Пример #1
0
 def click_add_new_layer(self, parent, position, thick, mat_nam, den, therm,
                         heat, solar, ir, trans):
     layer = Layer()
     if parent is not None:
         parent.add_layer(layer, position=position)
     mat = Material(layer)
     mat.name = mat_nam
     mat.density = den
     mat.thermal_conduc = therm
     mat.heat_capac = heat
     mat.solar_absorp = solar
     mat.ir_emissivity = ir
     mat.transmittance = trans
     layer.thickness = thick
     if parent is None:
         return layer
     else:
         return parent
Пример #2
0
 def click_add_new_layer(self, parent, position, thick, mat_nam, den, therm,
                         heat, solar, ir, trans):
     layer = Layer()
     if parent is not None:
         parent.add_layer(layer, position=position)
     mat = Material(layer)
     mat.name = mat_nam
     mat.density = den
     mat.thermal_conduc = therm
     mat.heat_capac = heat
     mat.solar_absorp = solar
     mat.ir_emissivity = ir
     mat.transmittance = trans
     layer.thickness = thick
     if parent is None:
         return layer
     else:
         return parent
Пример #3
0
    def click_add_new_layer(self, parent, position, thick, name, den, therm,
                            heat, solar, ir, trans):
        '''Add a new Layer

        adds a new layer to the current element or envelope.
        If it is an element then return his parent, if not then return the
        layer.

        Parameters
        ----------

        parent : wall()
            The parent class of a layer this can be a ceiling,
            floor, groundfloor, innerwall, outerwall, rooftop or window.

        position : int
            Adds the layer at specified position.

        thick : float
            Thickness of the layer.

        name : string
            Name of material.

        den : float
            density of material.

        therm : float
            thermal_conduc of material.

        heat : float
            heat_capac of material.

        solar : float
            solar_absorp of material.

        ir : float
            ir_emissivity of material.

        trans : float
            transmittance of material.

        Returns
        ----------

        layer : layer()
        parent : wall()
            If the current element is an envelope then return a layer, but if
            the current element is a wall then return the parent
        '''

        layer = Layer()
        if parent is not None:
            parent.add_layer(layer, position=position)
        mat = Material(layer)
        mat.name = name
        mat.density = den
        mat.thermal_conduc = therm
        mat.heat_capac = heat
        mat.solar_absorp = solar
        mat.ir_emissivity = ir
        mat.transmittance = trans
        layer.thickness = thick
        if parent is None:
            return layer
        else:
            return parent
Пример #4
0
    def click_add_new_layer(self, parent, position, thick, name, den, therm,
                            heat, solar, ir, trans):
        '''Add a new Layer

        adds a new layer to the current element or envelope.
        If it is an element then return his parent, if not then return the
        layer.

        Parameters
        ----------

        parent : wall()
            The parent class of a layer this can be a ceiling,
            floor, groundfloor, innerwall, outerwall, rooftop or window.

        position : int
            Adds the layer at specified position.

        thick : float
            Thickness of the layer.

        name : string
            Name of material.

        den : float
            density of material.

        therm : float
            thermal_conduc of material.

        heat : float
            heat_capac of material.

        solar : float
            solar_absorp of material.

        ir : float
            ir_emissivity of material.

        trans : float
            transmittance of material.

        Returns
        ----------

        layer : layer()
        parent : wall()
            If the current element is an envelope then return a layer, but if
            the current element is a wall then return the parent
        '''

        layer = Layer()
        if parent is not None:
            parent.add_layer(layer, position=position)
        mat = Material(layer)
        mat.name = name
        mat.density = den
        mat.thermal_conduc = therm
        mat.heat_capac = heat
        mat.solar_absorp = solar
        mat.ir_emissivity = ir
        mat.transmittance = trans
        layer.thickness = thick
        if parent is None:
            return layer
        else:
            return parent
def from_scratch(
        number_of_elements,
        save=False,
        path=utilities.get_default_path()):
    """This function creates the test room from scratch.

    Notes: The standard defines an solar absorption coefficient for interior
    surfaces of 0.6. We do not consider this, but we could by multiplying
    the solar radiation after the window by 0.6.

    Parameters
    ----------
    number_of_elements: int
        Number of elements of model
    path: str (optional)
        Path where Project should be stored as .teaserXML
    save: bool (optional)
        True if Project should be stored as .teaserXML at path

    Returns
    -------

    prj: Project
        Project that contains the building with the test room

    """
    prj = Project(load_data=True)
    prj.name = "ASHRAE140Verification"

    bldg = Building(parent=prj)
    bldg.name = "TestBuilding"

    tz = ThermalZone(parent=bldg)
    tz.name = "TestRoom900"
    tz.area = 8.0 * 6.0
    tz.volume = tz.area * 2.7
    tz.infiltration_rate = 0.41

    tz.use_conditions = BoundaryConditions(parent=tz)

    roof = Rooftop(parent=tz)
    roof.name = "Roof"
    roof.area = 8.0 * 6.0
    roof.orientation = -1.0
    roof.tilt = 0.0
    roof.inner_convection = 1
    roof.outer_convection = 24.67
    roof.inner_radiation = 5.13
    roof.outer_radiation = 4.63

    layer_r1 = Layer(parent=roof, id=0)
    layer_r1.thickness = 0.01

    material_r1 = Material(layer_r1)
    material_r1.name = "Plasterboard"
    material_r1.density = 950.0
    material_r1.heat_capac = 840.0 / 1000
    material_r1.thermal_conduc = 0.16
    material_r1.ir_emissivity = 0.9

    layer_r2 = Layer(parent=roof, id=1)
    layer_r2.thickness = 0.1118

    material_r2 = Material(layer_r2)
    material_r2.name = "Fiberglass"
    material_r2.density = 12
    material_r2.heat_capac = 840 / 1000
    material_r2.thermal_conduc = 0.04

    layer_r3 = Layer(parent=roof, id=2)
    layer_r3.thickness = 0.019

    material_r3 = Material(layer_r3)
    material_r3.name = "Roofdeck"
    material_r3.density = 530
    material_r3.heat_capac = 900 / 1000
    material_r3.thermal_conduc = 0.14
    material_r3.solar_absorp = 0.6
    material_r3.ir_emissivity = 0.9

    out_wall_north = OuterWall(parent=tz)
    out_wall_north.name = "OuterWallNorth"
    out_wall_north.area = 8.0 * 2.7
    out_wall_north.orientation = 0.0
    out_wall_north.tilt = 90.0
    out_wall_north.inner_convection = 3.16
    out_wall_north.outer_convection = 24.67
    out_wall_north.inner_radiation = 5.13
    out_wall_north.outer_radiation = 4.63

    layer_own1 = Layer(parent=out_wall_north, id=0)
    layer_own1.thickness = 0.1

    material_own1 = Material(layer_own1)
    material_own1.name = "Concrete"
    material_own1.density = 1400.0
    material_own1.heat_capac = 1000 / 1000
    material_own1.thermal_conduc = 0.51
    material_own1.ir_emissivity = 0.9

    layer_own2 = Layer(parent=out_wall_north, id=1)
    layer_own2.thickness = 0.062

    material_own2 = Material(layer_own2)
    material_own2.name = "FoamInsulation"
    material_own2.density = 10
    material_own2.heat_capac = 1400 / 1000
    material_own2.thermal_conduc = 0.04

    layer_own3 = Layer(parent=out_wall_north, id=2)
    layer_own3.thickness = 0.009

    material_own3 = Material(layer_own3)
    material_own3.name = "WoodSiding"
    material_own3.density = 530
    material_own3.heat_capac = 900 / 1000
    material_own3.thermal_conduc = 0.14
    material_own3.solar_absorp = 0.6
    material_own3.ir_emissivity = 0.9

    out_wall_east = OuterWall(parent=tz)
    out_wall_east.name = "OuterWallEast"
    out_wall_east.area = 6.0 * 2.7
    out_wall_east.orientation = 90.0
    out_wall_east.tilt = 90.0
    out_wall_east.inner_convection = 3.16
    out_wall_east.outer_convection = 24.67
    out_wall_east.inner_radiation = 5.13
    out_wall_east.outer_radiation = 4.63

    layer_owe1 = Layer(parent=out_wall_east, id=0)
    layer_owe1.thickness = 0.1

    material_owe1 = Material(layer_owe1)
    material_owe1.name = "Concrete"
    material_owe1.density = 1400.0
    material_owe1.heat_capac = 1000 / 1000
    material_owe1.thermal_conduc = 0.51
    material_owe1.ir_emissivity = 0.9

    layer_owe2 = Layer(parent=out_wall_east, id=1)
    layer_owe2.thickness = 0.062

    material_owe2 = Material(layer_owe2)
    material_owe2.name = "FoamInsulation"
    material_owe2.density = 10
    material_owe2.heat_capac = 1400 / 1000
    material_owe2.thermal_conduc = 0.04

    layer_owe3 = Layer(parent=out_wall_east, id=2)
    layer_owe3.thickness = 0.009

    material_owe3 = Material(layer_owe3)
    material_owe3.name = "WoodSiding"
    material_owe3.density = 530
    material_owe3.heat_capac = 900 / 1000
    material_owe3.thermal_conduc = 0.14
    material_owe3.solar_absorp = 0.6
    material_owe3.ir_emissivity = 0.9

    out_wall_south = OuterWall(parent=tz)
    out_wall_south.name = "OuterWallSouth"
    out_wall_south.area = (8.0 * 2.7) - 2 * (3 * 2)  # minus two windows
    out_wall_south.orientation = 180.0
    out_wall_south.tilt = 90.0
    out_wall_south.inner_convection = 3.16
    out_wall_south.outer_convection = 24.67
    out_wall_south.inner_radiation = 5.13
    out_wall_south.outer_radiation = 4.63

    layer_ows1 = Layer(parent=out_wall_south, id=0)
    layer_ows1.thickness = 0.1

    material_ows1 = Material(layer_ows1)
    material_ows1.name = "Concrete"
    material_ows1.density = 1400.0
    material_ows1.heat_capac = 1000.0 / 1000
    material_ows1.thermal_conduc = 0.51
    material_ows1.ir_emissivity = 0.9

    layer_ows2 = Layer(parent=out_wall_south, id=1)
    layer_ows2.thickness = 0.062

    material_ows2 = Material(layer_ows2)
    material_ows2.name = "FoamInsulation"
    material_ows2.density = 10
    material_ows2.heat_capac = 1400 / 1000
    material_ows2.thermal_conduc = 0.04

    layer_ows3 = Layer(parent=out_wall_south, id=2)
    layer_ows3.thickness = 0.009

    material_ows3 = Material(layer_ows3)
    material_ows3.name = "WoodSiding"
    material_ows3.density = 530
    material_ows3.heat_capac = 900 / 1000
    material_ows3.thermal_conduc = 0.14
    material_ows3.solar_absorp = 0.6
    material_ows3.ir_emissivity = 0.9

    out_wall_west = OuterWall(parent=tz)
    out_wall_west.name = "OuterWallWest"
    out_wall_west.area = 6 * 2.7
    out_wall_west.orientation = 270.0
    out_wall_west.tilt = 90.0
    out_wall_west.inner_convection = 3.16
    out_wall_west.outer_convection = 24.67
    out_wall_west.inner_radiation = 5.13
    out_wall_west.outer_radiation = 4.63

    layer_oww1 = Layer(parent=out_wall_west, id=0)
    layer_oww1.thickness = 0.1

    material_oww1 = Material(layer_oww1)
    material_oww1.name = "Concrete"
    material_oww1.density = 1400.0
    material_oww1.heat_capac = 1000.0 / 1000
    material_oww1.thermal_conduc = 0.51
    material_oww1.ir_emissivity = 0.9

    layer_oww2 = Layer(parent=out_wall_west, id=1)
    layer_oww2.thickness = 0.062

    material_oww2 = Material(layer_oww2)
    material_oww2.name = "FoamInsulation"
    material_oww2.density = 10
    material_oww2.heat_capac = 1400 / 1000
    material_oww2.thermal_conduc = 0.04

    layer_oww3 = Layer(parent=out_wall_west, id=2)
    layer_oww3.thickness = 0.009

    material_oww3 = Material(layer_oww3)
    material_oww3.name = "WoodSiding"
    material_oww3.density = 530
    material_oww3.heat_capac = 900 / 1000
    material_oww3.thermal_conduc = 0.14
    material_oww3.solar_absorp = 0.6
    material_oww3.ir_emissivity = 0.9

    in_wall_floor = Floor(parent=tz)
    in_wall_floor.name = "InnerWallFloor"
    in_wall_floor.area = 6 * 8
    in_wall_floor.orientation = -2.0
    in_wall_floor.tilt = 0.0
    in_wall_floor.inner_convection = 4.13
    in_wall_floor.inner_radiation = 5.13

    layer_iwf1 = Layer(parent=in_wall_floor, id=0)
    layer_iwf1.thickness = 0.025

    material_iwf1 = Material(layer_iwf1)
    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 = "WindowSouthLeft"
    win_1.area = 3 * 2
    win_1.tilt = 90.0
    win_1.orientation = 180.0
    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_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_2_material.name = "GlasWindow"
    win_2_material.thermal_conduc = 0.15
    win_2_material.transmittance = 0.907
    win_2_material.ir_emissivity = 0.9

    #  This is a dummy ground floor to export three and four elements models.
    #  Please set values for floor plate in three element and four element
    #  models to default.

    if number_of_elements >= 3:
        out_wall_gf = GroundFloor(parent=tz)
        out_wall_gf.name = "ExtWallGroundFloor"
        out_wall_gf.area = 6 * 8
        out_wall_gf.orientation = -2.0
        out_wall_gf.tilt = 0.0
        out_wall_gf.inner_convection = 4.13
        out_wall_gf.inner_radiation = 5.13

        layer_ofgw1 = Layer(parent=out_wall_gf, id=0)
        layer_ofgw1.thickness = 1.003

        material_ofgw1 = Material(layer_ofgw1)
        material_ofgw1.name = "Insulation"
        material_ofgw1.density = 0.0001  # as small as possible
        material_ofgw1.heat_capac = 0.0001  # as small as possible
        material_ofgw1.thermal_conduc = 0.04

    if save:
        prj.save_project(file_name='ASHRAE140_900', path=path)

    return prj