tplot results from variable c, dpdz and K together - sphere - GPU-based 3D disc… | |
git clone git://src.adamsgaard.dk/sphere | |
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--- | |
commit f505b33d5273d15b321358d1acf0fd3852842800 | |
parent 0e8957887ab4ae4b2a08669f4a7e5898164ccd49 | |
Author: Anders Damsgaard <[email protected]> | |
Date: Thu, 21 Aug 2014 11:31:28 +0200 | |
plot results from variable c, dpdz and K together | |
Diffstat: | |
M python/permeability-results-c=1.py | 8 ++++---- | |
M python/permeability-results.py | 99 +++++++++++++++++++++--------… | |
2 files changed, 70 insertions(+), 37 deletions(-) | |
--- | |
diff --git a/python/permeability-results-c=1.py b/python/permeability-results-c… | |
t@@ -9,14 +9,14 @@ import sphere | |
from permeabilitycalculator import * | |
import matplotlib.pyplot as plt | |
-sigma0_list = numpy.array([1.0e3, 2.0e3, 4.0e3, 10.0e3, 20.0e3, 40.0e3]) | |
+dp_list = numpy.array([1.0e3, 2.0e3, 4.0e3, 10.0e3, 20.0e3, 40.0e3]) | |
sids = [] | |
-for sigma0 in sigma0_list: | |
- sids.append('permeability-dp=' + str(sigma0)) | |
+for dp in dp_list: | |
+ sids.append('permeability-dp=' + str(dp)) | |
K = numpy.empty(len(sids)) | |
-dpdz = numpy.empty_like(K) | |
+dp = numpy.empty_like(K) | |
Q = numpy.empty_like(K) | |
phi_bar = numpy.empty_like(K) | |
i = 0 | |
diff --git a/python/permeability-results.py b/python/permeability-results.py | |
t@@ -2,48 +2,81 @@ | |
import matplotlib | |
matplotlib.use('Agg') | |
matplotlib.rcParams.update({'font.size': 18, 'font.family': 'serif'}) | |
-import os | |
+import os | |
import numpy | |
import sphere | |
from permeabilitycalculator import * | |
import matplotlib.pyplot as plt | |
-sids = [ | |
- 'permeability-dp=1000.0-c_phi=1.0-c_grad_p=0.01', | |
- 'permeability-dp=1000.0-c_phi=1.0-c_grad_p=0.5', | |
- 'permeability-dp=1000.0', | |
- 'permeability-dp=20000.0-c_phi=1.0-c_grad_p=0.01', | |
- 'permeability-dp=20000.0-c_phi=1.0-c_grad_p=0.1', | |
- 'permeability-dp=20000.0-c_phi=1.0-c_grad_p=0.5', | |
- 'permeability-dp=4000.0-c_phi=1.0-c_grad_p=0.01', | |
- 'permeability-dp=4000.0-c_phi=1.0-c_grad_p=0.1', | |
- 'permeability-dp=4000.0-c_phi=1.0-c_grad_p=0.5', | |
- 'permeability-dp=4000.0'] | |
- | |
-K = numpy.empty(len(sids)) | |
-c_grad_p = numpy.empty_like(K) | |
-i = 0 | |
- | |
-for sid in sids: | |
- pc = PermeabilityCalc(sid, plot_evolution=False, print_results=False, | |
- verbose=False) | |
- K[i] = pc.conductivity() | |
- c_grad_p[i] = pc.c_grad_p() | |
- i += 1 | |
- | |
- | |
-# produce VTK files | |
-#for sid in sids: | |
- #sim = sphere.sim(sid, fluid=True) | |
- #sim.writeVTKall() | |
+dp_list = numpy.array([1.0e3, 2.0e3, 4.0e3, 10.0e3, 20.0e3, 40.0e3]) | |
+cvals = [1.0, 0.1, 0.01] | |
+c_phi = 1.0 | |
+ | |
+K = [[], [], []] | |
+dpdz = [[], [], []] | |
+Q = [[], [], []] | |
+phi_bar = [[], [], []] | |
+ | |
+ | |
+c = 0 | |
+for c_grad_p in cvals: | |
+ | |
+ sids = [] | |
+ for dp in dp_list: | |
+ sids.append('permeability-dp=' + str(dp) + '-c_phi=' + \ | |
+ str(c_phi) + '-c_grad_p=' + str(c_grad_p)) | |
+ | |
+ K[c] = numpy.empty(len(sids)) | |
+ dpdz[c] = numpy.empty_like(K) | |
+ Q[c] = numpy.empty_like(K) | |
+ phi_bar[c] = numpy.empty_like(K) | |
+ i = 0 | |
+ | |
+ for sid in sids: | |
+ pc = PermeabilityCalc(sid, plot_evolution=False, print_results=False, | |
+ verbose=False) | |
+ K[c][i] = pc.conductivity() | |
+ pc.findPressureGradient() | |
+ pc.findCrossSectionalFlux() | |
+ dpdz[c][i] = pc.dPdL[2] | |
+ Q[c][i] = pc.Q[2] | |
+ pc.findMeanPorosity() | |
+ phi_bar[c][i] = pc.phi_bar | |
+ | |
+ i += 1 | |
+ | |
+ # produce VTK files | |
+ #for sid in sids: | |
+ #sim = sphere.sim(sid, fluid=True) | |
+ #sim.writeVTKall() | |
+ c += 1 | |
fig = plt.figure() | |
-plt.xlabel('Pressure gradient coefficient $c$ [-]') | |
-plt.ylabel('Hydraulic conductivity $K$ [m/s]') | |
-plt.plot(c_grad_p, K, '+') | |
+ | |
+#plt.subplot(3,1,1) | |
+plt.xlabel('Pressure gradient $\\Delta p/\\Delta z$ [kPa m$^{-1}$]') | |
+plt.ylabel('Hydraulic conductivity $K$ [ms$^{-1}$]') | |
+plt.ticklabel_format(style='sci', axis='y', scilimits=(0,0)) | |
+for c in range(len(c_vals)): | |
+ dpdz /= 1000.0 | |
+ plt.plot(dpdz[c], K[c], 'o-k', label='$c$ = %.2f' % (c_vals[c])) | |
plt.grid() | |
+ | |
+#plt.subplot(3,1,2) | |
+#plt.xlabel('Pressure gradient $\\Delta p/\\Delta z$ [Pa m$^{-1}$]') | |
+#plt.ylabel('Hydraulic flux $Q$ [m$^3$s$^{-1}$]') | |
+#plt.plot(dpdz, Q, '+') | |
+#plt.grid() | |
+ | |
+#plt.subplot(3,1,3) | |
+#plt.xlabel('Pressure gradient $\\Delta p/\\Delta z$ [Pa m$^{-1}$]') | |
+#plt.ylabel('Mean porosity $\\bar{\\phi}$ [-]') | |
+#plt.plot(dpdz, phi_bar, '+') | |
+#plt.grid() | |
+ | |
plt.tight_layout() | |
-filename = 'c_grad_p-vs-K.pdf' | |
+filename = 'permeability-dpdz-vs-K-vs-c.pdf' | |
plt.savefig(filename) | |
print(os.getcwd() + '/' + filename) | |
+plt.savefig(filename) |