timflow.transient.linesink1d.LineSink1DBase =========================================== .. toctree:: :hidden: /api/timflow/transient/linesink1d/LineSink1DBase.initialize /api/timflow/transient/linesink1d/LineSink1DBase.setflowcoef /api/timflow/transient/linesink1d/LineSink1DBase.potinf /api/timflow/transient/linesink1d/LineSink1DBase.disvecinf /api/timflow/transient/linesink1d/LineSink1DBase.plot /api/timflow/transient/linesink1d/LineSink1DBase.potential /api/timflow/transient/linesink1d/LineSink1DBase.unitpotential /api/timflow/transient/linesink1d/LineSink1DBase.unitpotentialone /api/timflow/transient/linesink1d/LineSink1DBase.disvec /api/timflow/transient/linesink1d/LineSink1DBase.unitdisvec /api/timflow/transient/linesink1d/LineSink1DBase.potinflayers /api/timflow/transient/linesink1d/LineSink1DBase.potentiallayers /api/timflow/transient/linesink1d/LineSink1DBase.unitpotentiallayers /api/timflow/transient/linesink1d/LineSink1DBase.disvecinflayers /api/timflow/transient/linesink1d/LineSink1DBase.disveclayers /api/timflow/transient/linesink1d/LineSink1DBase.unitdisveclayers /api/timflow/transient/linesink1d/LineSink1DBase.discharge /api/timflow/transient/linesink1d/LineSink1DBase.dischargeold /api/timflow/transient/linesink1d/LineSink1DBase.run_after_solve .. py:class:: timflow.transient.linesink1d.LineSink1DBase(model, xls=0, tsandbc=[(0, 1)], res=0, wh='H', layers=0, type='', name='LineSink1DBase', label=None, aq=None, inhomelement=False) Bases: :py:obj:`timflow.transient.element.Element` LineSink1D Base Class. All LineSink1D elements are derived from this class :param model: Model to which the element is added :type model: Model object :param xls: x-coordinate of the line sink :type xls: float :param tsandbc: list of tuples of the form (time, bc) for boundary conditions :type tsandbc: list of tuples :param res: resistance of the line sink :type res: float :param wh: wetted perimeter of the linesink, "H" for aquifer height, "2H" for 2x aquifer height (two-sided flow) or specify any float value :type wh: string or float :param layers: layer (int) or layers (list or array) in which line sink is located :type layers: int, array or list :param type: type of element, "g" for given, "v" for variable and "z" for zero. :type type: string :param name: name of the element :type name: string :param label: label of the element :type label: string, optional :param aq: aquifer in which the element is located :type aq: Aquifer object :param inhomelement: set to True if element is part of an inhomogeneity :type inhomelement: boolean .. !! processed by numpydoc !! Methods ------- .. autoapisummary:: timflow.transient.linesink1d.LineSink1DBase.initialize timflow.transient.linesink1d.LineSink1DBase.setflowcoef timflow.transient.linesink1d.LineSink1DBase.potinf timflow.transient.linesink1d.LineSink1DBase.disvecinf timflow.transient.linesink1d.LineSink1DBase.plot timflow.transient.linesink1d.LineSink1DBase.potential timflow.transient.linesink1d.LineSink1DBase.unitpotential timflow.transient.linesink1d.LineSink1DBase.unitpotentialone timflow.transient.linesink1d.LineSink1DBase.disvec timflow.transient.linesink1d.LineSink1DBase.unitdisvec timflow.transient.linesink1d.LineSink1DBase.potinflayers timflow.transient.linesink1d.LineSink1DBase.potentiallayers timflow.transient.linesink1d.LineSink1DBase.unitpotentiallayers timflow.transient.linesink1d.LineSink1DBase.disvecinflayers timflow.transient.linesink1d.LineSink1DBase.disveclayers timflow.transient.linesink1d.LineSink1DBase.unitdisveclayers timflow.transient.linesink1d.LineSink1DBase.discharge timflow.transient.linesink1d.LineSink1DBase.dischargeold timflow.transient.linesink1d.LineSink1DBase.run_after_solve