示例#1
0
def test_convert_format_for_pp_objects(net_in):
    pp.create_transformer(net_in,
                          net_in.bus.index.values[0],
                          net_in.bus.index.values[1],
                          '0.25 MVA 20/0.4 kV',
                          tap_pos=0)
    c1 = control.ContinuousTapControl(net_in, 0, 1.02)
    c2 = control.DiscreteTapControl(net_in, 0, 1, 1)
    c1.u_set = 0.98
    c2.u_lower = 0.99
    c2.u_upper = 1.1
    # needed to trigger conversion
    net_in.version = "2.1.0"

    net_in.controller.rename(columns={'object': 'controller'}, inplace=True)
    assert 'controller' in net_in.controller.columns

    s = json.dumps(net_in, cls=PPJSONEncoder)
    net1 = pp.from_json_string(s, convert=True)

    assert 'controller' not in net1.controller.columns
    assert 'object' in net1.controller.columns

    obj1 = net1.controller.object.at[0]
    obj2 = net1.controller.object.at[1]

    assert not hasattr(obj1, 'u_set')
    assert not hasattr(obj2, 'u_lower')
    assert not hasattr(obj2, 'u_upper')
    assert obj1.vm_set_pu == 0.98
    assert obj2.vm_lower_pu == 0.99
    assert obj2.vm_upper_pu == 1.1
示例#2
0
def create_pp_grid(nodes,
                   lines,
                   tech,
                   loads,
                   n0,
                   hv=True,
                   ntrafos_hv=2,
                   vn_kv=20,
                   tanphi=0.3,
                   hv_trafo_controller=True,
                   verbose=True):
    """
    """
    if verbose:
        print('Starting!')
    # 0- empty grid
    net = pp.create_empty_network()
    # 1- std_types
    if verbose:
        print('\tTech types')
    add_tech_types(net, tech)
    # 2 - Create buses
    if verbose:
        print('\tBuses')
    idxs = pp.create_buses(net,
                           len(nodes),
                           vn_kv=vn_kv,
                           name=nodes.index,
                           geodata=list(nodes.xyGPS),
                           type='b',
                           zone=nodes.Geo.values)
    if 'Feeder' in nodes:
        add_extra(net.bus, idxs, nodes.Feeder.values, 'Feeder')
    # 3- Create lines
    if verbose:
        print('\tLines')
    for linetype in lines.Conductor.unique():
        ls = lines[lines.Conductor == linetype]
        nis = pp.get_element_indices(net, "bus", ls.node_i)
        nes = pp.get_element_indices(net, "bus", ls.node_e)
        idxs = pp.create_lines(net,
                               nis,
                               nes,
                               ls.Length.values / 1000,
                               std_type=linetype,
                               name=ls.index,
                               geodata=list(ls.ShapeGPS),
                               df=1.,
                               parallel=1,
                               in_service=True)
        if 'Feeder' in lines:
            add_extra(net.line, idxs, ls.Feeder.values, 'Feeder')
    # 4- Create loads
    if verbose:
        print('\tLoads')
    nls = pp.get_element_indices(net, 'bus', loads.node)
    idxs = pp.create_loads(net,
                           nls,
                           name=loads.index,
                           p_mw=loads.Pmax_MW.values,
                           q_mvar=loads.Pmax_MW.values * tanphi)
    if 'type_load' in loads:
        add_extra(net.load, idxs, loads.type_load.values, 'type_load')
    else:
        add_extra(net.load, idxs, 'Base', 'type_load')
    if 'Geo' in loads:
        add_extra(net.load, idxs, loads.Geo, 'zone')

    # Adding external grid
    if verbose:
        print('\tExt Grid')
    if hv:
        # If HV, then add extra bus for HV and add trafo
        b0 = pp.create_bus(net,
                           vn_kv=110,
                           geodata=nodes.xyGPS[n0],
                           name='HV_SS')
        # Adding HV-MV trafo (n x 40MW trafos)
        t = pp.create_transformer(net,
                                  hv_bus=b0,
                                  lv_bus=n0,
                                  std_type='40 MVA 110/20 kV',
                                  name='TrafoSS',
                                  parallel=ntrafos_hv)
        if hv_trafo_controller:
            # Add tap changer controller at MV side of SS trafo
            ppc.DiscreteTapControl(net, t, 0.99, 1.01, side='lv')
    else:
        b0 = n0
    pp.create_ext_grid(net, bus=b0)

    if verbose:
        print('Finished!')
    return net
示例#3
0
# -*- coding: utf-8 -*-

# Copyright (c) 2016-2021 by University of Kassel and Fraunhofer Institute for Energy Economics
# and Energy System Technology (IEE), Kassel. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.

import pandapower.networks as nw
import pandapower as pp
import pandapower.control as control
import os

net = nw.example_multivoltage()
control.DiscreteTapControl(net, 1, 1.02, 1.03)
pp.runpp(net, run_control=True)
pp.to_json(net, os.path.join("old_versions",
                             "example_%s.json" % pp.__version__))