
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    '''Or we use Annex60 method with for elements'''
    #prj.calc_all_buildings(number_of_elements=4,
    #                       merge_windows=False,
    #                       used_library='Annex60')
    #prj.export_annex()

    '''
    Save new TEASER XML and cityGML
    '''
    prj.save_project("ExampleProject")
    prj.save_citygml("ExampleCityGML")
コード例 #3
0
ファイル: archetype.py プロジェクト: R33B/TEASER
def example_type_building():
    """"First thing we need to do is to import our Project API module"""

    from teaser.project import Project

    """We instantiate the Project class. The parameter load_data = True indicates
    that we load the XML data bases into our Project.
    This can take a few sec."""

    prj = Project(load_data=True)
    prj.name = "ArchetypeBuildings"

    """The five functions starting with type_bldg giving us the opportunity to
    create the specific type building (e.g. type_bldg_residential). The function
    automatically calculates all the necessary parameter. If not specified different
    it uses vdi calculation method."""

    prj.type_bldg_residential(name="ResidentialBuilding",
                              year_of_construction=1988,
                              number_of_floors=2,
                              height_of_floors=3.5,
                              net_leased_area=100,
                              with_ahu=True,
                              residential_layout=1,
                              neighbour_buildings=1,
                              attic=1,
                              cellar=1,
                              construction_type="heavy",
                              dormer=1)

    prj.type_bldg_office(name="Office1",
                         year_of_construction=1988,
                         number_of_floors=2,
                         height_of_floors=3.5,
                         net_leased_area=100,
                         office_layout=1,
                         window_layout=1,
                         with_ahu=True,
                         construction_type="heavy")

    """We need to set the projects calculation method. The library we want to use is AixLib, we are using a two element model and want an extra resistance for the windows. To export the parameters to a Modelica record, we use the export_aixlib
    function. path = None indicates, that we want to store the records in \
    TEASER'S Output folder"""
    prj.used_library_calc = 'AixLib'
    prj.number_of_elements_calc = 2
    prj.merge_windows_calc = False
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    """or we could also use the Annex60 models"""
    #prj.used_library_calc = "Annex60"
    #prj.export_annex(number_of_elements=2,
    #                 merge_windows=False,
    #                 internal_id=None,
    #                 path=None)

    """Now we retrofit all buildings in the year 2015 (EnEV2014). \
    That includes new insulation layer and new windows. The name is changed \
    to Retrofit"""

    prj.name = "Project_Retrofit"
    prj.retrofit_all_buildings(2015)
    prj.calc_all_buildings(number_of_elements=2,
                           merge_windows=False,
                           used_library='AixLib')
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)



    prj.save_project("Retrofit_Building",
                     path=None)

    '''Save the human readable output txt'''
    prj.export_parameters_txt(path=None)

    '''
    Save the human readable output txt
    '''
    prj.save_citygml(path=None)
コード例 #4
0
ファイル: singlebuilding.py プロジェクト: R33B/TEASER
def example_create_building():
    '''
    Instantiate a Project class (with load_data set to true), instantiate a
    Building class, with the project as a parent. This automatically adds the
    specific building and all its future changes to the project.
    '''
    prj = Project(load_data = True)
    bldg = Building(parent = prj)

    '''Set some building parameters'''

    bldg.name = "SuperExampleBuilding"
    bldg.street_name = "Awesome Avenue 42"
    bldg.city = "46325 Fantastic Town"
    bldg.year_of_construction = 1988
    bldg.number_of_floors = 1
    bldg.height_of_floors = 3.5

    '''Instantiate a ThermalZone class, with building as parent and set  some
    parameters of the thermal zone'''

    tz = ThermalZone(parent = bldg)
    tz.name = "Living Room"
    tz.area = 140.0
    tz.volume = tz.area * bldg.number_of_floors * bldg.height_of_floors
    tz.infiltration_rate = 0.5

    '''Instantiate UseConditions18599 class with thermal zone as parent,
    and load the use conditions for the usage 'Living' '''

    tz.use_conditions = BoundaryConditions(parent = tz)
    tz.use_conditions.load_use_conditions("Living")

    '''We save information of the Outer and Inner walls as well as Windows
    in dicts, the key is the name, while the value is a list (if applicable)
    [year of construciton,
     construction type,
     area,
     tilt,
     orientation]'''

    out_wall_dict = {"Outer Wall 1": [bldg.year_of_construction, 'heavy',
                                      10.0, 90.0, 0.0],
                     "Outer Wall 2": [bldg.year_of_construction, 'heavy',
                                      14.0, 90.0, 90.0],
                     "Outer Wall 3": [bldg.year_of_construction, 'heavy',
                                      10.0, 90.0, 180.0],
                     "Outer Wall 4": [bldg.year_of_construction, 'heavy',
                                      14.0, 90.0, 270.0]}

    in_wall_dict = {"Inner Wall 1": [bldg.year_of_construction, 'light', 10.0],
                    "Inner Wall 2": [bldg.year_of_construction, 'heavy', 14.0],
                    "Inner Wall 3": [bldg.year_of_construction, 'light', 10.0]}

    win_dict = {"Window 1": [bldg.year_of_construction,
                             5.0, 90.0, 90.0],
                "Window 2": [bldg.year_of_construction,
                             8.0, 90.0, 180.0],
                "Window 3": [bldg.year_of_construction,
                             5.0, 90.0, 270.0]}
    for key, value in out_wall_dict.items():
        '''instantiate OuterWall class'''
        out_wall = OuterWall(parent = tz)
        out_wall.name = key
        '''load typical construction, based on year of construction and
        construction type'''
        out_wall.load_type_element(year = value[0],
                                   construction = value[1])
        out_wall.area = value[2]
        out_wall.tilt = value[3]
        out_wall.orientation = value[4]

    for key, value in in_wall_dict.items():
        '''instantiate InnerWall class'''
        in_wall = InnerWall(parent = tz)
        in_wall.name = key
        '''load typical construction, based on year of construction and
        construction type'''
        in_wall.load_type_element(year = value[0],
                                  construction = value[1])
        in_wall.area = value[2]

    for key, value in win_dict.items():
        '''instantiate Window class'''
        win = Window(parent = tz)
        win.name = key
        win.area = value[1]
        win.tilt = value[2]
        win.orientation = value[3]
        '''
        We know the exact properties of the window, thus we set them instead
        of loading a typical construction
        '''
        win.inner_convection = 1.7
        win.inner_radiation = 5.0
        win.outer_convection = 20.0
        win.outer_radiation = 5.0
        win.g_value = 0.789
        win.a_conv = 0.03
        win.shading_g_total = 1.0
        win.shading_max_irr = 180.0
        '''Instantiate a Layer class, with window as parent, set attributes'''
        win_layer = Layer(parent = win)
        win_layer.id = 1
        win_layer.thickness = 0.024
        '''Instantiate a Material class, with window layer as parent,
        set attributes'''
        win_material = Material(win_layer)
        win_material.name = "GlasWindow"
        win_material.thermal_conduc = 0.067
        win_material.transmittance = 0.9

    '''Define a Rooftop and a Groundfloor, we don't need to set tilt and
    orientation because we take the default values'''

    roof = Rooftop(parent = tz)
    roof.name = "Roof"
    roof.load_type_element(bldg.year_of_construction, 'heavy')
    roof.area = 140.0

    ground = GroundFloor(parent = tz)
    ground.name = "Ground floor"
    ground.load_type_element(bldg.year_of_construction, 'heavy')
    ground.area = 140.0

    '''
    We calculate the RC Values according to AixLib procedure
    '''


    prj.used_library_calc = 'AixLib'
    prj.number_of_elements_calc = 2
    prj.merge_windows_calc = False

    prj.calc_all_buildings()
    '''
    Export the Modelica Record
    '''
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    '''Or we use Annex60 method with for elements'''
    #prj.calc_all_buildings(number_of_elements=4,
    #                       merge_windows=False,
    #                       used_library='Annex60')
    #prj.export_annex()

    '''
    Save new TEASER XML
    '''
    prj.save_gml("ExampleProject")
    prj.save_citygml("Easypeasy")
コード例 #5
0
ファイル: archetype.py プロジェクト: RWTHSebastian/TEASER
def example_type_building():
    """"First thing we need to do is to import our Project API module"""

    from teaser.project import Project
    """We instantiate the Project class. The parameter load_data = True indicates
    that we load the XML data bases into our Project.
    This can take a few sec."""

    prj = Project(load_data=True)
    prj.name = "ArchetypeBuildings"
    """The five functions starting with type_bldg giving us the opportunity to
    create the specific type building (e.g. type_bldg_residential). The function
    automatically calculates all the necessary parameter. If not specified different
    it uses vdi calculation method."""

    prj.type_bldg_residential(name="ResidentialBuilding",
                              year_of_construction=1988,
                              number_of_floors=2,
                              height_of_floors=3.5,
                              net_leased_area=100,
                              with_ahu=True,
                              residential_layout=1,
                              neighbour_buildings=1,
                              attic=1,
                              cellar=1,
                              construction_type="heavy",
                              dormer=1)

    prj.type_bldg_office(name="Office1",
                         year_of_construction=1988,
                         number_of_floors=2,
                         height_of_floors=3.5,
                         net_leased_area=100,
                         office_layout=1,
                         window_layout=1,
                         with_ahu=True,
                         construction_type="heavy")
    """We need to set the projects calculation method. The library we want to use is AixLib, we are using a two element model and want an extra resistance for the windows. To export the parameters to a Modelica record, we use the export_aixlib
    function. path = None indicates, that we want to store the records in \
    TEASER'S Output folder"""
    prj.used_library_calc = 'AixLib'
    prj.number_of_elements_calc = 2
    prj.merge_windows_calc = False
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)
    """or we could also use the Annex60 models"""
    #prj.used_library_calc = "Annex60"
    #prj.export_annex(number_of_elements=2,
    #                 merge_windows=False,
    #                 internal_id=None,
    #                 path=None)
    """Now we retrofit all buildings in the year 2015 (EnEV2014). \
    That includes new insulation layer and new windows. The name is changed \
    to Retrofit"""

    prj.name = "Project_Retrofit"
    prj.retrofit_all_buildings(2015)
    prj.calc_all_buildings(number_of_elements=2,
                           merge_windows=False,
                           used_library='AixLib')
    prj.export_aixlib(building_model="MultizoneEquipped",
                      zone_model="ThermalZoneEquipped",
                      corG=True,
                      internal_id=None,
                      path=None)

    prj.save_project("Retrofit_Building", path=None)
    '''Save the human readable output txt'''
    prj.export_parameters_txt(path=None)
    '''
    Save the human readable output txt
    '''
    prj.save_citygml(path=None)