Exemplo n.º 1
0
def add_pp_limit(table_collection, year):
    """

    Parameters
    ----------
    table_collection
    year

    Returns
    -------

    """
    if len(cfg.get_list("creator", "limited_transformer")) > 0:
        # Multiply with 1000 to get MWh (bmwi: GWh)
        repp = bmwi.bmwi_re_energy_capacity() * 1000
        trsf = table_collection["power plants"]
        for limit_trsf in cfg.get_list("creator", "limited_transformer"):
            trsf = table_collection["power plants"]
            try:
                limit = repp.loc[year, (limit_trsf, "energy")]
            except KeyError:
                msg = "Cannot calculate limit for {0} in {1}."
                raise ValueError(msg.format(limit_trsf, year))
            cond = trsf["fuel"] == limit_trsf
            cap_sum = trsf.loc[pd.Series(cond)[cond].index, "capacity"].sum()
            trsf.loc[pd.Series(cond)[cond].index, "limit_elec_pp"] = (
                trsf.loc[pd.Series(cond)[cond].index,
                         "capacity"].div(cap_sum).multiply(limit) + 0.5)
        trsf["limit_elec_pp"] = trsf["limit_elec_pp"].fillna(float("inf"))

        table_collection["power plants"] = trsf
    return table_collection
Exemplo n.º 2
0
def create_pvlib_sets():
    """Create pvlib parameter sets from the solar.ini file.

    Returns
    -------
    dict
    """
    # get module and inverter parameter from sandia database
    sandia_modules = pvlib.pvsystem.retrieve_sam('sandiamod')
    sapm_inverters = pvlib.pvsystem.retrieve_sam('sandiainverter')

    pvlib_sets = cfg.get_list('solar', 'set_list')

    pvsets = {}
    for pvlib_set in pvlib_sets:
        set_name = cfg.get(pvlib_set, 'pv_set_name')
        module_name = cfg.get(pvlib_set, 'module_name')
        module_key = cfg.get(pvlib_set, 'module_key')
        inverter = cfg.get(pvlib_set, 'inverter_name')
        azimuth_angles = cfg.get_list(pvlib_set, 'surface_azimuth')
        tilt_angles = cfg.get_list(pvlib_set, 'surface_tilt')
        albedo_values = cfg.get_list(pvlib_set, 'albedo')

        set_idx = 0
        pvsets[set_name] = {}
        for t in tilt_angles:
            if t == '0':
                az_angles = (0, )
            else:
                az_angles = azimuth_angles
            for a in az_angles:
                for alb in albedo_values:
                    set_idx += 1
                    pvsets[set_name][set_idx] = {
                        'module_parameters': sandia_modules[module_name],
                        'inverter_parameters': sapm_inverters[inverter],
                        'surface_azimuth': float(a),
                        'surface_tilt': t,
                        'albedo': float(alb)
                    }
                    pvsets[set_name][set_idx]['p_peak'] = (
                        pvsets[set_name][set_idx]['module_parameters'].Impo *
                        pvsets[set_name][set_idx]['module_parameters'].Vmpo)
                    pvsets[set_name][set_idx]['name'] = "_".join([
                        module_key, inverter[:3],
                        "tlt{}".format(t[:3].rjust(3, '0')),
                        "az{}".format(str(a).rjust(3, '0')),
                        "alb{}".format(str(alb).replace('.', ''))
                    ])
                    logging.debug("PV set: {}".format(
                        pvsets[set_name][set_idx]['name']))

    return pvsets
Exemplo n.º 3
0
def create_windpowerlib_sets():
    """Create parameter sets for the windpowerlib from wind.ini.

    Returns
    -------
    dict

    Examples
    --------
    >>> wind_set = create_windpowerlib_sets()['ENERCON_82_hub98_2300'][1]
    >>> wind_set['hub_height']
    98
    >>> sorted(list(create_windpowerlib_sets().keys()))[:2]
    ['ENERCON_127_hub135_7500', 'ENERCON_82_hub138_2300']
    >>> for key in sorted(wind_set.keys()):
    ...     print(key)
    fetch_curve
    hub_height
    name
    nominal_power
    rotor_diameter
    """
    windpowerlib_sets = cfg.get_list('wind', 'set_list')

    # Only one subset is created but following the pvlib sets it is possible
    # to create subsets.
    windsets = {}
    for windpowerlib_set in windpowerlib_sets:
        w_set = {1: cfg.get_dict(windpowerlib_set)}
        set_name = w_set[1].pop('set_name')
        windsets[set_name] = w_set
    return windsets
Exemplo n.º 4
0
def pp_reegis2deflex(clean_offshore=True):
    filename_out = os.path.join(
        cfg.get('paths', 'powerplants'),
        cfg.get('powerplants', 'deflex_pp')).format(map=cfg.get('init', 'map'))

    # Add deflex regions to powerplants
    deflex_regions = deflex.geometries.deflex_regions()
    name = '{0}_region'.format(cfg.get('init', 'map'))
    pp = reegis.powerplants.add_regions_to_powerplants(deflex_regions, name)

    federal_states = reegis.geometries.load(
        cfg.get('paths', 'geometry'),
        cfg.get('geometry', 'federalstates_polygon'))

    pp = reegis.powerplants.add_regions_to_powerplants(federal_states,
                                                       'federal_states',
                                                       pp=pp)

    # Remove PHES (storages)
    if cfg.get('powerplants', 'remove_phes'):
        pp = pp.loc[pp.technology != 'Pumped storage']

    # Remove powerplants outside Germany
    for state in cfg.get_list('powerplants', 'remove_states'):
        pp = pp.loc[pp.state != state]

    if clean_offshore:
        pp = remove_onshore_technology_from_offshore_regions(pp)

    pp.to_hdf(filename_out, 'pp')
    return filename_out
Exemplo n.º 5
0
def test_get_function():
    """Read config file."""
    files = [
        os.path.join(os.path.dirname(__file__), "data", "config_test.ini")
    ]
    config.init(files=files)
    ok_(config.get("type_tester", "my_bool"))
    ok_(isinstance(config.get("type_tester", "my_int"), int))
    ok_(isinstance(config.get("type_tester", "my_float"), float))
    ok_(isinstance(config.get("type_tester", "my_string"), str))
    ok_(isinstance(config.get("type_tester", "my_None"), type(None)))
    ok_(isinstance(config.get("type_tester", "my_list"), str))
    eq_(int(config.get_list("type_tester", "my_list")[2]), 7)
Exemplo n.º 6
0
def create_windpowerlib_sets():
    """Create parameter sets for the windpowerlib from wind.ini.

    Returns
    -------
    dict

    """
    windpowerlib_sets = cfg.get_list('wind', 'set_list')

    # Only one subset is created but following the pvlib sets it is possible
    # to create subsets.
    windsets = {}
    for windpowerlib_set in windpowerlib_sets:
        w_set = {1: cfg.get_dict(windpowerlib_set)}
        set_name = w_set[1].pop('set_name')
        windsets[set_name] = w_set
    return windsets
Exemplo n.º 7
0
def get_map_config():
    maps = {}
    keys = cfg.get_list('fis_broker', 'maps')
    for key in keys:
        maps[key] = cfg.get_dict(key)
    return maps
Exemplo n.º 8
0
def create_pvlib_sets():
    """Create pvlib parameter sets from the solar.ini file.

    Returns
    -------
    dict

    Examples
    --------
    >>> pv_set=create_pvlib_sets()['M_LG290G3__I_ABB_MICRO_025_US208'][3]
    >>> int(pv_set['surface_azimuth'])
    180
    >>> for key in sorted(pv_set.keys()):
    ...     print(key)
    albedo
    inverter_parameters
    module_parameters
    name
    p_peak
    surface_azimuth
    surface_tilt
    """
    # get module and inverter parameter from sandia database
    sandia_modules = pvlib.pvsystem.retrieve_sam("sandiamod")
    sapm_inverters = pvlib.pvsystem.retrieve_sam("sandiainverter")

    pvlib_sets = cfg.get_list("solar", "set_list")

    pvsets = {}
    for pvlib_set in pvlib_sets:
        set_name = cfg.get(pvlib_set, "pv_set_name")
        module_name = cfg.get(pvlib_set, "module_name")
        module_key = cfg.get(pvlib_set, "module_key")
        inverter = cfg.get(pvlib_set, "inverter_name")
        azimuth_angles = cfg.get_list(pvlib_set, "surface_azimuth")
        tilt_angles = cfg.get_list(pvlib_set, "surface_tilt")
        albedo_values = cfg.get_list(pvlib_set, "albedo")

        set_idx = 0
        pvsets[set_name] = {}
        for t in tilt_angles:
            if t == "0":
                az_angles = (0, )
            else:
                az_angles = azimuth_angles
            for a in az_angles:
                for alb in albedo_values:
                    set_idx += 1
                    pvsets[set_name][set_idx] = {
                        "module_parameters": sandia_modules[module_name],
                        "inverter_parameters": sapm_inverters[inverter],
                        "surface_azimuth": float(a),
                        "surface_tilt": t,
                        "albedo": float(alb),
                    }
                    pvsets[set_name][set_idx]["p_peak"] = (
                        pvsets[set_name][set_idx]["module_parameters"].Impo *
                        pvsets[set_name][set_idx]["module_parameters"].Vmpo)
                    pvsets[set_name][set_idx]["name"] = "_".join([
                        module_key,
                        inverter[:3],
                        "tlt{}".format(t[:3].rjust(3, "0")),
                        "az{}".format(str(a).rjust(3, "0")),
                        "alb{}".format(str(alb).replace(".", "")),
                    ])
                    logging.debug("PV set: {}".format(
                        pvsets[set_name][set_idx]["name"]))

    return pvsets
Exemplo n.º 9
0
def get_heat_profiles_deflex(deflex_geo,
                             year,
                             time_index=None,
                             weather_year=None,
                             keep_unit=False):
    """

    Parameters
    ----------
    year
    deflex_geo
    time_index
    weather_year
    keep_unit

    Returns
    -------

    """
    # separate_regions=keep all demand connected to the region
    separate_regions = cfg.get_list("creator", "separate_heat_regions")
    # Add lower and upper cases to be not case sensitive
    separate_regions = [x.upper() for x in separate_regions
                        ] + [x.lower() for x in separate_regions]

    # add second fuel to first
    # combine_fuels = cfg.get_dict("combine_heat_fuels")
    combine_fuels = {"natural gas": "gas"}

    # fuels to be dissolved per region
    region_fuels = cfg.get_list("creator", "local_fuels")

    fn = os.path.join(
        cfg.get("paths", "demand"),
        "heat_profiles_{year}_{map}".format(year=year, map=deflex_geo.name),
    )

    demand_region = (demand_heat.get_heat_profiles_by_region(
        deflex_geo, year, to_csv=fn,
        weather_year=weather_year).groupby(level=[0, 1], axis=1).sum())

    # Decentralised demand is combined to a nation-wide demand if not part
    # of region_fuels.
    regions = list(
        set(demand_region.columns.get_level_values(0).unique()) -
        set(separate_regions))

    # If region_fuels is 'all' fetch all fuels to be local.
    if "all" in region_fuels:
        region_fuels = demand_region.columns.get_level_values(1).unique()

    for fuel in demand_region.columns.get_level_values(1).unique():
        demand_region["DE", fuel] = 0

    for region in regions:
        for f1, f2 in combine_fuels.items():
            demand_region[region, f1] += demand_region[region, f2]
            demand_region.drop((region, f2), axis=1, inplace=True)
        cols = list(set(demand_region[region].columns) - set(region_fuels))
        for col in cols:
            demand_region["DE", col] += demand_region[region, col]
            demand_region.drop((region, col), axis=1, inplace=True)

    if time_index is not None:
        demand_region.index = time_index

    if not keep_unit:
        msg = ("The unit of the source is 'TJ'. "
               "Will be divided by {0} to get 'MWh'.")
        converter = 0.0036
        demand_region = demand_region.div(converter)
        logging.debug(msg.format(converter))

    demand_region.sort_index(1, inplace=True)

    for c in demand_region.columns:
        if demand_region[c].sum() == 0:
            demand_region.drop(c, axis=1, inplace=True)

    return demand_region