def add_tank_get_score(num_junctions, avg_initial_pressure_at_each_junc):
    global tank_elev_array
    network = Network(inp_file)

    junc_elev_array = []
    junc_x_y_array = []
    junc_id_array = []

    score_array = []

    # this loop add a tank to Node 1, calculate the peak-demand average pressure, stores it, and deletes the tank
    # it then adds a tank to Node 2 and repeats until all nodal locations are scored

    for junction in range(num_junctions):
        junc_elev_array.append(network.ep.ENgetnodevalue(junction + 1, 0))
        junc_x_y_array.append(network.ep.ENgetcoord(junction + 1))
        junc_id_array.append(network.ep.ENgetnodeid(junction + 1))

        optimum_elevation = junc_elev_array[
            junction] + avg_initial_pressure_at_each_junc[junction]

        tank_elev_array.append(optimum_elevation)

        network.add_tank(uid='balancing_tank',
                         x=junc_x_y_array[junction][0],
                         y=junc_x_y_array[junction][1],
                         elevation=optimum_elevation,
                         diameter=100,
                         maxlevel=1000,
                         minlevel=0,
                         tanklevel=0)

        network.add_pipe(uid='balancing_tank_pipe',
                         from_node=junc_id_array[junction],
                         to_node='balancing_tank',
                         diameter=1000,
                         length=10,
                         roughness=1E9,
                         check_valve=False)

        network.save_inputfile(inp_file)

        junction_score = score_pressure_array(
            solve_and_return_pressures(num_junctions))

        score_array.append(junction_score)
        print("Junction index ", score_index_counter, " : ", junction_score)

        network.delete_link('balancing_tank_pipe')
        network.delete_node('balancing_tank')
        network.reset()

        network.save_inputfile(inp_file)

    return score_array
예제 #2
0
class TestGeneratedNetwork(object):
    @classmethod
    def setup_class(self):
        self.network = Network()

    @classmethod
    def teadown(self):
        self.network.ep.ENclose()

    def test00_build_network(self):
        network = self.network

        network.ep.ENsettimeparam(epanet2.EN_DURATION, 10 * 3600)
        # add nodes
        reservoir = network.add_reservoir('in', 0, 30)
        reservoir.elevation = 10

        pattern_values = [1, 2, 3, 4, 5, 4, 3, 2, 1, 1]

        pattern = network.add_pattern('1', pattern_values)

        junctions = {
            '2': (10, 30, 0),
            '3': (20, 30, 0),
            '4': (30, 30, 1),
            '5': (30, 20, 1),
            '6': (30, 10, 1),
            '7': (40, 10, 1),
            '8': (40, 20, 1),
            '9': (40, 30, 1),
            '10': (50, 30, 1)
        }

        links = {
            '1': ('in', '2'),
            '3': ('3', '4'),
            '4': ('4', '5'),
            '5': ('5', '6'),
            '6': ('6', '7'),
            '7': ('7', '8'),
            '8': ('8', '9'),
            '10': ('5', '8'),
            '11': ('4', '9'),
            '12': ('9', '11')
        }

        for uid, coord in junctions.items():
            node = network.add_junction(uid,
                                        coord[0],
                                        coord[1],
                                        elevation=0,
                                        basedemand=coord[2])
            node.pattern = pattern

        tank = network.add_tank('11',
                                40,
                                40,
                                diameter=50,
                                maxlevel=20,
                                minlevel=0,
                                tanklevel=10)

        for uid, coord in links.items():
            link = network.add_pipe(uid,
                                    coord[0],
                                    coord[1],
                                    diameter=100,
                                    length=100,
                                    roughness=0.1)

        valve = network.add_valve('9',
                                  'prv',
                                  '9',
                                  '10',
                                  diameter=100,
                                  setting=5)

        pump = network.add_pump('2', '2', '3', speed=1)

        curve = network.add_curve('1', [(100, 50)])
        pump.curve = curve

        network.nodes['4'].elevation = 5
        network.links['11'].diameter = 150
        network.links['11'].minorloss = 0.1

        network.solve()

    def test01_network(self):
        # test0 node count
        assert_equal(len(self.network.nodes), 11)
        # test0 link count
        assert_equal(len(self.network.links), 12)
        # test0 reservoir count
        assert_equal(len(self.network.reservoirs), 1)
        # test0 valve count
        assert_equal(len(self.network.valves), 1)
        # test0 pump count
        assert_equal(len(self.network.pumps), 1)
        # test0 tank count
        assert_equal(len(self.network.tanks), 1)

    def test02_link(self):
        # test0 the properties of a single link
        link = self.network.links['11']
        # pipe index and uid
        assert_equal(link.uid, '11')
        # from/to node
        assert_equal(link.from_node.uid, '4')
        assert_equal(link.to_node.uid, '9')

    def test03_pipe(self):
        # test0 the properties of a single pipe
        pipe = self.network.links['11']
        # check type
        assert_equal(pipe.link_type, 'pipe')

        assert_almost_equal(pipe.length, 100, 2)
        assert_almost_equal(pipe.diameter, 150, 2)
        assert_almost_equal(pipe.roughness, 0.1, 2)
        assert_almost_equal(pipe.minorloss, 0.1, 2)
        # flow
        assert_almost_equal(pipe.flow, 87.92, 2)
        # direction
        assert_almost_equal(pipe.velocity, 1.38, 2)
        # status
        assert_equal(pipe.status, 1)
        # headloss
        assert_almost_equal(pipe.headloss, 1.29, 2)
        # upstream/downstream node
        assert_equal(pipe.upstream_node.uid, '4')
        assert_equal(pipe.downstream_node.uid, '9')

    def test04_pump(self):
        pump = self.network.pumps['2']
        # check type
        assert_equal(pump.link_type, 'pump')

        assert_equal(pump.speed, 1.0)
        assert_almost_equal(pump.flow, 109.67, 2)
        # change speed
        pump.speed = 1.5
        assert_equal(pump.speed, 1.5)
        # resolve network
        self.network.solve()
        assert_almost_equal(pump.flow, 164.5, 2)
        # revert speed
        pump.speed = 1.0
        self.network.solve()

    def test05_valve(self):
        valve = self.network.valves['9']
        # check type
        assert_equal(valve.link_type, 'valve')
        # check valve type
        assert_equal(valve.valve_type, 'PRV')
        # valve settings
        assert_equal(valve.setting, 5)
        assert_almost_equal(valve.downstream_node.pressure, 5, 2)
        # change setting
        valve.setting = 10
        assert_equal(valve.setting, 10)
        self.network.solve()
        assert_almost_equal(valve.downstream_node.pressure, 10, 2)

    def test06_node(self):
        node = self.network.nodes['4']
        # uid
        assert_equal(node.uid, '4')
        # coordinates
        #coordinates = node.coordinates
        # dont test these for created networks
        #assert_almost_equal(coordinates[0],2103.02,2)
        #assert_almost_equal(coordinates[1],5747.69,2)
        # links
        assert_equal(len(node.links), 3)
        # up and downstream links
        assert_equal(len(node.downstream_links), 2)
        assert_equal(len(node.upstream_links), 1)
        # inflow
        assert_equal(round(node.inflow, 2), 109.67)
        # outflow
        assert_equal(round(node.outflow, 2),
                     round(node.inflow, 2) - node.demand)
        # elevation
        assert_equal(node.elevation, 5)
        # head
        assert_equal(round(node.head, 2), 25.13)

    def test07_junction(self):
        junction = self.network.junctions['4']

        assert_equal(round(junction.basedemand, 2), 1)
        assert_equal(round(junction.demand, 2), 1)

    def test08_tank(self):
        tank = self.network.tanks['11']
        assert_equal(tank.diameter, 50)
        assert_equal(round(tank.initvolume, 2), 19634.95)
        assert_equal(tank.minvolume, 0)
        assert_equal(tank.minlevel, 0)
        assert_equal(tank.maxlevel, 20)
        assert_equal(round(tank.volume, 2), 19634.95)
        assert_equal(round(tank.maxvolume), 2 * round(tank.volume))

    def test09_time(self):
        junction = self.network.junctions['4']
        self.network.solve(3600)
        assert_equal(round(junction.demand, 2), 2)
        self.network.solve(7200)
        assert_equal(round(junction.demand, 2), 3)

    def test10_collections(self):
        # collection attributes as pandas Series
        assert_almost_equal(self.network.pipes.flow.mean(), 46.78, 2)
        assert_almost_equal(self.network.pipes.diameter.max(), 150, 2)
        assert_almost_equal(self.network.pipes.velocity.min(), 0.105, 2)

        assert_equal(self.network.valves.setting.mean(), 10)

        assert_almost_equal(self.network.junctions.demand.mean(), 2.33, 2)

        # filtering and slicing collections
        assert_equal(len(self.network.pipes[self.network.pipes.velocity > 3]),
                     3)
        assert_equal(len(self.network.nodes[self.network.nodes.pressure < 20]),
                     5)

        #increase the size of all pipes
        self.network.pipes.diameter += 500
        assert_almost_equal(self.network.pipes.diameter.mean(), 605, 2)

        self.network.pipes.diameter -= 500
        self.network.solve()
        # resize pipes, and recalculate velocity
        self.network.pipes[self.network.pipes.velocity > 3].diameter += 100
        self.network.solve()

        assert_equal(len(self.network.pipes[self.network.pipes.velocity > 3]),
                     0)

    def test11_timeseries(self):
        # run network
        self.network.run()
        # check return types
        # should return Series
        assert (isinstance(self.network.pipes['1'].velocity, pd.Series))
        # should return Dataframe
        assert (isinstance(self.network.pipes.velocity, pd.DataFrame))
        # timeseries operations
        # pipe 1 max velocity
        assert_almost_equal(self.network.pipes['1'].velocity.mean(), 1.66, 2)
        # all day mean velocity
        assert_almost_equal(self.network.pipes.velocity.mean().mean(), 1.14, 2)
        # test revert to steady state calculation
        self.network.solve()
        print(type(self.network.pipes['1'].velocity))
        assert (isinstance(self.network.pipes['1'].velocity, float))
        assert (isinstance(self.network.pipes.velocity, pd.Series))

    def test12_deletion(self):
        # Delete node
        self.network.delete_node('10')
        assert_equal(len(self.network.nodes), 10)
        assert_equal(len(self.network.links), 11)
        assert_equal(len(self.network.valves), 0)

        self.network.solve()
        assert_almost_equal(self.network.junctions['9'].pressure, 11.21, 2)

        # Delete Tank
        self.network.delete_node('11')

        assert_equal(len(self.network.tanks), 0)
        assert_equal(len(self.network.links), 10)

        self.network.solve()
        assert_almost_equal(self.network.junctions['9'].pressure, 76.60, 2)

        # Delete link
        self.network.delete_link('7')
        assert_equal(len(self.network.links), 9)

        self.network.solve()
        assert_almost_equal(self.network.pipes['6'].flow, 1)

        # delete pump
        self.network.delete_link('2')
        assert_equal(len(self.network.pumps), 0)

        # add link instead
        self.network.add_pipe('R2',
                              '2',
                              '3',
                              diameter=200,
                              length=100,
                              roughness=0.1)
        self.network.solve()

        assert_almost_equal(self.network.junctions['9'].pressure, 9.99, 2)