def test_leap_year(): """Test clear sky with leap year.""" location = Location( 'Chicago Ohare Intl Ap', '-', 'USA', 41.98, -87.92, -6.0, 201.0) wea = Wea.from_ashrae_clear_sky(location, is_leap_year=True) assert wea.diffuse_horizontal_irradiance.datetimes[1416].month == 2 assert wea.diffuse_horizontal_irradiance.datetimes[1416].day == 29 assert wea.diffuse_horizontal_irradiance.datetimes[1416].hour == 0 assert wea.diffuse_horizontal_irradiance.datetimes[1416 + 12].month == 2 assert wea.diffuse_horizontal_irradiance.datetimes[1416 + 12].day == 29 assert wea.diffuse_horizontal_irradiance.datetimes[1416 + 12].hour == 12
def test_from_clear_sky(): """Test from original clear sky""" location = Location( 'Chicago Ohare Intl Ap', '-', 'USA', 41.98, -87.92, -6.0, 201.0) wea_from_clear_sky = Wea.from_ashrae_clear_sky(location) assert wea_from_clear_sky.location.city == 'Chicago Ohare Intl Ap' assert wea_from_clear_sky.timestep == 1 assert wea_from_clear_sky.diffuse_horizontal_irradiance[0] == \ pytest.approx(0, rel=1e-3) assert wea_from_clear_sky.direct_normal_irradiance[0] == \ pytest.approx(0, rel=1e-3) assert wea_from_clear_sky.diffuse_horizontal_irradiance[12] == \ pytest.approx(60.72258, rel=1e-3) assert wea_from_clear_sky.direct_normal_irradiance[12] == \ pytest.approx(857.00439, rel=1e-3)
raise ImportError('\nFailed to import ladybug_rhino:\n\t{}'.format(e)) if all_required_inputs(ghenv.Component): stat_obj = STAT(_stat_file) # output location and climate zone location = stat_obj.location ashrae_zone = stat_obj.ashrae_climate_zone koppen_zone = stat_obj.koppen_climate_zone # output clear sky radiation try: # first see if we can get the values from monthly optical depths wea = Wea.from_stat_file(_stat_file) except: # no optical data was found; use the original clear sky wea = Wea.from_ashrae_clear_sky(location) clear_dir_norm_rad = wea.direct_normal_irradiance clear_diff_horiz_rad = wea.diffuse_horizontal_irradiance # output design day objects ann_heat_dday_996 = stat_obj.annual_heating_design_day_996 ann_heat_dday_990 = stat_obj.annual_heating_design_day_990 ann_cool_dday_004 = stat_obj.annual_cooling_design_day_004 ann_cool_dday_010 = stat_obj.annual_cooling_design_day_010 monthly_ddays_050 = stat_obj.monthly_cooling_design_days_050 monthly_ddays_100 = stat_obj.monthly_cooling_design_days_100 # output extreme and typical weeks extreme_cold_week = stat_obj.extreme_cold_week extreme_hot_week = stat_obj.extreme_hot_week typical_weeks = []
clearness_: A factor that will be multiplied by the output of the model. This is to help account for locations where clear, dry skies predominate (e.g., at high elevations) or, conversely, where hazy and humid conditions are frequent. See Threlkeld and Jordan (1958) for recommended values. Typical values range from 0.95 to 1.05 and are usually never more than 1.2. Default is set to 1.0. timestep_: An integer representing the timestep with which to make the WEA object. Default is set to 1 for 1 step per hour of the year. Returns: wea: A wea object from stat file. This wea object represents an original ASHRAE Clear Sky, which is intended to determine peak solar load and sizing parmeters for HVAC systems. """ ghenv.Component.Name = "HoneybeePlus_ClearSky" ghenv.Component.NickName = 'ClearSky' ghenv.Component.Message = 'VER 0.0.05\nOCT_22_2018' ghenv.Component.Category = "HoneybeePlus" ghenv.Component.SubCategory = '02 :: Daylight :: Light Sources' ghenv.Component.AdditionalHelpFromDocStrings = "3" try: from ladybug.wea import Wea except ImportError as e: raise ImportError('\nFailed to import honeybee:\n\t{}'.format(e)) if _location: timestep_ = 1 if timestep_ is None else timestep_ clearness_ = 1 if clearness_ is None else clearness_ wea = Wea.from_ashrae_clear_sky(_location, clearness_, timestep_)