Exemple #1
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    def _plot_2D(self, t, comp, state, vmax):
        x = self.axial_coordinates
        y = self.particle_coordinates

        if not self.time[0] <= t <= self.time[-1]:
            raise ValueError("Time exceeds bounds.")
        t_i = np.where(t <= self.time)[0][0]
        c_i = comp * self.n_bound + state
        v = self.solution[t_i, :, :, c_i].transpose()

        if vmax is None:
            vmax = v.max()

        fig, ax = plotting.setup_figure()
        mesh = ax.pcolormesh(x, y, v, shading='gouraud', vmin=0, vmax=vmax)

        plotting.add_text(ax, f'time = {t:.2f} s')

        layout = plotting.Layout()
        layout.title = f'Solid phase concentration, comp={comp}, state={state}'
        layout.x_label = '$z~/~m$'
        layout.y_label = '$r~/~m$'
        layout.labels = self.component_system.labels[c_i]
        plotting.set_layout(fig, ax, layout)
        fig.colorbar(mesh)

        return fig, ax, mesh
Exemple #2
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    def plot(self, start=0, end=None, overlay=None):
        """Plots the whole time_signal for each component.

        Parameters
        ----------
        start : float
            start time for plotting
        end : float
            end time for plotting

        See also
        --------
        CADETProcess.plot
        """
        x = self.time / 60
        y = self.solution / 1000
        ymax = np.max(y)

        fig, ax = plotting.setup_figure()

        ax.plot(x, y)

        if overlay is not None:
            ymax = 1.1 * np.max(overlay)
            plotting.add_overlay(ax, overlay)

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$V~/~L$'
        layout.xlim = (start, end)
        layout.ylim = (0, ymax)
        plotting.set_layout(fig, ax, layout)

        return ax
Exemple #3
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    def plot_purity(self, start=0, end=None):
        """Plots the local purity for each component of the concentration
        profile.

        Parameters
        ----------
        start : float
            start time for plotting
        end : float
            ent time for plotting

        See also
        --------
        plotlib
        plot
        """
        x = self.time / 60
        y = self.local_purity * 100

        fig, ax = plotting.setup_figure()
        ax.plot(x,y)

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$c~/~mol \cdot L^{-1}$'
        layout.xlim = (start, end)
        layout.ylim = (0, 1.1*np.max(y))
        
        plotting.set_layout(fig, ax, layout)        
        
        return ax
Exemple #4
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    def plot(self, start=0, end=None):
        """Plots the whole time_signal for each component.

        Parameters
        ----------
        start : float
            start time for plotting
        end : float
            end time for plotting

        See also
        --------
        plotlib
        plot_purity
        """
        x = self.time / 60
        y = self.signal

        fig, ax = plotting.setup_figure()
        ax.plot(x,y)

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$c~/~mol \cdot L^{-1}$'
        layout.xlim = (start, end)
        layout.ylim = (0, 1.1*np.max(y))
        
        plotting.set_layout(fig, ax, layout)        

        return ax
Exemple #5
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    def plot(self,
             start=0,
             end=None,
             ymax=None,
             ax=None,
             layout=None,
             only_plot_total_concentrations=False,
             alpha=1,
             hide_labels=False,
             secondary_axis=None,
             secondary_layout=None,
             show_legend=True):
        """Plots the whole time_signal for each component.

        Parameters
        ----------
        start : float
            start time for plotting
        end : float
            end time for plotting

        See also
        --------
        plotlib
        plot_purity
        """
        if ymax is None:
            ymax = self.solution.max()

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$c~/~mM$'
        layout.xlim = (start, end)
        layout.ylim = (0, ymax)

        ax, fig = plot_solution_1D(
            self,
            ax=None,
            layout=layout,
            only_plot_total_concentrations=only_plot_total_concentrations,
            alpha=alpha,
            hide_labels=hide_labels,
            secondary_axis=secondary_axis,
            secondary_layout=secondary_layout,
            show_legend=show_legend,
        )

        return ax, fig
    def plot_events(self):
        """Plot parameter state as function of time.
        """
        time = np.linspace(0, self.cycle_time, 1001)
        for parameter, tl in self.parameter_timelines.items():
            y = tl.value(time)

            fig, ax = plotting.setup_figure()

            layout = plotting.Layout()
            layout.title = str(parameter)
            layout.x_label = '$time~/~min$'
            layout.y_label = '$state$'

            ax.plot(time / 60, y)

            plotting.set_layout(fig, ax, layout)
    def plot(self):
        """Plot section state over time.
        """
        start = self.sections[0].start
        end = self.sections[-1].end
        time = np.linspace(start, end, 1001) / 60
        y = self.value(time)

        fig, ax = plotting.setup_figure()
        ax.plot(time, y)

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$state$'
        layout.xlim = (start / 60, end / 60)
        layout.ylim = (0, 1.1 * np.max(y))

        plotting.set_layout(fig, ax, layout)

        return ax
Exemple #8
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    def plot_at_location(self, z, overlay=None, ymax=None):
        """Plot bulk solution over time at given location.

        Parameters
        ----------
        z : float
            space for plotting

        See also
        --------
        plot_at_time
        CADETProcess.plotting
        """
        x = self.time

        if not self.axial_coordinates[0] <= z <= self.axial_coordinates[-1]:
            raise ValueError("Axial coordinate exceets boundaries.")
        z_i = np.where(z <= self.axial_coordinates)[0][0]

        y = self.solution[:, z_i]
        if ymax is None:
            ymax = 1.1 * np.max(y)

        fig, ax = plotting.setup_figure()
        ax.plot(x, y)

        plotting.add_text(ax, f'z = {z:.2f} m')

        if overlay is not None:
            ymax = np.max(overlay)
            plotting.add_overlay(ax, overlay)

        layout = plotting.Layout()
        layout.x_label = '$time~/~min$'
        layout.y_label = '$c~/~mM$'
        layout.ylim = (0, ymax)
        plotting.set_layout(fig, ax, layout)

        return ax
Exemple #9
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    def plot_at_time(self, t, overlay=None, ymax=None):
        """Plot bulk solution over space at given time.

        Parameters
        ----------
        t : float
            time for plotting

        See also
        --------
        plot_at_location
        CADETProcess.plotting
        """
        x = self.axial_coordinates

        if not self.time[0] <= t <= self.time[-1]:
            raise ValueError("Time exceeds bounds.")
        t_i = np.where(t <= self.time)[0][0]

        y = self.solution[t_i, :]
        if ymax is None:
            ymax = 1.1 * np.max(y)

        fig, ax = plotting.setup_figure()
        ax.plot(x, y)

        plotting.add_text(ax, f'time = {t:.2f} s')

        if overlay is not None:
            ymax = np.max(overlay)
            plotting.add_overlay(ax, overlay)

        layout = plotting.Layout()
        layout.x_label = '$z~/~m$'
        layout.y_label = '$c~/~mM$'
        layout.ylim = (0, ymax)
        plotting.set_layout(fig, ax, layout)

        return ax
Exemple #10
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    def _plot_1D(self, t, ymax):
        x = self.axial_coordinates

        if not self.time[0] <= t <= self.time[-1]:
            raise ValueError("Time exceeds bounds.")
        t_i = np.where(t <= self.time)[0][0]
        y = self.solution[t_i, :]

        if ymax is None:
            ymax = 1.1 * np.max(y)

        fig, ax = plotting.setup_figure()
        ax.plot(x, y)

        plotting.add_text(ax, f'time = {t:.2f} s')

        layout = plotting.Layout()
        layout.x_label = '$z~/~m$'
        layout.y_label = '$c~/~mM$'
        layout.ylim = (0, ymax)
        plotting.set_layout(fig, ax, layout)

        return fig, ax