コード例 #1
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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)
コード例 #2
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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)
コード例 #3
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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)
コード例 #4
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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)
コード例 #5
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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)
コード例 #6
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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)
コード例 #7
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# 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):

S_track = tracking.singleaxis(ephem_data['apparent_zenith'],
                              ephem_data['azimuth'],
                              axis_tilt=0,
                              axis_azimuth=0,
                              max_angle=360,
                              backtrack=True)

S['Direct with tracking'] = DNI * np.cos(np.radians(S_track.aoi))

S = S.fillna(0)
S.plot()
#S.to_excel('data/incidentPV.xlsx')
コード例 #8
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def poa_tot(aoi, forecast_data, poa_sky_diffuse, poa_ground_diffuse):
    poa_irrad = irradiance.globalinplane(aoi, forecast_data['dni'],
                                         poa_sky_diffuse, poa_ground_diffuse)
    return (poa_irrad)