Esempi in Python per grounddiffuse

Esempio n. 1

File: test_irradiance.py Progetto: vishnuvarma123/pvlib-python

def test_deprecated_07():
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.extraradiation(300)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.grounddiffuse(40, 900)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.total_irrad(32, 180, 10, 180, 0, 0, 0, 1400, 1)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.globalinplane(0, 1000, 100, 10)

Esempio n. 2

File: test_irradiance.py Progetto: anomam/pvlib-python

def test_deprecated_07():
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.extraradiation(300)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.grounddiffuse(40, 900)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.total_irrad(32, 180, 10, 180, 0, 0, 0, 1400, 1)
    with pytest.warns(pvlibDeprecationWarning):
        irradiance.globalinplane(0, 1000, 100, 10)

Esempio n. 3

File: test_irradiance.py Progetto: Monisha-mohan/pvlib-python

def test_globalinplane():
    AOI = irradiance.aoi(40, 180, ephem_data['apparent_zenith'],
                         ephem_data['apparent_azimuth'])
    AM = atmosphere.relativeairmass(ephem_data['apparent_zenith'])
    gr_sand = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    diff_perez = irradiance.perez(
        40, 180, irrad_data['DHI'], irrad_data['DNI'], dni_et,
        ephem_data['apparent_zenith'], ephem_data['apparent_azimuth'], AM)
    irradiance.globalinplane(
        AOI=AOI, DNI=irrad_data['DNI'], In_Plane_SkyDiffuse=diff_perez,
        GR=gr_sand)

Esempio n. 4

File: test_irradiance.py Progetto: MoonRaker/pvlib-python

def test_globalinplane():
    aoi = irradiance.aoi(40, 180, ephem_data['apparent_zenith'],
                         ephem_data['apparent_azimuth'])
    airmass = atmosphere.relativeairmass(ephem_data['apparent_zenith'])
    gr_sand = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    diff_perez = irradiance.perez(
        40, 180, irrad_data['dhi'], irrad_data['dni'], dni_et,
        ephem_data['apparent_zenith'], ephem_data['apparent_azimuth'], airmass)
    irradiance.globalinplane(
        aoi=aoi, dni=irrad_data['dni'], poa_sky_diffuse=diff_perez,
        poa_ground_diffuse=gr_sand)

Esempio n. 5

def test_globalinplane():
    aoi = irradiance.aoi(40, 180, ephem_data['apparent_zenith'],
                         ephem_data['azimuth'])
    airmass = atmosphere.relativeairmass(ephem_data['apparent_zenith'])
    gr_sand = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    diff_perez = irradiance.perez(
        40, 180, irrad_data['dhi'], irrad_data['dni'], dni_et,
        ephem_data['apparent_zenith'], ephem_data['azimuth'], airmass)
    irradiance.globalinplane(
        aoi=aoi, dni=irrad_data['dni'], poa_sky_diffuse=diff_perez,
        poa_ground_diffuse=gr_sand)

Esempio n. 6

File: test_irradiance.py Progetto: edresch/pvlib-python

def test_globalinplane():
    AOI = irradiance.aoi(40, 180, ephem_data['apparent_zenith'],
                         ephem_data['apparent_azimuth'])
    AM = atmosphere.relativeairmass(ephem_data['apparent_zenith'])
    gr_sand = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    diff_perez = irradiance.perez(40, 180, irrad_data['DHI'],
                                  irrad_data['DNI'], dni_et,
                                  ephem_data['apparent_zenith'],
                                  ephem_data['apparent_azimuth'], AM)
    irradiance.globalinplane(AOI=AOI,
                             DNI=irrad_data['DNI'],
                             In_Plane_SkyDiffuse=diff_perez,
                             GR=gr_sand)

Esempio n. 7

File: test_irradiance.py Progetto: UARENForecasting/PVLIB_Python

def test_grounddiffuse_albedo_surface():
    irradiance.grounddiffuse(40, ghi, surface_type='sand')

Esempio n. 8

File: test_irradiance.py Progetto: UARENForecasting/PVLIB_Python

def test_grounddiffuse_albedo_invalid_surface():
    irradiance.grounddiffuse(40, ghi, surface_type='invalid')

Esempio n. 9

File: test_irradiance.py Progetto: UARENForecasting/PVLIB_Python

def test_grounddiffuse_albedo_0():
    ground_irrad = irradiance.grounddiffuse(40, ghi, albedo=0)
    assert 0 == ground_irrad.all()

Esempio n. 10

File: test_irradiance.py Progetto: UARENForecasting/PVLIB_Python

def test_grounddiffuse_simple_series():
    ground_irrad = irradiance.grounddiffuse(40, ghi)
    assert ground_irrad.name == 'diffuse_ground'

Esempio n. 11

File: test_irradiance.py Progetto: iamkaptain/pvlib-python

def test_grounddiffuse_albedo_surface():
    result = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    assert_allclose(result, [0, 3.731058, 48.778813, 12.035025], atol=1e-4)

Esempio n. 12

File: test_irradiance.py Progetto: jkwinta/pvlib-python

def test_grounddiffuse_albedo_invalid_surface():
    with pytest.raises(KeyError):
        irradiance.grounddiffuse(40, ghi, surface_type='invalid')

Esempio n. 13

File: test_irradiance.py Progetto: jkwinta/pvlib-python

def test_grounddiffuse_simple_series():
    ground_irrad = irradiance.grounddiffuse(40, ghi)
    assert ground_irrad.name == 'diffuse_ground'

Esempio n. 14

def test_grounddiffuse_albedo_invalid_surface():
    irradiance.grounddiffuse(40, ghi, surface_type='invalid')

Esempio n. 15

def test_grounddiffuse_simple_float():
    irradiance.grounddiffuse(40, 900)

Esempio n. 16

File: test_irradiance.py Progetto: dpete2008/Sandia

def test_grounddiffuse_albedo_invalid_surface():
    with pytest.raises(KeyError):
        irradiance.grounddiffuse(40, ghi, surface_type='invalid')

Esempio n. 17

File: test_irradiance.py Progetto: iamkaptain/pvlib-python

def test_grounddiffuse_simple_float():
    result = irradiance.grounddiffuse(40, 900)
    assert_allclose(result, 26.32000014911496)

Esempio n. 18

File: test_irradiance.py Progetto: jkwinta/pvlib-python

def test_grounddiffuse_albedo_surface():
    result = irradiance.grounddiffuse(40, ghi, surface_type='sand')
    assert_allclose(result, [0, 3.731058, 48.778813, 12.035025], atol=1e-4)

Esempio n. 19

File: test_irradiance.py Progetto: jkwinta/pvlib-python

def test_grounddiffuse_simple_float():
    result = irradiance.grounddiffuse(40, 900)
    assert_allclose(result, 26.32000014911496)

Esempio n. 20

def test_grounddiffuse_albedo_surface():
    irradiance.grounddiffuse(40, ghi, surface_type='sand')

Esempio n. 21

File: test_irradiance.py Progetto: jkwinta/pvlib-python

def test_grounddiffuse_albedo_0():
    ground_irrad = irradiance.grounddiffuse(40, ghi, albedo=0)
    assert 0 == ground_irrad.all()

Esempio n. 22

File: test_irradiance.py Progetto: UARENForecasting/PVLIB_Python

def test_grounddiffuse_simple_float():
    irradiance.grounddiffuse(40, 900)

Esempio n. 23

File: PV_forecast_GUI_1_1.py Progetto: amtelford/Solar_tools

def poa_gd(forecast_data, surf_tilt=33.865143, albedo=0.2):
    poa_ground_diffuse = irradiance.grounddiffuse(surf_tilt,
                                                  forecast_data["ghi"],
                                                  albedo=albedo)
    return (poa_ground_diffuse)

Esempio n. 24

File: 01_Generate_Irradiation_Data.py Progetto: xcyi2017/uGrid

first = epw.weatherdata[0]
last = epw.weatherdata[-1]
times = pd.date_range(start=datetime.datetime(2015, first.month, first.day),
                      end=datetime.datetime(2015, last.month, last.day, 23, 59,
                                            59),
                      freq='h')

# Compute the sun position at each hour of the year:
ephem_data = solarposition.get_solarposition(times,
                                             latitude=latitude,
                                             longitude=longitude,
                                             method='nrel_numpy')

# Compute the diffuse irradiance on the panel, reflected from the ground:
S_d_reflect = irradiance.grounddiffuse(surface_tilt,
                                       I_hor,
                                       albedo=0.25,
                                       surface_type=None)

# Compute the diffuse irradiance on the panel, from the sky:
S_d_sky = irradiance.klucher(surface_tilt, surface_azimuth, I_d_hor, I_hor,
                             ephem_data['zenith'], ephem_data['azimuth'])

# Compute the angles between the panel and the sun:
aoi = irradiance.aoi(surface_tilt, surface_azimuth, ephem_data['zenith'],
                     ephem_data['azimuth'])

# Compute the global irradiance on the panel:
S = irradiance.globalinplane(aoi, DNI, S_d_sky, S_d_reflect)

# Second case: with tracking (axis is supposed to be north-south):