Пример #1
0
def run(dom, stream):
    constraints=VectorConstrainerOverBox()
    constraints.domain=Link(dom)
    constraints.left=[1,0,0]
    constraints.right=[1,0,0]
    constraints.top=[0,1,0]
    constraints.bottom=[0,1,0]
    constraints.front=[0,0,1]
    constraints.back=[0,0,1]

    sqe=Sequencer()
    sqe.dt_max=0.5
    sqe.t_end=1.

    source=EvaluateExpression()
    source.domain=Link(dom)
    source.t=Link(sqe)
    source.expression=["t","t"]

    flow=SteadyIncompressibleFlow()
    flow.domain=Link(dom,"domain")
    flow.internal_force=Link(source,"out")
    flow.location_prescribed_velocity=Link(constraints,"location_of_constraint")
    flow.prescribed_velocity=[0.,0.]

    ptest=Probe()
    ptest.expression="(x[0]+x[1]-1.)*t"
    ptest.t=Link(sqe)
    ptest.value=Link(flow,"pressure")

    s=Simulation([sqe,constraints,Simulation([flow],debug=True),ptest],debug=True)
    s.writeXML(stream)
    s.run()
Пример #2
0
 def setUp(self):
     o1 = ODETEST(debug=False)
     o1.u = 10
     o2 = ODETEST(debug=False)
     o2.u = -10.
     o1.f = Link(o2, "u")
     o2.f = Link(o1, "u")
     m = Messenger()
     o1.dt = 0.01
     m.message = Link(o1)
     self.s = Simulation([o1, o2, m], debug=False)
     self.s.run()
     output = StringIO()
     self.s.writeXML(output)
     output.seek(0)
     self.xml = output.read()
Пример #3
0
def run(dom, stream):
    sqe = Sequencer()
    sqe.t = 0
    sqe.t_end = 0.05

    constraints = ScalarConstrainerOverBox()
    constraints.domain = Link(dom)
    constraints.top = 1
    constraints.bottom = 1
    constraints.right = 1
    constraints.left = 1

    source = EvaluateExpression()
    source.domain = Link(dom)
    source.expression = "(x[1]-x[0])*exp(-t)-exp(-t)*x[0]*x[1]"
    source.t = Link(sqe)
    boundaryvalue = EvaluateExpression()
    boundaryvalue.domain = Link(dom)
    boundaryvalue.expression = "x[0]*x[1]*exp(-t)"
    boundaryvalue.t = Link(sqe)

    tt = TemperatureAdvection()
    tt.domain = Link(dom)
    tt.temperature = Link(boundaryvalue, "out")
    tt.velocity = numpy.array([1, -1])
    tt.thermal_source = Link(source, "out")
    tt.location_fixed_temperature = Link(constraints, "location_of_constraint")
    tt.fixed_temperature = Link(boundaryvalue, "out")
    tt.safety_factor = 0.1

    probe = Probe()
    probe.expression = "x[0]*x[1]*exp(-t)"
    probe.t = Link(sqe)
    probe.value = Link(tt, "temperature")

    s = Simulation([sqe, constraints, tt, probe], debug=True)
    s.writeXML(stream)
    s.run()
def run(dom, stream):
    temp_val = InterpolateOverBox()
    temp_val.domain = Link(dom, "domain")
    temp_val.value_left_bottom_front = 1.
    temp_val.value_right_bottom_front = 1.
    temp_val.value_left_top_front = 0.
    temp_val.value_right_top_front = 0.
    temp_val.value_left_bottom_back = 1.
    temp_val.value_right_bottom_back = 1.
    temp_val.value_left_top_back = 0.
    temp_val.value_right_top_back = 0.

    temp_constraints = ScalarConstrainerOverBox()
    temp_constraints.domain = Link(dom)
    temp_constraints.top = 1
    temp_constraints.bottom = 1

    vel_constraints = VectorConstrainerOverBox()
    vel_constraints.domain = Link(dom)
    vel_constraints.left = [1, 0, 0]
    vel_constraints.right = [1, 0, 0]
    vel_constraints.top = [0, 1, 0]
    vel_constraints.bottom = [0, 1, 0]
    vel_constraints.front = [0, 0, 1]
    vel_constraints.back = [0, 0, 1]

    mat = SimpleEarthModel()
    mat.density0 = 1.
    mat.viscocity0 = 1.
    mat.rayleigh_number = 10000.
    mat.alpha = 0.001

    temp = TemperatureAdvection(debug=True)
    temp.domain = Link(dom)
    temp.density = Link(mat, "density0")
    temp.heat_capacity = Link(mat, "heat_capacity")
    temp.location_fixed_temperature = Link(temp_constraints,
                                           "location_of_constraint")
    temp.fixed_temperature = Link(temp_val, "out")
    temp.safety_factor = 0.01
    mat.temperature = Link(temp, "temperature")
    grav = GravityForce()
    grav.domain = Link(dom, "domain")
    grav.direction = [0., -1., 0.]
    grav.density = Link(mat, "density")
    grav.gravity = Link(mat, "gravity")

    vel = SteadyIncompressibleFlow(debug=True)
    vel.domain = Link(dom)
    vel.internal_force = Link(grav, "gravity_force")
    vel.viscosity = Link(mat, "viscosity")
    vel.location_prescribed_velocity = Link(vel_constraints,
                                            "location_of_constraint")
    vel.rel_tol = 1.e-6
    temp.velocity = Link(vel, "velocity")

    sq = Sequencer()
    sq.t_end = 0.001

    vis = WriteVTK()
    vis.t = Link(sq)
    vis.data0 = Link(temp, "temperature")
    vis.data1 = Link(vel, "velocity")
    vis.dt = 0.0001
    vis.filename = os.path.join(WORKDIR, "temp.vtu")

    per = GaussianProfile()
    per.domain = Link(dom)
    per.x_c = [0.5, 0.5, 0.5]
    per.A = 0.0001
    per.width = 0.01
    per.r = 0

    lc = LinearCombination()
    lc.f0 = 1.
    lc.v0 = Link(per, "out")
    lc.f1 = 1.
    lc.v1 = Link(temp_val, "out")
    temp.temperature = Link(lc, "out")

    s = Simulation([
        sq, vel_constraints, temp_constraints,
        Simulation([vel], debug=True), temp, vis
    ],
                   debug=True)
    s.writeXML(stream)
    s.run()
cv.back = [False, False, False]

m.velocity = Link(iob, "out")
m.prescribed_velocity = Link(cv, "value_of_constraint")
m.location_prescribed_velocity = Link(cv, "location_of_constraint")
m.rel_tol = 0.01

m.expansion_coefficient = 0.
m.bulk_modulus = 1000.
m.shear_modulus = 1.
m.plastic_stress = 0.
m.friction_parameter = 0.
m.dilatancy_parameter = 0.
m.shear_length = m.shear_modulus * 0.9

ug = UpdateGeometry(debug=dbg)
ug.domain = Link(dom, "domain")
ug.displacement = Link(m, "displacement")

vis = WriteVTK(debug=dbg)
vis.t = Link(sq)
vis.data0 = Link(m, "plastic_stress")
vis.data1 = Link(m, "velocity")
vis.data2 = Link(m, "stress")
vis.dt = 0.01
vis.filename = os.path.join(WORKDIR, "temp.vtu")

s = Simulation([sq, cv, m, vis], debug=True)
s.writeXML()
s.run()