Esempi in Python per OrdinaryPercolation.setup

Esempio n. 1

File: test_percolation_algorithms.py Progetto: jrhp/OpenPNM

def test_OP_plotting():
    ctrl.clear()
    pn = OpenPNM.Network.Cubic(shape=[30, 30, 1], spacing=0.01)
    geom = OpenPNM.Geometry.Toray090(network=pn, pores=pn.Ps, throats=pn.Ts)
    water = OpenPNM.Phases.Water(network=pn)
    OpenPNM.Physics.Standard(network=pn, phase=water, geometry=geom)
    inlets = pn.pores('left')
    OP = OrdinaryPercolation(network=pn)
    OP.setup(invading_phase=water)
    OP.set_inlets(pores=inlets)
    OP.run(npts=25)
    a = OP.plot_drainage_curve()
    assert isinstance(a, matplotlib.figure.Figure)
    a = OP.plot_primary_drainage_curve()
    assert isinstance(a, matplotlib.figure.Figure)

Esempio n. 2

File: test_percolation_algorithms.py Progetto: MichaelHoeh/OpenPNM

def test_OP_plotting():
    mgr.clear()
    pn = OpenPNM.Network.Cubic(shape=[30, 30, 1], spacing=0.01)
    geom = OpenPNM.Geometry.Toray090(network=pn, pores=pn.Ps, throats=pn.Ts)
    water = OpenPNM.Phases.Water(network=pn)
    OpenPNM.Physics.Standard(network=pn, phase=water, geometry=geom)
    inlets = pn.pores('left')
    OP = OrdinaryPercolation(network=pn)
    OP.setup(invading_phase=water)
    OP.set_inlets(pores=inlets)
    OP.run(npts=25)
    a = OP.plot_drainage_curve()
    assert isinstance(a, matplotlib.figure.Figure)
    a = OP.plot_primary_drainage_curve()
    assert isinstance(a, matplotlib.figure.Figure)

Esempio n. 3

File: test_percolation_algorithms.py Progetto: MichaelHoeh/OpenPNM

def test_OP_new_approach():
    mgr.clear()
    pn = OpenPNM.Network.Cubic(shape=[30, 30, 1], spacing=0.01)
    geom = OpenPNM.Geometry.Toray090(network=pn, pores=pn.Ps, throats=pn.Ts)
    water = OpenPNM.Phases.Water(network=pn)
    phys = OpenPNM.Physics.Standard(network=pn, phase=water, geometry=geom)
    inlets = pn.pores('left')
    OP = OrdinaryPercolation(network=pn)
    OP.setup(invading_phase=water)
    OP.set_inlets(pores=inlets)
    OP.run(npts=25)
    a = ['pore.all', 'pore.inlets', 'pore.inv_Pc', 'pore.inv_sat',
         'pore.inv_seq', 'throat.all', 'throat.entry_pressure',
         'throat.inv_Pc', 'throat.inv_sat', 'throat.inv_seq']
    assert sorted(list(OP.keys())) == a
    V_inv = sp.sum(pn['pore.volume'][OP['pore.inv_Pc'] < sp.inf])
    V_tot = sp.sum(pn['pore.volume'])
    assert V_inv/V_tot == 1.0
    mgr.clear()

Esempio n. 4

File: test_percolation_algorithms.py Progetto: jrhp/OpenPNM

def test_OP_new_approach():
    ctrl.clear()
    pn = OpenPNM.Network.Cubic(shape=[30, 30, 1], spacing=0.01)
    geom = OpenPNM.Geometry.Toray090(network=pn, pores=pn.Ps, throats=pn.Ts)
    water = OpenPNM.Phases.Water(network=pn)
    phys = OpenPNM.Physics.Standard(network=pn, phase=water, geometry=geom)
    inlets = pn.pores('left')
    OP = OrdinaryPercolation(network=pn)
    OP.setup(invading_phase=water)
    OP.set_inlets(pores=inlets)
    OP.run(npts=25)
    a = [
        'pore.all', 'pore.inlets', 'pore.inv_Pc', 'pore.inv_sat',
        'pore.inv_seq', 'throat.all', 'throat.entry_pressure', 'throat.inv_Pc',
        'throat.inv_sat', 'throat.inv_seq'
    ]
    assert sorted(list(OP.keys())) == a
    V_inv = sp.sum(pn['pore.volume'][OP['pore.inv_Pc'] < sp.inf])
    V_tot = sp.sum(pn['pore.volume'])
    assert V_inv / V_tot == 1.0
    ctrl.clear()