Esempio n. 1
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def test_get_standard_effective_temperature():
    """Test the get_standard_effective_temperature method."""
    calc_length = 8760
    set_obj = PMV.from_epw(epw, False, False, met_rate=2.4, clo_value=1.0)

    assert isinstance(set_obj, PMV)
    assert isinstance(set_obj.air_temperature, HourlyContinuousCollection)
    assert len(set_obj.air_temperature.values) == calc_length
    assert set_obj.air_temperature[0] == -6.1
    assert isinstance(set_obj.rel_humidity, HourlyContinuousCollection)
    assert len(set_obj.rel_humidity.values) == calc_length
    assert set_obj.rel_humidity[0] == 81

    assert isinstance(set_obj.standard_effective_temperature,
                      HourlyContinuousCollection)
    assert len(set_obj.standard_effective_temperature.values) == calc_length
    assert set_obj.standard_effective_temperature[0] == pytest.approx(12.76,
                                                                      rel=1e-2)
    assert isinstance(set_obj.thermal_condition, HourlyContinuousCollection)
    assert len(set_obj.thermal_condition.values) == calc_length
    assert set_obj.thermal_condition[0] == -1

    assert set_obj.percent_neutral == pytest.approx(18.961187, rel=1e-3)
    assert set_obj.percent_hot == pytest.approx(38.6415525, rel=1e-3)
    assert set_obj.percent_cold == pytest.approx(42.39726, rel=1e-3)
Esempio n. 2
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def test_get_standard_effective_temperature_with_wind():
    """Test the get_standard_effective_temperature method with wind."""
    set_obj = PMV.from_epw(epw, True, False, met_rate=2.4, clo_value=1.0)

    assert set_obj.percent_neutral == pytest.approx(19.82, rel=1e-2)
    assert set_obj.percent_hot == pytest.approx(15.56, rel=1e-2)
    assert set_obj.percent_cold == pytest.approx(64.61, rel=1e-2)
Esempio n. 3
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def test_get_standard_effective_temperature_with_sun():
    """Test the get_standard_effective_temperature method with sun."""
    set_obj = PMV.from_epw(epw, False, True, met_rate=2.4, clo_value=1.0)

    assert set_obj.percent_neutral == pytest.approx(17.043378, rel=1e-3)
    assert set_obj.percent_hot == pytest.approx(44.56621, rel=1e-3)
    assert set_obj.percent_cold == pytest.approx(38.39041, rel=1e-3)
Esempio n. 4
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def test_get_standard_effective_temperature_with_sun_and_wind():
    """Test the get_standard_effective_temperature method with sun and wind."""
    set_obj = PMV.from_epw(epw, True, True, met_rate=2.4, clo_value=1.0)

    assert set_obj.percent_neutral == pytest.approx(17.95, rel=1e-2)
    assert set_obj.percent_hot == pytest.approx(18.82, rel=1e-2)
    assert set_obj.percent_cold == pytest.approx(63.23, rel=1e-2)
Esempio n. 5
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def test_pmv_collection_defaults():
    """Test the default inputs assigned to the PMV collection."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C',
                             AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    pmv_obj = PMV(air_temp, 50)

    assert isinstance(pmv_obj.rad_temperature, HourlyContinuousCollection)
    assert len(pmv_obj.rad_temperature.values) == calc_length
    assert pmv_obj.rad_temperature[0] == pmv_obj.air_temperature[0]

    assert isinstance(pmv_obj.air_speed, HourlyContinuousCollection)
    assert len(pmv_obj.air_speed.values) == calc_length
    assert pmv_obj.air_speed[0] == 0.1

    assert isinstance(pmv_obj.met_rate, HourlyContinuousCollection)
    assert len(pmv_obj.met_rate.values) == calc_length
    assert pmv_obj.met_rate[0] == 1.1

    assert isinstance(pmv_obj.clo_value, HourlyContinuousCollection)
    assert len(pmv_obj.clo_value.values) == calc_length
    assert pmv_obj.clo_value[0] == 0.7

    assert isinstance(pmv_obj.external_work, HourlyContinuousCollection)
    assert len(pmv_obj.external_work.values) == calc_length
    assert pmv_obj.external_work[0] == 0

    assert isinstance(pmv_obj.comfort_parameter, PMVParameter)
    default_par = PMVParameter()
    assert pmv_obj.comfort_parameter.ppd_comfort_thresh == default_par.ppd_comfort_thresh
    assert pmv_obj.comfort_parameter.humid_ratio_upper == default_par.humid_ratio_upper
    assert pmv_obj.comfort_parameter.humid_ratio_lower == default_par.humid_ratio_lower
    assert pmv_obj.comfort_parameter.still_air_threshold == default_par.still_air_threshold
Esempio n. 6
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def test_init_pmv_collection_full_collection_input():
    """Test initialization of the PMV collection will all inputs as collections."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C', AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    rel_humid_header = Header(RelativeHumidity(), '%', AnalysisPeriod(end_month=1, end_day=1))
    rel_humid = HourlyContinuousCollection(rel_humid_header, [50] * calc_length)
    rad_temp_header = Header(Temperature(), 'C', AnalysisPeriod(end_month=1, end_day=1))
    rad_temp = HourlyContinuousCollection(rad_temp_header, [22] * calc_length)
    air_speed_header = Header(AirSpeed(), 'm/s', AnalysisPeriod(end_month=1, end_day=1))
    air_speed = HourlyContinuousCollection(air_speed_header, [0.5] * calc_length)
    met_header = Header(MetabolicRate(), 'met', AnalysisPeriod(end_month=1, end_day=1))
    met_rate = HourlyContinuousCollection(met_header, [1.2] * calc_length)
    clo_header = Header(ClothingInsulation(), 'clo', AnalysisPeriod(end_month=1, end_day=1))
    clo_level = HourlyContinuousCollection(clo_header, [0.85] * calc_length)
    work_header = Header(MetabolicRate(), 'met', AnalysisPeriod(end_month=1, end_day=1))
    ext_work = HourlyContinuousCollection(work_header, [0.1] * calc_length)

    pmv_obj = PMV(air_temp, rel_humid, rad_temp, air_speed, met_rate, clo_level, ext_work)

    assert pmv_obj.air_temperature[0] == 24
    assert pmv_obj.rel_humidity[0] == 50
    assert pmv_obj.rad_temperature[0] == 22
    assert pmv_obj.air_speed[0] == 0.5
    assert pmv_obj.met_rate[0] == 1.2
    assert pmv_obj.clo_value[0] == 0.85
    assert pmv_obj.external_work[0] == 0.1
Esempio n. 7
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def test_init_pmv_collection():
    """Test the initialization of the PMV collection and basic outputs."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C',
                             AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    pmv_obj = PMV(air_temp, 50)

    assert pmv_obj.comfort_model == 'Predicted Mean Vote'
    assert pmv_obj.calc_length == calc_length
    assert pmv_obj._hr_calculated is False
    assert pmv_obj._hr_comfort_required is False
    str(pmv_obj)  # test that the string representaiton is ok

    assert isinstance(pmv_obj.air_temperature, HourlyContinuousCollection)
    assert len(pmv_obj.air_temperature.values) == calc_length
    assert pmv_obj.air_temperature[0] == 24
    assert isinstance(pmv_obj.rel_humidity, HourlyContinuousCollection)
    assert len(pmv_obj.rel_humidity.values) == calc_length
    assert pmv_obj.rel_humidity[0] == 50

    assert isinstance(pmv_obj.predicted_mean_vote, HourlyContinuousCollection)
    assert len(pmv_obj.predicted_mean_vote.values) == calc_length
    assert pmv_obj.predicted_mean_vote[0] == pytest.approx(-0.0535, rel=1e-2)
    assert isinstance(pmv_obj.percentage_people_dissatisfied,
                      HourlyContinuousCollection)
    assert len(pmv_obj.percentage_people_dissatisfied.values) == calc_length
    assert pmv_obj.percentage_people_dissatisfied[0] == pytest.approx(5.0594,
                                                                      rel=1e-2)
    assert isinstance(pmv_obj.standard_effective_temperature,
                      HourlyContinuousCollection)
    assert len(pmv_obj.standard_effective_temperature.values) == calc_length
    assert pmv_obj.standard_effective_temperature[0] == pytest.approx(25.0694,
                                                                      rel=1e-2)
Esempio n. 8
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def test_pmv_collection_comfort_outputs():
    """Test the is_comfortable and thermal_condition outputs of the PMV collection."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C',
                             AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header,
                                          range(20, 20 + calc_length))
    pmv_obj = PMV(air_temp, 50)

    assert isinstance(pmv_obj.is_comfortable, HourlyContinuousCollection)
    assert len(pmv_obj.is_comfortable.values) == calc_length
    assert pmv_obj.is_comfortable[0] == 0
    assert pmv_obj.is_comfortable[5] == 1
    assert pmv_obj.is_comfortable[10] == 0

    assert isinstance(pmv_obj.thermal_condition, HourlyContinuousCollection)
    assert len(pmv_obj.thermal_condition.values) == calc_length
    assert pmv_obj.thermal_condition[0] == -1
    assert pmv_obj.thermal_condition[5] == 0
    assert pmv_obj.thermal_condition[10] == 1

    assert isinstance(pmv_obj.discomfort_reason, HourlyContinuousCollection)
    assert len(pmv_obj.discomfort_reason.values) == calc_length
    assert pmv_obj.discomfort_reason[0] == -1
    assert pmv_obj.discomfort_reason[5] == 0
    assert pmv_obj.discomfort_reason[10] == 1
Esempio n. 9
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def test_pmv_collection_immutability():
    """Test that the PMV collection is immutable."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C',
                             AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    pmv_obj = PMV(air_temp, 50)

    # check that editing the original collection does not mutate the object
    air_temp[0] = 26
    assert pmv_obj.air_temperature[0] == 24

    # check that editing collection properties does not mutate the object
    with pytest.raises(Exception):
        pmv_obj.air_temperature[0] = 26
    with pytest.raises(Exception):
        pmv_obj.air_temperature.values = [26] * calc_length
    with pytest.raises(Exception):
        pmv_obj.predicted_mean_vote[0] = 0.5
    with pytest.raises(Exception):
        pmv_obj.predicted_mean_vote.values = [0.5] * calc_length
    pmv_obj.comfort_parameter.ppd_comfort_thresh = 15
    assert pmv_obj.comfort_parameter.ppd_comfort_thresh == 10

    # check that properties cannot be edited directly
    with pytest.raises(Exception):
        pmv_obj.air_temperature = air_temp
    with pytest.raises(Exception):
        pmv_obj.predicted_mean_vote = air_temp
    with pytest.raises(Exception):
        pmv_obj.comfort_parameter = PMVParameter()
Esempio n. 10
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def test_pmv_collection_humidity_ratio_outputs():
    """Test the humudity ratio outputs of the PMV collection."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C', AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    pmv_obj = PMV(air_temp, 90)

    assert isinstance(pmv_obj.humidity_ratio, HourlyContinuousCollection)
    assert len(pmv_obj.humidity_ratio.values) == calc_length
    assert pmv_obj.humidity_ratio[0] == pytest.approx(0.016939, rel=1e-3)

    hr_par = PMVParameter(humid_ratio_upper=0.012)
    pmv_obj = PMV(air_temp, 90, comfort_parameter=hr_par)
    assert pmv_obj._hr_calculated is True
    assert pmv_obj._hr_comfort_required is True

    assert pmv_obj.humidity_ratio[0] == pytest.approx(0.016939, rel=1e-3)
    assert pmv_obj.is_comfortable[0] == 0
    assert pmv_obj.thermal_condition[0] == 0
    assert pmv_obj.discomfort_reason[0] == 2
Esempio n. 11
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def test_pmv_collection_comfort_percent_outputs():
    """Test the percent outputs of the PMV collection."""
    relative_path = './tests/epw/chicago.epw'
    epw = EPW(relative_path)
    pmv_obj = PMV(epw.dry_bulb_temperature, epw.relative_humidity,
                  met_rate=2.4, clo_value=1)

    assert pmv_obj.percent_comfortable == pytest.approx(18.961187, rel=1e-3)
    assert pmv_obj.percent_uncomfortable == pytest.approx(81.0388127, rel=1e-3)
    assert pmv_obj.percent_neutral == pytest.approx(18.961187, rel=1e-3)
    assert pmv_obj.percent_hot == pytest.approx(38.6415525, rel=1e-3)
    assert pmv_obj.percent_cold == pytest.approx(42.39726027, rel=1e-3)
    assert pmv_obj.percent_dry == 0.0
    assert pmv_obj.percent_humid == 0.0
Esempio n. 12
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def test_pmv_collection_heat_loss_outputs():
    """Test the heat loss outputs of the PMV collection."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C',
                             AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    pmv_obj = PMV(air_temp, 50, air_speed=0.5)

    assert isinstance(pmv_obj.adjusted_air_temperature,
                      HourlyContinuousCollection)
    assert len(pmv_obj.adjusted_air_temperature.values) == calc_length
    assert pmv_obj.adjusted_air_temperature[0] == pytest.approx(21.79,
                                                                rel=1e-2)

    assert isinstance(pmv_obj.cooling_effect, HourlyContinuousCollection)
    assert len(pmv_obj.cooling_effect.values) == calc_length
    assert pmv_obj.cooling_effect[0] == pytest.approx(2.215, rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_conduction, HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_conduction.values) == calc_length
    assert pmv_obj.heat_loss_conduction[0] == pytest.approx(12.14, rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_sweating, HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_sweating.values) == calc_length
    assert pmv_obj.heat_loss_sweating[0] == pytest.approx(2.44, rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_latent_respiration,
                      HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_latent_respiration.values) == calc_length
    assert pmv_obj.heat_loss_latent_respiration[0] == pytest.approx(4.95,
                                                                    rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_dry_respiration,
                      HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_dry_respiration.values) == calc_length
    assert pmv_obj.heat_loss_dry_respiration[0] == pytest.approx(1.093,
                                                                 rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_radiation, HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_radiation.values) == calc_length
    assert pmv_obj.heat_loss_radiation[0] == pytest.approx(28.78, rel=1e-2)

    assert isinstance(pmv_obj.heat_loss_convection, HourlyContinuousCollection)
    assert len(pmv_obj.heat_loss_convection.values) == calc_length
    assert pmv_obj.heat_loss_convection[0] == pytest.approx(26.296, rel=1e-2)
Esempio n. 13
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def test_init_pmv_collection_epw():
    """Test the initialization of the PMV collection with EPW input."""
    calc_length = 8760
    relative_path = './tests/epw/chicago.epw'
    epw = EPW(relative_path)
    pmv_obj = PMV(epw.dry_bulb_temperature, epw.relative_humidity)

    assert len(pmv_obj.air_temperature.values) == calc_length
    assert pmv_obj.air_temperature[0] == -6.1
    assert len(pmv_obj.rel_humidity.values) == calc_length
    assert pmv_obj.rel_humidity[0] == 81

    assert len(pmv_obj.predicted_mean_vote.values) == calc_length
    assert pmv_obj.predicted_mean_vote[0] == pytest.approx(-8.70793209, rel=1e-3)
    assert len(pmv_obj.percentage_people_dissatisfied.values) == calc_length
    assert pmv_obj.percentage_people_dissatisfied[0] == pytest.approx(100.0, rel=1e-1)
    assert len(pmv_obj.standard_effective_temperature.values) == calc_length
    assert pmv_obj.standard_effective_temperature[0] == pytest.approx(-3.65, rel=1e-2)
Esempio n. 14
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def test_init_pmv_collection_full_input():
    """Test the initialization of the PMV collection will all inputs."""
    calc_length = 24
    air_temp_header = Header(Temperature(), 'C', AnalysisPeriod(end_month=1, end_day=1))
    air_temp = HourlyContinuousCollection(air_temp_header, [24] * calc_length)
    custom_par = PMVParameter(15, 0.012, 0.004, 0.2)
    pmv_obj = PMV(air_temp, 50, 22, 0.5, 1.2, 0.85, 0.1, custom_par)

    assert pmv_obj.air_temperature[0] == 24
    assert pmv_obj.rel_humidity[0] == 50
    assert pmv_obj.rad_temperature[0] == 22
    assert pmv_obj.air_speed[0] == 0.5
    assert pmv_obj.met_rate[0] == 1.2
    assert pmv_obj.clo_value[0] == 0.85
    assert pmv_obj.external_work[0] == 0.1
    assert pmv_obj.comfort_parameter.ppd_comfort_thresh == 15
    assert pmv_obj.comfort_parameter.humid_ratio_upper == 0.012
    assert pmv_obj.comfort_parameter.humid_ratio_lower == 0.004
    assert pmv_obj.comfort_parameter.still_air_threshold == 0.2
Esempio n. 15
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def set_(epw_file, include_wind, include_sun, met_rate, clo_value, csv,
         output_file):
    """Get a data collection for Standard Effective Temperature from an EPW weather file.

    \b
    Args:
        epw_file: Path to an .epw file.
    """
    try:
        epw_obj = EPW(epw_file)
        pmv_obj = PMV.from_epw(epw_obj, include_wind, include_sun, met_rate,
                               clo_value)
        set_data = pmv_obj.standard_effective_temperature
        if csv:
            output_file.write('\n'.join([str(v) for v in set_data.values]))
        else:
            output_file.write(json.dumps(set_data.to_dict()))
    except Exception as e:
        _logger.exception('Failed to get SET from EPW file.\n{}'.format(e))
        sys.exit(1)
    else:
        sys.exit(0)
Esempio n. 16
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        pmv = pmv_result['pmv']
        ppd = pmv_result['ppd']
        set = pmv_result['set']
        hr = humid_ratio_from_db_rh(input[0], input[3])
        comfort = pmv_par.is_comfortable(pmv_result['ppd'], hr)
        condition = pmv_par.discomfort_reason(pmv_result['pmv'],
                                              pmv_result['ppd'])
        heat_loss = [
            pmv_result['heat_loss']['cond'], pmv_result['heat_loss']['sweat'],
            pmv_result['heat_loss']['res_l'], pmv_result['heat_loss']['res_s'],
            pmv_result['heat_loss']['rad'], pmv_result['heat_loss']['conv']
        ]
    else:
        # The inputs include Data Collections.
        if not isinstance(_air_temp, BaseCollection):
            _air_temp = data_colls[0].get_aligned_collection(
                float(_air_temp), Temperature(), 'C')

        comf_obj = PMV(_air_temp, _rel_humid, _mrt_, _air_speed_, _met_rate_,
                       _clothing_, 0, pmv_par)
        pmv = comf_obj.predicted_mean_vote
        ppd = comf_obj.percentage_people_dissatisfied
        set = comf_obj.standard_effective_temperature
        comfort = comf_obj.is_comfortable
        condition = comf_obj.discomfort_reason
        heat_loss = [
            comf_obj.heat_loss_conduction, comf_obj.heat_loss_sweating,
            comf_obj.heat_loss_latent_respiration,
            comf_obj.heat_loss_dry_respiration, comf_obj.heat_loss_radiation,
            comf_obj.heat_loss_convection
        ]
Esempio n. 17
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def pmv_by_room(result_sql, air_speed, met_rate, clo_value, comfort_par,
                result_type, output_file):
    """Get data collections for PMV in each room from an EnergyPlus sql.

    \b
    Args:
        result_sql: Path to an SQLite file that was generated by EnergyPlus. This
            file must contain hourly or sub-hourly results for zone comfort variables.
    """
    try:
        # load the energyplus results related to thermal comfort
        sql_obj = SQLiteResult(result_sql)
        air_temps = sql_obj.data_collections_by_output_name(
            'Zone Mean Air Temperature')
        rad_temps = sql_obj.data_collections_by_output_name(
            'Zone Mean Radiant Temperature')
        huimidities = sql_obj.data_collections_by_output_name(
            'Zone Air Relative Humidity')

        # load any of the other data collections if specified
        assert len(air_temps) != 0, \
            'Input result-sql does not contain thermal comfort outputs.'
        base_data = air_temps[0]
        air_speed = _load_data(air_speed, base_data, AirSpeed, 'm/s')
        met_rate = _load_data(met_rate, base_data, MetabolicRate, 'met')
        clo_value = _load_data(clo_value, base_data, ClothingInsulation, 'clo')

        # get aligned data for each room
        align_dict = {
            a_dat.header.metadata['Zone']: [a_dat]
            for a_dat in air_temps
        }
        for h_dat in huimidities:
            align_dict[h_dat.header.metadata['System']].append(h_dat)
        for r_dat in rad_temps:
            align_dict[r_dat.header.metadata['Zone']].append(r_dat)

        # run the collections through the PMV model and output results
        param = _load_pmv_par_str(comfort_par)
        pmv_colls = []
        for res in align_dict.values():
            pmv_obj = PMV(res[0],
                          res[1],
                          res[2],
                          air_speed,
                          met_rate,
                          clo_value,
                          comfort_parameter=param)
            if result_type == 'PMV':
                pmv_colls.append(pmv_obj.predicted_mean_vote)
            elif result_type == 'PPD':
                pmv_colls.append(pmv_obj.percentage_people_dissatisfied)
            elif result_type == 'SET':
                pmv_colls.append(pmv_obj.standard_effective_temperature)
            elif result_type == 'Comfort':
                pmv_colls.append(pmv_obj.is_comfortable)
            else:
                pmv_colls.append(pmv_obj.thermal_condition)
        output_file.write(json.dumps([col.to_dict() for col in pmv_colls]))
    except Exception as e:
        _logger.exception(
            'Failed to run PMV model from sql file.\n{}'.format(e))
        sys.exit(1)
    else:
        sys.exit(0)