timflow.transient.linesink1d.River1D#
- class timflow.transient.linesink1d.River1D(model, xls=0, tsandh=[(0, 1)], res=0, wh='H', layers=0, label=None)#
Bases:
LineSink1DBase,timflow.transient.equation.HeadEquation1D head-specified linesink element.
- Parameters:
model (Model object) – Model to which the element is added
xls (float) – x-coordinate of the linesink
tsandh (list of tuples) – list of tuples of the form (time, head) for head conditions
res (float) – resistance of the linesink
wh (string or float) – wetted perimeter of the linesink, “H” for aquifer height, “2H” for 2x aquifer height (two-sided flow) or specify any float value
layers (int, array or list) – layer (int) or layers (list or array) in which linesink is located
label (string, optional) – label of the element
Methods#
Initialize the element. |
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Separate function so that this can be overloaded for other types. |
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Can be called with only one x value. |
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Can be called with only one x,y value. |
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Plot the element. |
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Returns complex array of size (ngvbc, naq, npval). |
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Returns complex array of size (naq, npval). |
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Returns complex array of size (naq, npval). |
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Returns 2 complex arrays of size (ngvbc, naq, npval). |
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Returns 2 complex arrays of size (naq, npval). |
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Layers can be scalar, list, or array. |
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Returns complex array of size (ngvbc, len(layers),npval). |
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Returns complex array of size (len(layers), npval). |
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Layers can be scalar, list, or array. |
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Returns 2 complex array of size (ngvbc, len(layers), npval). |
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Returns complex array of size (len(layers), npval). |
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The discharge in each layer. |
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The discharge in each layer. |
Function to run after a solution is completed. |
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Matrix rows for head-specified conditions. |