Beispiel #1
0
def pincell_model():
    """Set up a model to test with and delete files when done"""
    openmc.reset_auto_ids()
    pincell = openmc.examples.pwr_pin_cell()
    pincell.settings.verbosity = 1

    # Add a tally
    filter1 = openmc.MaterialFilter(pincell.materials)
    filter2 = openmc.EnergyFilter([0.0, 1.0, 1.0e3, 20.0e6])
    mat_tally = openmc.Tally()
    mat_tally.filters = [filter1, filter2]
    mat_tally.nuclides = ['U235', 'U238']
    mat_tally.scores = ['total', 'elastic', '(n,gamma)']
    pincell.tallies.append(mat_tally)

    # Add an expansion tally
    zernike_tally = openmc.Tally()
    filter3 = openmc.ZernikeFilter(5, r=.63)
    cells = pincell.geometry.root_universe.cells
    filter4 = openmc.CellFilter(list(cells.values()))
    zernike_tally.filters = [filter3, filter4]
    zernike_tally.scores = ['fission']
    pincell.tallies.append(zernike_tally)

    # Add an energy function tally
    energyfunc_tally = openmc.Tally()
    energyfunc_filter = openmc.EnergyFunctionFilter([0.0, 20e6], [0.0, 20e6])
    energyfunc_tally.scores = ['fission']
    energyfunc_tally.filters = [energyfunc_filter]
    pincell.tallies.append(energyfunc_tally)

    # Write XML files in tmpdir
    with cdtemp():
        pincell.export_to_xml()
        yield
Beispiel #2
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def test_zernike():
    n = 4
    f = openmc.ZernikeFilter(n, 0., 0., 1.)
    assert f.order == n
    assert f.bins[0] == 'Z0,0'
    assert f.bins[-1] == 'Z{0},{0}'.format(n)
    assert len(f.bins) == (n + 1) * (n + 2) // 2

    # Make sure __repr__ works
    repr(f)

    # to_xml_element()
    elem = f.to_xml_element()
    assert elem.tag == 'filter'
    assert elem.attrib['type'] == 'zernike'
    assert elem.find('order').text == str(n)
Beispiel #3
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def test_first_moment(run_in_tmpdir, box_model):
    plain_tally = openmc.Tally()
    plain_tally.scores = ['flux', 'scatter']

    # Create tallies with expansion filters
    leg_tally = openmc.Tally()
    leg_tally.filters = [openmc.LegendreFilter(3)]
    leg_tally.scores = ['scatter']
    leg_sptl_tally = openmc.Tally()
    leg_sptl_tally.filters = [openmc.SpatialLegendreFilter(3, 'x', -5., 5.)]
    leg_sptl_tally.scores = ['scatter']
    sph_scat_filter = openmc.SphericalHarmonicsFilter(5)
    sph_scat_filter.cosine = 'scatter'
    sph_scat_tally = openmc.Tally()
    sph_scat_tally.filters = [sph_scat_filter]
    sph_scat_tally.scores = ['scatter']
    sph_flux_filter = openmc.SphericalHarmonicsFilter(5)
    sph_flux_filter.cosine = 'particle'
    sph_flux_tally = openmc.Tally()
    sph_flux_tally.filters = [sph_flux_filter]
    sph_flux_tally.scores = ['flux']
    zernike_tally = openmc.Tally()
    zernike_tally.filters = [openmc.ZernikeFilter(3, r=10.)]
    zernike_tally.scores = ['scatter']

    # Add tallies to model and ensure they all use the same estimator
    box_model.tallies = [
        plain_tally, leg_tally, leg_sptl_tally, sph_scat_tally, sph_flux_tally,
        zernike_tally
    ]
    for t in box_model.tallies:
        t.estimator = 'analog'

    sp_name = box_model.run()

    # Check that first moment matches the score from the plain tally
    with openmc.StatePoint(sp_name) as sp:
        # Get scores from tally without expansion filters
        flux, scatter = sp.tallies[plain_tally.id].mean.ravel()

        # Check that first moment matches
        first_score = lambda t: sp.tallies[t.id].mean.ravel()[0]
        assert first_score(leg_tally) == scatter
        assert first_score(leg_sptl_tally) == scatter
        assert first_score(sph_scat_tally) == scatter
        assert first_score(sph_flux_tally) == approx(flux)
        assert first_score(zernike_tally) == approx(scatter)
Beispiel #4
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def generate_tallies(fuelcelllist, total_fuel_cell, zerk_order, flag):
    tallies_file = openmc.Tallies()
    cell_filter = openmc.CellFilter(fuelcelllist)
    total_fuel_cell_filter = openmc.CellFilter([total_fuel_cell])

    if flag == 1:
        # choose flag 1, we use tradiational estimators
        tally3 = openmc.Tally(name='tracklength')
        tally3.filters.append(cell_filter)
        tally3.scores = ['nu-fission', 'absorption']
        tally3.nuclides = ['U238']
        tally3.estimator = 'tracklength'
        tallies_file.append(tally3)

        tally3 = openmc.Tally(name='collision')
        tally3.filters.append(cell_filter)
        tally3.scores = ['nu-fission', 'absorption']
        tally3.nuclides = ['U238']
        tally3.estimator = 'collision'
        tallies_file.append(tally3)

        tally3 = openmc.Tally(name='analog')
        tally3.filters.append(cell_filter)
        tally3.scores = ['nu-fission', 'absorption']
        tally3.nuclides = ['U238']
        tally3.estimator = 'analog'
        tallies_file.append(tally3)

    elif flag == 2:
        # we tally FET
        str1 = 'fet'
        strorder = str(zerk_order)
        name = str1 + strorder
        fet_tally = openmc.Tally(name=name)
        fet_tally.filters.append(total_fuel_cell_filter)
        fet_tally.scores = ['nu-fission', 'absorption']
        fet_tally.nuclides = ['U238']
        expand_filter = openmc.ZernikeFilter(zerk_order, x=0.0, y=0.0, r=0.392)
        fet_tally.filters.append(expand_filter)
        tallies_file.append(fet_tally)

    tallies_file.export_to_xml()
Beispiel #5
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def test_zernike():
    n = 4
    f = openmc.ZernikeFilter(n, 0., 0., 1.)
    assert f.order == n
    assert f.bins[0] == 'Z0,0'
    assert f.bins[-1] == 'Z{0},{0}'.format(n)
    assert len(f.bins) == (n + 1) * (n + 2) // 2

    # Make sure __repr__ works
    repr(f)

    # to_xml_element()
    elem = f.to_xml_element()
    assert elem.tag == 'filter'
    assert elem.attrib['type'] == 'zernike'
    assert elem.find('order').text == str(n)

    # from_xml_element()
    new_f = openmc.Filter.from_xml_element(elem)
    for attr in ('id', 'order', 'x', 'y', 'r'):
        assert getattr(new_f, attr) == getattr(f, attr)