diff --git a/Utilities/Python/scripts/Memorial_Tunnel.py b/Utilities/Python/scripts/Memorial_Tunnel.py index 90de59275f..5107633361 100644 --- a/Utilities/Python/scripts/Memorial_Tunnel.py +++ b/Utilities/Python/scripts/Memorial_Tunnel.py @@ -340,7 +340,7 @@ def __init__(self): x_min=0, x_max=16, y_min=0, y_max=400, revision_label=version_string, x_label='Number of Fans', - y_label='Volume Flow (m$^3$/s)') + y_label='Volume Flow (m³/s)') fdsplotlib.plot_to_fig(x_data=M.data[mod_time_index,0]/300, y_data=M.data[mod_time_index,1], marker_style='ko-', marker_fill_color='none', data_label='FDS', figure_handle=fig) diff --git a/Utilities/Python/scripts/NIST_NRC_Parallel_Panels.py b/Utilities/Python/scripts/NIST_NRC_Parallel_Panels.py index aee1d66ee5..07ecbcc2ed 100644 --- a/Utilities/Python/scripts/NIST_NRC_Parallel_Panels.py +++ b/Utilities/Python/scripts/NIST_NRC_Parallel_Panels.py @@ -83,7 +83,7 @@ def __init__(self): fig = fdsplotlib.plot_to_fig(x_data=[-1,-1], y_data=[-1,-1], x_min=0, x_max=150, y_min=0, y_max=250, revision_label=version_string, - x_label='Heat Flux (kW/m$^2$)', + x_label='Heat Flux (kW/m²)', y_label='Height (cm)') qdot = {} @@ -136,7 +136,7 @@ def __init__(self): fig = fdsplotlib.plot_to_fig(x_data=[-1,-1], y_data=[-1,-1], x_min=0, x_max=80, y_min=0, y_max=180, revision_label=version_string, - x_label='Heat Flux (kW/m$^2$)', + x_label='Heat Flux (kW/m²)', y_label='Height (cm)') # Plot experimental data diff --git a/Utilities/Python/scripts/Sandia_Plumes.py b/Utilities/Python/scripts/Sandia_Plumes.py index 79ebb5d3e5..a7228e2448 100644 --- a/Utilities/Python/scripts/Sandia_Plumes.py +++ b/Utilities/Python/scripts/Sandia_Plumes.py @@ -70,7 +70,7 @@ plot_title='Sandia Methane Pool Fire, Test 17', plot_type='loglog', x_label='Frequency (Hz)', - y_label='Autospectral Density (m$^2$/s)') + y_label='Autospectral Density (m²/s)') # Find peak frequency k_fds = np.where(pave[k-1].real == np.max(pave[k-1].real))[0] diff --git a/Utilities/Python/scripts/Sandia_Pools.py b/Utilities/Python/scripts/Sandia_Pools.py index 64872f9177..64333cbe01 100644 --- a/Utilities/Python/scripts/Sandia_Pools.py +++ b/Utilities/Python/scripts/Sandia_Pools.py @@ -29,8 +29,8 @@ plot_origin=(plot_style['Scat_Plot_X'],plot_style['Scat_Plot_Y']), legend_location='upper left', revision_label=version_string, - x_label='Measured Heat Flux (kW/m$^2$)', - y_label='Predicted Heat Flux (kW/m$^2$)' + x_label='Measured Heat Flux (kW/m²)', + y_label='Predicted Heat Flux (kW/m²)' ) for i in range(4): diff --git a/Utilities/Python/scripts/compression_wave.py b/Utilities/Python/scripts/compression_wave.py index 46ff4d498d..ecf85627e7 100644 --- a/Utilities/Python/scripts/compression_wave.py +++ b/Utilities/Python/scripts/compression_wave.py @@ -123,8 +123,7 @@ def clog(real_expr): x_min=0, x_max=12.5, y_min=0, y_max=8, revision_label=version_string, x_label='Time (s)', - y_label=r'Density (kg/m$^3$)', - usetex=True) + y_label='Density (kg/m³)') fdsplotlib.plot_to_fig(x_data=t_FL4_16, y_data=rho_fds_FL4_16, marker_style='c--', data_label=r'FDS $N=16$', figure_handle=fig) fdsplotlib.plot_to_fig(x_data=t_FL4_32, y_data=rho_fds_FL4_32, marker_style='g--', data_label=r'FDS $N=32$', figure_handle=fig) @@ -146,8 +145,7 @@ def clog(real_expr): plot_type='loglog', revision_label=version_string, x_label='Grid Spacing (m)', - y_label=r'L2 Error (kg/m$^3$)', - usetex=True) + y_label='L2 Error (kg/m³)') fdsplotlib.plot_to_fig(x_data=h, y_data=0.1*h**2, marker_style='k-', data_label=r'${\cal O}(\delta x^2)$', figure_handle=fig) fdsplotlib.plot_to_fig(x_data=h, y_data=e_FL0, marker_style='b*-', data_label='Central', figure_handle=fig) diff --git a/Utilities/Python/scripts/fan_curve.py b/Utilities/Python/scripts/fan_curve.py index d6cb255768..639da6b047 100644 --- a/Utilities/Python/scripts/fan_curve.py +++ b/Utilities/Python/scripts/fan_curve.py @@ -30,7 +30,7 @@ fig = fdsplotlib.plot_to_fig(x_data=[vdot1,vdot1], y_data=[-1000,1000], marker_style='r-', data_label='constant volume', x_min=-10, x_max=20, y_min=-1000, y_max=1000, - x_label='Volume Flow Rate (m$^3$/s)', + x_label='Volume Flow Rate (m³/s)', y_label='Static Pressure (Pa)') fdsplotlib.plot_to_fig(x_data=vdot, y_data=dp, marker_style='k-', data_label='quadratic', figure_handle=fig) diff --git a/Utilities/Python/scripts/plate_view_factor.py b/Utilities/Python/scripts/plate_view_factor.py index abe517ef84..7157fb68c8 100644 --- a/Utilities/Python/scripts/plate_view_factor.py +++ b/Utilities/Python/scripts/plate_view_factor.py @@ -63,7 +63,7 @@ revision_label=version_string, plot_title=r'Radiative Heat Flux (plate_view_factor)', x_label='Number of Radiation Angles', - y_label='Heat Flux (kW/m$^2$)') + y_label='Heat Flux (kW/m²)') fdsplotlib.plot_to_fig(x_data=NRA, y_data=Exact_Flux_2D*np.ones(3), marker_style='r-', figure_handle=fig) fdsplotlib.plot_to_fig(x_data=NRA, y_data=Flux_2D , marker_style='ro', data_label='FDS 2D', figure_handle=fig) diff --git a/Utilities/Python/scripts/pulsating.py b/Utilities/Python/scripts/pulsating.py index 5b8a99b2af..887a7dbf81 100644 --- a/Utilities/Python/scripts/pulsating.py +++ b/Utilities/Python/scripts/pulsating.py @@ -118,7 +118,7 @@ def section2_soln(rho0, x, y, B, w, t): x_min=0, x_max=12.5, y_min=0, y_max=2, revision_label=version_string, x_label='Time (s)', - y_label='Density (kg/m$^3$)') + y_label='Density (kg/m³)') fdsplotlib.plot_to_fig(x_data=t_FL2_16, y_data=rho_fds_FL2_16, marker_style='c--', data_label='FDS $N=16$', figure_handle=fig) fdsplotlib.plot_to_fig(x_data=t_FL2_32, y_data=rho_fds_FL2_32, marker_style='g--', data_label='FDS $N=32$', figure_handle=fig) @@ -137,7 +137,7 @@ def section2_soln(rho0, x, y, B, w, t): plot_type='loglog', revision_label=version_string, x_label='Grid Spacing (m)', - y_label='L$_2$ Error (kg/m$^3$)') + y_label='L2 Error (kg/m³)') e_FL2 = np.array([error_FL2_16, error_FL2_32, error_FL2_64, error_FL2_128]) e_FL4 = np.array([error_FL4_16, error_FL4_32, error_FL4_64, error_FL4_128]) diff --git a/Utilities/Python/scripts/radiating_polygon.py b/Utilities/Python/scripts/radiating_polygon.py index 995e6afdf2..ff38176ad2 100644 --- a/Utilities/Python/scripts/radiating_polygon.py +++ b/Utilities/Python/scripts/radiating_polygon.py @@ -57,7 +57,7 @@ revision_label=version_string,x_min=0,x_max=1,y_min=20,y_max=160, plot_title = 'Radiative Flux from a Hot Square Plate', data_label='Exact', - y_label='Radiative Heat Flux (kW/m$^2$)', + y_label='Radiative Heat Flux (kW/m²)', x_label='Distance from Plate (m)', legend_location='lower left') diff --git a/Utilities/Python/scripts/radiation_plane_layer.py b/Utilities/Python/scripts/radiation_plane_layer.py index dece6706d2..384a6505e5 100644 --- a/Utilities/Python/scripts/radiation_plane_layer.py +++ b/Utilities/Python/scripts/radiation_plane_layer.py @@ -28,7 +28,7 @@ fid.write('\\begin{tabular}{|c|c|c|c|c|c|c|} \\hline\n') fid.write('$\\tau$ & $S(\\tau)$ & \\multicolumn{2}{|c|}{FDS (I=20,J=20)} &\n') fid.write('\\multicolumn{2}{|c|}{FDS (I=20,J=1)} & FDS (I=150) \\\\ \\cline{3-7}\n') - fid.write(' & (kW/m$^2$) & 1 band & 6 bands & 1 band & 6 bands & 1 band \\\\ \\hline\\hline\n') + fid.write(' & (kW/m²) & 1 band & 6 bands & 1 band & 6 bands & 1 band \\\\ \\hline\\hline\n') for i in range(6): fid.write(f'{kappa[i]} & {exact[i]:9.4f} & ') diff --git a/Utilities/Python/scripts/saad_mms_temporal_error.py b/Utilities/Python/scripts/saad_mms_temporal_error.py index 0b9cabb1d2..ee10b6cf3e 100644 --- a/Utilities/Python/scripts/saad_mms_temporal_error.py +++ b/Utilities/Python/scripts/saad_mms_temporal_error.py @@ -124,7 +124,7 @@ revision_label=version_string,x_min=-1,x_max=1,y_min=0,y_max=5, data_label = 'Initial field', x_label='$x$ (m)', - y_label='Density (kg/m$^3$') + y_label='Density (kg/m³') fdsplotlib.plot_to_fig(x_data=x, y_data=rho_3, marker_style='r-', figure_handle=fig, @@ -152,7 +152,7 @@ revision_label=version_string,x_min=-1,x_max=1,y_min=-0.0006,y_max=0.0006, data_label = '$\\rho_3$ - $\\rho_2$', x_label='$x$ (m)', - y_label='Density (kg/m$^3$)') + y_label='Density (kg/m³)') fdsplotlib.plot_to_fig(x_data=x, y_data=rho_2-rho_1, marker_style='r-', figure_handle=fig, @@ -264,7 +264,7 @@ revision_label=version_string,x_min=-1,x_max=1,y_min=0,y_max=5, data_label = 'Initial field', x_label='$x$ (m)', - y_label='Density (kg/m$^3$') + y_label='Density (kg/m³') fdsplotlib.plot_to_fig(x_data=x, y_data=rho_3, marker_style='r-', figure_handle=fig, @@ -292,7 +292,7 @@ revision_label=version_string,x_min=-1,x_max=1,y_min=-0.0006,y_max=0.0006, data_label = '$\\rho_3$ - $\\rho_2$', x_label='$x$ (m)', - y_label='Density (kg/m$^3$)') + y_label='Density (kg/m³)') fdsplotlib.plot_to_fig(x_data=x, y_data=rho_2-rho_1, marker_style='r-', figure_handle=fig, diff --git a/Utilities/Python/scripts/tree_shapes.py b/Utilities/Python/scripts/tree_shapes.py index 396f0c87d1..ea3eabad42 100644 --- a/Utilities/Python/scripts/tree_shapes.py +++ b/Utilities/Python/scripts/tree_shapes.py @@ -57,7 +57,7 @@ data_label='ideal', revision_label=version_string, plot_title='Initialized bulk density (tree_shapes)', - x_label=r'Input volume (m$^3$)', + x_label='Input volume (m³)', y_label='Tree crown mass (kg)', legend_location='lower right', ) diff --git a/Utilities/Python/scripts/turb_model.py b/Utilities/Python/scripts/turb_model.py index a7d803c54e..1e072d374c 100644 --- a/Utilities/Python/scripts/turb_model.py +++ b/Utilities/Python/scripts/turb_model.py @@ -154,7 +154,7 @@ def energy_decay(chid, N): x_min=0, x_max=0.7, y_min=0, y_max=0.07, revision_label=version_string, x_label='Time (s)', - y_label='Kinetic Energy (m$^2$/s$^2$)', + y_label='Kinetic Energy (m²/s²)', legend_location='upper right') if chid == 'csmag_32': @@ -198,7 +198,7 @@ def plotspec(chid, N): revision_label=version_string, plot_type='loglog', x_label='$k$ (1/m)', - y_label='$E(k)$ (m$^3$/s$^2$)') + y_label='$E(k)$ (m³/s²)') L = 9*2*np.pi/100 # box length (m) k0 = 2*np.pi/L diff --git a/Utilities/Python/scripts/wall_internal_radiation.py b/Utilities/Python/scripts/wall_internal_radiation.py index 3950fe5937..96cd0b2726 100644 --- a/Utilities/Python/scripts/wall_internal_radiation.py +++ b/Utilities/Python/scripts/wall_internal_radiation.py @@ -21,7 +21,7 @@ fid.write('\\begin{center}\n') fid.write('\\begin{tabular}{|c|c|c|} \\hline\n') fid.write('$\\tau$ & $S(\\tau)$ & FDS \\\\\n') - fid.write(' & (kW/m$^2$) & (kW/m$^2$) \\\\ \\hline\\hline\n') + fid.write(' & (kW/m²) & (kW/m²) \\\\ \\hline\\hline\n') fid.write(f'0.01 & 2.897 & {-flux[0]:6.3f} \\\\\n') fid.write(f'0.1 & 24.94 & {-flux[1]:5.2f} \\\\\n') fid.write(f'0.5 & 82.95 & {-flux[2]:5.2f} \\\\\n')