def test_wet_psychrometric_rh(): """Test calculation of relative humidity from wet and dry bulb temperatures.""" p = 1013.25 * units.mbar dry_bulb_temperature = 20. * units.degC wet_bulb_temperature = 18. * units.degC psychrometric_rh = relative_humidity_wet_psychrometric(dry_bulb_temperature, wet_bulb_temperature, p) assert_almost_equal(psychrometric_rh, 82.8747 * units.percent, 3)
def test_wet_psychrometric_rh(): """Test calculation of relative humidity from wet and dry bulb temperatures.""" p = 1013.25 * units.mbar dry_bulb_temperature = 20. * units.degC wet_bulb_temperature = 18. * units.degC psychrometric_rh = relative_humidity_wet_psychrometric(dry_bulb_temperature, wet_bulb_temperature, p) assert_almost_equal(psychrometric_rh, 82.8747 * units.percent, 3)
def test_wet_psychrometric_rh_kwargs(): """Test calculation of relative humidity from wet and dry bulb temperatures.""" p = 1013.25 * units.mbar dry_bulb_temperature = 20. * units.degC wet_bulb_temperature = 18. * units.degC coeff = 6.1e-4 / units.kelvin psychrometric_rh = relative_humidity_wet_psychrometric(dry_bulb_temperature, wet_bulb_temperature, p, psychrometer_coefficient=coeff) assert_almost_equal(psychrometric_rh, 82.9701 * units.percent, 3)
def test_wet_psychrometric_rh_kwargs(): """Test calculation of relative humidity from wet and dry bulb temperatures.""" p = 1013.25 * units.mbar dry_bulb_temperature = 20. * units.degC wet_bulb_temperature = 18. * units.degC coeff = 6.1e-4 / units.kelvin psychrometric_rh = relative_humidity_wet_psychrometric(dry_bulb_temperature, wet_bulb_temperature, p, psychrometer_coefficient=coeff) assert_almost_equal(psychrometric_rh, 82.9701 * units.percent, 3)