def test_restart_view(self): f = EclFile(self.test_file) with self.assertRaises(ValueError): v = f.restartView() v = f.restartView(sim_days=274) v = f.restartView(sim_time=datetime.date(2004, 1, 1)) v = f.restartView(report_step=30) v = f.restartView(seqnum_index=30)
def test_geertsma_kernel_2_source_points_2_vintages(): grid = EclGrid.createRectangular(dims=(2, 1, 1), dV=(100, 100, 100)) with TestAreaContext("Subsidence"): p1 = [1, 10] p2 = [10, 20] create_restart(grid, "TEST", p1, p2) create_init(grid, "TEST") init = EclFile("TEST.INIT") restart_file = EclFile("TEST.UNRST") restart_view1 = restart_file.restartView(sim_time=datetime.date(2000, 1, 1)) restart_view2 = restart_file.restartView(sim_time=datetime.date(2010, 1, 1)) subsidence = EclSubsidence(grid, init) subsidence.add_survey_PRESSURE("S1", restart_view1) subsidence.add_survey_PRESSURE("S2", restart_view2) youngs_modulus = 5E8 poisson_ratio = 0.3 seabed = 0 receiver = (1000, 1000, 0) dz1 = subsidence.evalGeertsma("S1", None, receiver, youngs_modulus, poisson_ratio, seabed) np.testing.assert_almost_equal(dz1, 8.65322541521704e-07) dz2 = subsidence.evalGeertsma("S2", None, receiver, youngs_modulus, poisson_ratio, seabed) np.testing.assert_almost_equal(dz2, 2.275556615015282e-06) np.testing.assert_almost_equal(dz1-dz2, -1.4102340734935779e-06) dz = subsidence.evalGeertsma("S1", "S2", receiver, youngs_modulus, poisson_ratio, seabed) np.testing.assert_almost_equal(dz, dz1-dz2)
def test_geertsma_kernel(): grid = EclGrid.createRectangular(dims=(1, 1, 1), dV=(50, 50, 50)) with TestAreaContext("Subsidence"): p1 = [1] create_restart(grid, "TEST", p1) create_init(grid, "TEST") init = EclFile("TEST.INIT") restart_file = EclFile("TEST.UNRST") restart_view1 = restart_file.restartView(sim_time=datetime.date(2000, 1, 1)) subsidence = EclSubsidence(grid, init) subsidence.add_survey_PRESSURE("S1", restart_view1) youngs_modulus = 5E8 poisson_ratio = 0.3 seabed = 0 above = 100 topres = 2000 receiver = (1000, 1000, 0) dz = subsidence.evalGeertsma("S1", None, receiver, youngs_modulus, poisson_ratio, seabed) np.testing.assert_almost_equal(dz, 3.944214576168326e-09) receiver = (1000, 1000, topres - seabed - above) dz = subsidence.evalGeertsma("S1", None, receiver, youngs_modulus, poisson_ratio, seabed) np.testing.assert_almost_equal(dz, 5.8160298201497136e-08)