Beispiel #1
0
ch17 = Switch(name='17', state=1)

# GD switches

ch18 = Switch(name='18', state=1)
ch19 = Switch(name='19', state=1)
ch20 = Switch(name='20', state=1)
ch21 = Switch(name='21', state=1)

# NO switch (new)

ch22 = Switch(name='22', state=0)

# Voltages

vll_hv = p2r(115e3, 0.0)
vll_mv = p2r(12.47e3, 0.0)
vll_lv = p2r(0.48e3, 0.0)

# Transformers

t1 = TransformerModel(
    name="T1",
    primary_voltage=vll_mv,
    secondary_voltage=vll_lv,
    power=5e6,
    #connection ='nyyn',
    impedance=0 + 0.0046j)  # ohms (0.1 pu / 12.47 kV)

t2 = TransformerModel(
    name="T2",
Beispiel #2
0
line606 = UnderGroundLine(loc=spacing515,
                          phasing=['a', 'b', 'c'],
                          conductor=conduct4)

line607 = UnderGroundLine(loc=spacing520,
                          phasing=['a', 'n'],
                          conductor=conduct5,
                          neutral_conductor=conduct6)

Zsys = np.array([[0.6273 + 6.0295j, -0.14 + 1.2443j, -0.14 + 1.2443j],
                 [-0.14 + 1.2443j, 0.6273 + 6.0295j, -0.14 + 1.2443j],
                 [-0.14 + 1.2443j, -0.14 + 1.2443j, 0.6273 + 6.0295j]],
                dtype=complex)

vll_ht = p2r(115e3, 0.0)
vll_mt = p2r(4.16e3, 0.0)
vll_bt = p2r(480.0, 0.0)
##############################capacitors########################################
capacitor_675 = Shunt_Capacitor(vll=4.16e3,
                                Qa=200e3,
                                Qb=200e3,
                                Qc=200e3,
                                type_connection="wye")

capacitor_611 = Shunt_Capacitor(vll=4.16e3,
                                Qa=0.0e3,
                                Qb=0.0e3,
                                Qc=100e3,
                                type_connection="wye")
##################################source########################################
def create_mygrid_model(file):
    data = json.load(file)

    vll_mt = p2r(13.8e3, 0.0)
    vll_bt = p2r(380.0, 0.0)
    eg1 = ExternalGrid(name='extern grid 1', vll=vll_mt)

    # switchs
    sw1 = Switch(name='sw_1', state=1)

    # transformers
    t1 = TransformerModel(name="T1",
                          primary_voltage=vll_mt,
                          secondary_voltage=vll_bt,
                          power=225e3,
                          impedance=0.01 + 0.2j)

    phase_conduct = Conductor(id=57)
    neutral_conduct = Conductor(id=44)

    line_model_a = LineModel(loc_a=0.0 + 29.0j,
                             loc_b=2.5 + 29.0j,
                             loc_c=7.0 + 29.0j,
                             loc_n=4.0 + 25.0j,
                             conductor=phase_conduct,
                             neutral_conductor=neutral_conduct,
                             neutral=False)

    phase_conduct_bt = Conductor(id=32)
    line_model_b = LineModel(loc_a=0.0 + 29.0j,
                             loc_b=2.5 + 29.0j,
                             loc_c=7.0 + 29.0j,
                             loc_n=4.0 + 25.0j,
                             conductor=phase_conduct_bt,
                             neutral_conductor=neutral_conduct,
                             neutral=False)

    nodes = dict()
    for node in data['nodes']:
        p = node['active_power'] * 1e3
        q = node['reactive_power'] * 1e3
        s = p + 1j * q
        if node['voltage_level'] == 'medium voltage':
            node_object = LoadNode(name=str(node['name']),
                                   power=s,
                                   voltage=vll_mt)

            if node['name'] == 0:
                node_object = LoadNode(name=str(node['name']),
                                       power=s,
                                       voltage=vll_mt,
                                       external_grid=eg1)
        elif node['voltage_level'] == 'low voltage':
            if node['phase'] == 'abc':
                node_object = LoadNode(name=str(node['name']),
                                       power=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'a':
                node_object = LoadNode(name=str(node['name']),
                                       ppa=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'b':
                node_object = LoadNode(name=str(node['name']),
                                       ppb=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'c':
                node_object = LoadNode(name=str(node['name']),
                                       ppc=s,
                                       voltage=vll_bt)
        nodes[node['name']] = node_object

    sections = dict()
    for link in data['links']:
        if link['type'] == 'line':
            if data['nodes'][
                    link['source']]['voltage_level'] == 'medium voltage':
                if link['switch'] != None:
                    sec_object = Section(name=link['name'],
                                         n1=nodes[link['source']],
                                         n2=nodes[link['target']],
                                         line_model=line_model_a,
                                         switch=sw1,
                                         length=link['length'])
                else:
                    sec_object = Section(name=link['name'],
                                         n1=nodes[link['source']],
                                         n2=nodes[link['target']],
                                         line_model=line_model_a,
                                         length=link['length'])
            if data['nodes'][link['source']]['voltage_level'] == 'low voltage':
                sec_object = Section(name=link['name'],
                                     n1=nodes[link['source']],
                                     n2=nodes[link['target']],
                                     line_model=line_model_b,
                                     length=link['length'])
        elif link['type'] == 'transformer':
            sec_object = Section(name=link['name'],
                                 n1=nodes[link['source']],
                                 n2=nodes[link['target']],
                                 transformer=t1)
        sections[link['name']] = sec_object

    grid_elements = GridElements(name='my_grid_elements')

    grid_elements.add_switch([sw1])
    grid_elements.add_load_node(list(nodes.values()))
    grid_elements.add_section(list(sections.values()))
    grid_elements.create_grid()

    # inicializa o dicionario que irá armazenar os dados das simulações
    for i in nodes.keys():
        grid_data[str(i)] = dict(voltage=[], power=[])

    for i in sections.keys():
        grid_data[str(i)] = dict(current=[])

    return grid_elements
Beispiel #4
0
def create_mygrid_model(file):
    data = json.load(file)

    vll_mt = p2r(13.8e3, 0.0)
    vll_bt = p2r(380.0, 0.0)
    eg1 = ExternalGrid(name='extern grid 1', vll=vll_mt)

    # switchs
    sw1 = Switch(name='sw_1', state=1)

    # transformers
    zpu = 3.5 / 100.0  # zpu = z% / 100.0
    vbase = 220.0  # Volts
    sbase = 112.5  # kVA
    zbase = (vbase**2) / (sbase * 1e3)
    z = zpu * zbase  # impedancia do trafo referica a baixa tensao

    a = 3.5  # relação x/r, valor adotado
    r = z / np.sqrt(1 + a**2)
    x = a * r

    t1 = TransformerModel(name="T1",
                          primary_voltage=vll_mt,
                          secondary_voltage=vll_bt,
                          power=225e3,
                          impedance=r + 1j * x)

    phase_conduct = Conductor(id=57)
    neutral_conduct = Conductor(id=44)

    line_model_a = LineModel(loc_a=0.0 + 29.0j,
                             loc_b=2.5 + 29.0j,
                             loc_c=7.0 + 29.0j,
                             loc_n=4.0 + 25.0j,
                             conductor=phase_conduct,
                             neutral_conductor=neutral_conduct,
                             neutral=False)

    phase_conduct_bt = Conductor(id=32)
    line_model_b = LineModel(loc_a=0.0 + 29.0j,
                             loc_b=2.5 + 29.0j,
                             loc_c=7.0 + 29.0j,
                             loc_n=4.0 + 25.0j,
                             conductor=phase_conduct_bt,
                             neutral_conductor=neutral_conduct,
                             neutral=False)

    nodes = dict()
    for node in data['nodes']:
        p = node['active_power'] * 1e3
        q = node['reactive_power'] * 1e3
        s = p + 1j * q
        if node['voltage_level'] == 'medium voltage':
            node_object = LoadNode(name='Node_' + str(node['name']),
                                   power=s,
                                   voltage=vll_mt)

            if node['name'] == 0:
                node_object = LoadNode(name='Node_' + str(node['name']),
                                       power=s,
                                       voltage=vll_mt,
                                       external_grid=eg1)
        elif node['voltage_level'] == 'low voltage':
            if node['phase'] == 'abc':
                node_object = LoadNode(name='Node_' + str(node['name']),
                                       power=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'a':
                node_object = LoadNode(name='Node_' + str(node['name']),
                                       ppa=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'b':
                node_object = LoadNode(name='Node_' + str(node['name']),
                                       ppb=s,
                                       voltage=vll_bt)
            elif node['phase'] == 'c':
                node_object = LoadNode(name='Node_' + str(node['name']),
                                       ppc=s,
                                       voltage=vll_bt)
        nodes[node['name']] = node_object

    sections = dict()
    for link in data['links']:
        if link['type'] == 'line':
            if data['nodes'][
                    link['source']]['voltage_level'] == 'medium voltage':
                if link['switch'] != None:
                    sec_object = Section(name=link['name'],
                                         n1=nodes[link['source']],
                                         n2=nodes[link['target']],
                                         line_model=line_model_a,
                                         switch=sw1,
                                         length=link['length'])
                else:
                    sec_object = Section(name=link['name'],
                                         n1=nodes[link['source']],
                                         n2=nodes[link['target']],
                                         line_model=line_model_a,
                                         length=link['length'])
            if data['nodes'][link['source']]['voltage_level'] == 'low voltage':
                sec_object = Section(name=link['name'],
                                     n1=nodes[link['source']],
                                     n2=nodes[link['target']],
                                     line_model=line_model_b,
                                     length=link['length'])
        elif link['type'] == 'transformer':
            sec_object = Section(name=link['name'],
                                 n1=nodes[link['source']],
                                 n2=nodes[link['target']],
                                 transformer=t1)
        sections[link['name']] = sec_object

    grid_elements = GridElements(name='my_grid_elements')

    grid_elements.add_switch([sw1])
    grid_elements.add_load_node(list(nodes.values()))
    grid_elements.add_section(list(sections.values()))
    grid_elements.create_grid()
    return grid_elements
Beispiel #5
0
ch9 = Switch(name='9', state=1)
ch10 = Switch(name='10', state=1)

# switchs de Fronteira
ch4 = Switch(name='4', state=0)
ch5 = Switch(name='5', state=0)
ch8 = Switch(name='8', state=0)
ch11 = Switch(name='11', state=0)

# switchs do alimentador de S2
ch6 = Switch(name='6', state=1)
ch7 = Switch(name='7', state=1)

# tensao nominal

vll_mt = p2r(13.8e3, 0.0)
vll_bt = p2r(380.0, 0.0)

# transformers
t1 = TransformerModel(name="T1",
                      primary_voltage=vll_mt,
                      secondary_voltage=vll_bt,
                      power=225e3,
                      impedance=0.01 + 0.2j)

eg1 = ExternalGrid(name='extern grid 1', vll=vll_mt)

# Definição GD's

c2_PV = Generation(name="c2_PV",
                   P=10e3 + 0j,