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iphreeqc/ex11.out
David L Parkhurst 5e04484bdb Linux version of all examples for version 3. 
Linux version of mytest with new gas.dat from Tony.

Updated Makefile for compiling on Linux.


git-svn-id: svn://136.177.114.72/svn_GW/phreeqcpp/branches/ErrorHandling@5861 1feff8c3-07ed-0310-ac33-dd36852eb9cd
2011-12-05 20:07:54 +00:00

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Input file: ../examples/ex11
Output file: ex11.out
Database file: ../database/phreeqc.dat
------------------
Reading data base.
------------------
SOLUTION_MASTER_SPECIES
SOLUTION_SPECIES
PHASES
EXCHANGE_MASTER_SPECIES
EXCHANGE_SPECIES
SURFACE_MASTER_SPECIES
SURFACE_SPECIES
RATES
END
------------------------------------
Reading input data for simulation 1.
------------------------------------
TITLE Example 11.--Transport and ion exchange.
SOLUTION 0 CaCl2
units mmol/kgw
temp 25.0
pH 7.0 charge
pe 12.5 O2(g) -0.68
Ca 0.6
Cl 1.2
SOLUTION 1-40 Initial solution for column
units mmol/kgw
temp 25.0
pH 7.0 charge
pe 12.5 O2(g) -0.68
Na 1.0
K 0.2
N(5) 1.2
END
-----
TITLE
-----
Example 11.--Transport and ion exchange.
-------------------------------------------
Beginning of initial solution calculations.
-------------------------------------------
Initial solution 0. CaCl2
-----------------------------Solution composition------------------------------
Elements Molality Moles
Ca 6.000e-04 6.000e-04
Cl 1.200e-03 1.200e-03
----------------------------Description of solution----------------------------
pH = 6.997 Charge balance
pe = 13.630 Equilibrium with O2(g)
Specific Conductance (uS/cm, 25 oC) = 155
Density (g/cm3) = 0.99711
Activity of water = 1.000
Ionic strength = 1.800e-03
Mass of water (kg) = 1.000e+00
Total alkalinity (eq/kg) = 1.156e-19
Total carbon (mol/kg) = 0.000e+00
Total CO2 (mol/kg) = 0.000e+00
Temperature (deg C) = 25.00
Electrical balance (eq) = 4.099e-18
Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00
Iterations = 4
Total H = 1.110124e+02
Total O = 5.550675e+01
----------------------------Distribution of species----------------------------
Log Log Log
Species Molality Activity Molality Activity Gamma
H+ 1.052e-07 1.006e-07 -6.978 -6.997 -0.019
OH- 1.043e-07 9.948e-08 -6.982 -7.002 -0.021
H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000
Ca 6.000e-04
Ca+2 6.000e-04 4.985e-04 -3.222 -3.302 -0.081
CaOH+ 8.617e-10 8.221e-10 -9.065 -9.085 -0.020
Cl 1.200e-03
Cl- 1.200e-03 1.144e-03 -2.921 -2.941 -0.021
H(0) 0.000e+00
H2 0.000e+00 0.000e+00 -44.404 -44.404 0.000
O(0) 5.352e-04
O2 2.676e-04 2.677e-04 -3.573 -3.572 0.000
------------------------------Saturation indices-------------------------------
Phase SI log IAP log K(298 K, 1 atm)
H2(g) -41.25 -44.40 -3.15 H2
H2O(g) -1.51 -0.00 1.51 H2O
O2(g) -0.68 -3.57 -2.89 O2
Initial solution 1. Initial solution for column
-----------------------------Solution composition------------------------------
Elements Molality Moles
K 2.000e-04 2.000e-04
N(5) 1.200e-03 1.200e-03
Na 1.000e-03 1.000e-03
----------------------------Description of solution----------------------------
pH = 6.999 Charge balance
pe = 13.628 Equilibrium with O2(g)
Specific Conductance (uS/cm, 25 oC) = 146
Density (g/cm3) = 0.99706
Activity of water = 1.000
Ionic strength = 1.200e-03
Mass of water (kg) = 1.000e+00
Total alkalinity (eq/kg) = -9.547e-19
Total carbon (mol/kg) = 0.000e+00
Total CO2 (mol/kg) = 0.000e+00
Temperature (deg C) = 25.00
Electrical balance (eq) = -8.377e-17
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00
Iterations = 3
Total H = 1.110124e+02
Total O = 5.551035e+01
----------------------------Distribution of species----------------------------
Log Log Log
Species Molality Activity Molality Activity Gamma
H+ 1.040e-07 1.002e-07 -6.983 -6.999 -0.016
OH- 1.039e-07 9.991e-08 -6.983 -7.000 -0.017
H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000
H(0) 0.000e+00
H2 0.000e+00 0.000e+00 -44.404 -44.404 0.000
K 2.000e-04
K+ 2.000e-04 1.923e-04 -3.699 -3.716 -0.017
KOH 6.654e-12 6.656e-12 -11.177 -11.177 0.000
N(5) 1.200e-03
NO3- 1.200e-03 1.154e-03 -2.921 -2.938 -0.017
Na 1.000e-03
Na+ 1.000e-03 9.621e-04 -3.000 -3.017 -0.017
NaOH 6.342e-11 6.344e-11 -10.198 -10.198 0.000
O(0) 5.352e-04
O2 2.676e-04 2.677e-04 -3.572 -3.572 0.000
------------------------------Saturation indices-------------------------------
Phase SI log IAP log K(298 K, 1 atm)
H2(g) -41.25 -44.40 -3.15 H2
H2O(g) -1.51 -0.00 1.51 H2O
O2(g) -0.68 -3.57 -2.89 O2
------------------
End of simulation.
------------------
------------------------------------
Reading input data for simulation 2.
------------------------------------
EXCHANGE 1-40
equilibrate 1
X 0.0011
COPY cell 1 101
END
-------------------------------------------------------
Beginning of initial exchange-composition calculations.
-------------------------------------------------------
Exchange 1.
X 1.100e-03 mol
Equiv- Equivalent Log
Species Moles alents Fraction Gamma
KX 5.507e-04 5.507e-04 5.006e-01 -0.017
NaX 5.493e-04 5.493e-04 4.994e-01 -0.017
------------------
End of simulation.
------------------
------------------------------------
Reading input data for simulation 3.
------------------------------------
ADVECTION
cells 40
shifts 100
punch_cells 40
punch_frequency 1
print_cells 40
print_frequency 120
SELECTED_OUTPUT
file ex11adv.sel
reset false
step
totals Na Cl K Ca
USER_PUNCH
heading Pore_vol
10 PUNCH (STEP_NO + .5) / 40.
USER_GRAPH 1 Example 11
-chart_title "Using ADVECTION Data Block"
-headings Cl Na K Ca
-axis_titles "PORE VOLUMES" "MILLIMOLES PER KILOGRAM WATER"
-axis_scale x_axis 0 2.5
-axis_scale y_axis 0 1.4
-plot_concentration_vs time
-start
10 x = (STEP_NO + 0.5) / cell_no
20 PLOT_XY x, TOT("Cl")*1000, symbol = None, color = Red
30 PLOT_XY x, TOT("Na")*1000, symbol = None
40 PLOT_XY x, TOT("K")*1000, symbol = None
50 PLOT_XY x, TOT("Ca")*1000, symbol = None
60 PUT(1, 1)
-end
COPY cell 101 1-40
END
------------------------------------
Beginning of advection calculations.
------------------------------------
Beginning of advection time step 1, cumulative pore volumes 0.025000.
Beginning of advection time step 2, cumulative pore volumes 0.050000.
Beginning of advection time step 3, cumulative pore volumes 0.075000.
Beginning of advection time step 4, cumulative pore volumes 0.100000.
Beginning of advection time step 5, cumulative pore volumes 0.125000.
Beginning of advection time step 6, cumulative pore volumes 0.150000.
Beginning of advection time step 7, cumulative pore volumes 0.175000.
Beginning of advection time step 8, cumulative pore volumes 0.200000.
Beginning of advection time step 9, cumulative pore volumes 0.225000.
Beginning of advection time step 10, cumulative pore volumes 0.250000.
Beginning of advection time step 11, cumulative pore volumes 0.275000.
Beginning of advection time step 12, cumulative pore volumes 0.300000.
Beginning of advection time step 13, cumulative pore volumes 0.325000.
Beginning of advection time step 14, cumulative pore volumes 0.350000.
Beginning of advection time step 15, cumulative pore volumes 0.375000.
Beginning of advection time step 16, cumulative pore volumes 0.400000.
Beginning of advection time step 17, cumulative pore volumes 0.425000.
Beginning of advection time step 18, cumulative pore volumes 0.450000.
Beginning of advection time step 19, cumulative pore volumes 0.475000.
Beginning of advection time step 20, cumulative pore volumes 0.500000.
Beginning of advection time step 21, cumulative pore volumes 0.525000.
Beginning of advection time step 22, cumulative pore volumes 0.550000.
Beginning of advection time step 23, cumulative pore volumes 0.575000.
Beginning of advection time step 24, cumulative pore volumes 0.600000.
Beginning of advection time step 25, cumulative pore volumes 0.625000.
Beginning of advection time step 26, cumulative pore volumes 0.650000.
Beginning of advection time step 27, cumulative pore volumes 0.675000.
Beginning of advection time step 28, cumulative pore volumes 0.700000.
Beginning of advection time step 29, cumulative pore volumes 0.725000.
Beginning of advection time step 30, cumulative pore volumes 0.750000.
Beginning of advection time step 31, cumulative pore volumes 0.775000.
Beginning of advection time step 32, cumulative pore volumes 0.800000.
Beginning of advection time step 33, cumulative pore volumes 0.825000.
Beginning of advection time step 34, cumulative pore volumes 0.850000.
Beginning of advection time step 35, cumulative pore volumes 0.875000.
Beginning of advection time step 36, cumulative pore volumes 0.900000.
Beginning of advection time step 37, cumulative pore volumes 0.925000.
Beginning of advection time step 38, cumulative pore volumes 0.950000.
Beginning of advection time step 39, cumulative pore volumes 0.975000.
Beginning of advection time step 40, cumulative pore volumes 1.000000.
Beginning of advection time step 41, cumulative pore volumes 1.025000.
Beginning of advection time step 42, cumulative pore volumes 1.050000.
Beginning of advection time step 43, cumulative pore volumes 1.075000.
Beginning of advection time step 44, cumulative pore volumes 1.100000.
Beginning of advection time step 45, cumulative pore volumes 1.125000.
Beginning of advection time step 46, cumulative pore volumes 1.150000.
Beginning of advection time step 47, cumulative pore volumes 1.175000.
Beginning of advection time step 48, cumulative pore volumes 1.200000.
Beginning of advection time step 49, cumulative pore volumes 1.225000.
Beginning of advection time step 50, cumulative pore volumes 1.250000.
Beginning of advection time step 51, cumulative pore volumes 1.275000.
Beginning of advection time step 52, cumulative pore volumes 1.300000.
Beginning of advection time step 53, cumulative pore volumes 1.325000.
Beginning of advection time step 54, cumulative pore volumes 1.350000.
Beginning of advection time step 55, cumulative pore volumes 1.375000.
Beginning of advection time step 56, cumulative pore volumes 1.400000.
Beginning of advection time step 57, cumulative pore volumes 1.425000.
Beginning of advection time step 58, cumulative pore volumes 1.450000.
Beginning of advection time step 59, cumulative pore volumes 1.475000.
Beginning of advection time step 60, cumulative pore volumes 1.500000.
Beginning of advection time step 61, cumulative pore volumes 1.525000.
Beginning of advection time step 62, cumulative pore volumes 1.550000.
Beginning of advection time step 63, cumulative pore volumes 1.575000.
Beginning of advection time step 64, cumulative pore volumes 1.600000.
Beginning of advection time step 65, cumulative pore volumes 1.625000.
Beginning of advection time step 66, cumulative pore volumes 1.650000.
Beginning of advection time step 67, cumulative pore volumes 1.675000.
Beginning of advection time step 68, cumulative pore volumes 1.700000.
Beginning of advection time step 69, cumulative pore volumes 1.725000.
Beginning of advection time step 70, cumulative pore volumes 1.750000.
Beginning of advection time step 71, cumulative pore volumes 1.775000.
Beginning of advection time step 72, cumulative pore volumes 1.800000.
Beginning of advection time step 73, cumulative pore volumes 1.825000.
Beginning of advection time step 74, cumulative pore volumes 1.850000.
Beginning of advection time step 75, cumulative pore volumes 1.875000.
Beginning of advection time step 76, cumulative pore volumes 1.900000.
Beginning of advection time step 77, cumulative pore volumes 1.925000.
Beginning of advection time step 78, cumulative pore volumes 1.950000.
Beginning of advection time step 79, cumulative pore volumes 1.975000.
Beginning of advection time step 80, cumulative pore volumes 2.000000.
Beginning of advection time step 81, cumulative pore volumes 2.025000.
Beginning of advection time step 82, cumulative pore volumes 2.050000.
Beginning of advection time step 83, cumulative pore volumes 2.075000.
Beginning of advection time step 84, cumulative pore volumes 2.100000.
Beginning of advection time step 85, cumulative pore volumes 2.125000.
Beginning of advection time step 86, cumulative pore volumes 2.150000.
Beginning of advection time step 87, cumulative pore volumes 2.175000.
Beginning of advection time step 88, cumulative pore volumes 2.200000.
Beginning of advection time step 89, cumulative pore volumes 2.225000.
Beginning of advection time step 90, cumulative pore volumes 2.250000.
Beginning of advection time step 91, cumulative pore volumes 2.275000.
Beginning of advection time step 92, cumulative pore volumes 2.300000.
Beginning of advection time step 93, cumulative pore volumes 2.325000.
Beginning of advection time step 94, cumulative pore volumes 2.350000.
Beginning of advection time step 95, cumulative pore volumes 2.375000.
Beginning of advection time step 96, cumulative pore volumes 2.400000.
Beginning of advection time step 97, cumulative pore volumes 2.425000.
Beginning of advection time step 98, cumulative pore volumes 2.450000.
Beginning of advection time step 99, cumulative pore volumes 2.475000.
Beginning of advection time step 100, cumulative pore volumes 2.500000.
------------------
End of simulation.
------------------
------------------------------------
Reading input data for simulation 4.
------------------------------------
USER_GRAPH 1
-detach
TRANSPORT
cells 40
lengths 0.002
shifts 100
time_step 720.0
flow_direction forward
boundary_conditions flux flux
diffusion_coefficient 0.0e-9
dispersivities 0.002
correct_disp true
punch_cells 40
punch_frequency 1
print_cells 40
print_frequency 120
SELECTED_OUTPUT
WARNING: Cell-lengths were read for 1 cells. Last value is used till cell 40.
WARNING: Dispersivities were read for 1 cells. Last value is used till cell 40.
file ex11trn.sel
reset false
step
totals Na Cl K Ca
high_precision true
USER_GRAPH 2 Example 11
-chart_title "Using TRANSPORT Data Block"
-headings Cl Na K Ca Cl_analytical
-axis_titles "PORE VOLUMES" "MILLIMOLES PER KILOGRAM WATER"
-axis_scale x_axis 0 2.5
-axis_scale y_axis 0 1.4
-plot_concentration_vs time
10 x = (STEP_NO + 0.5) / cell_no
20 PLOT_XY x, TOT("Cl")*1000, symbol = Plus, symbol_size = 2 color = Red
30 PLOT_XY x, TOT("Na")*1000, symbol = Plus, symbol_size = 2 color = Blue
40 PLOT_XY x, TOT("K") *1000, symbol = Plus, symbol_size = 2 color = Orange
50 PLOT_XY x, TOT("Ca")*1000, symbol = Plus, symbol_size = 2 color = Magenta
60 DATA 0.254829592, -0.284496736, 1.421413741, -1.453152027, 1.061405429, 0.3275911
70 READ a1, a2, a3, a4, a5, a6
80 Peclet = 0.08 / 0.002
90 z = (1 - x) / SQRT(4 * x / Peclet)
100 PA = 0
110 GOSUB 2000 # calculate e_erfc = exp(PA) * erfc(z)
120 e_erfc1 = e_erfc
130 z = (1 + x) / SQRT(4 * x / Peclet)
140 PA = Peclet
150 GOSUB 2000 # calculate exp(PA) * erfc(z)
160 y = 0.6 * (e_erfc1 + e_erfc)
170 PLOT_XY x, y, line_width = 0, symbol = Circle, color = Red
180 d = (y - TOT("Cl")*1000)^2
190 IF EXISTS(10) THEN PUT(d + GET(10), 10) ELSE PUT(d, 10)
200 IF STEP_NO = 2 * CELL_NO THEN print 'SSQD for Cl after 2 Pore Volumes: ', GET(10), '(mmol/L)^2'
210 END
2000 REM calculate e_erfc = exp(PA) * erfc(z)...
2010 sgz = SGN(z)
2020 z = ABS(z)
2050 b = 1 / (1 + a6 * z)
2060 e_erfc = b * (a1 + b * (a2 + b * (a3 + b * (a4 + b * a5)))) * EXP(PA - (z * z))
2070 IF sgz = -1 THEN e_erfc = 2 * EXP(PA) - e_erfc
2080 RETURN
END
------------------------------------
Beginning of transport calculations.
------------------------------------
-------------------------------
Equilibrating initial solutions
-------------------------------
Using solution 40. Initial solution for column
Using exchange 40. Exchanger defined in simulation 3.
-----------------------------Exchange composition------------------------------
X 1.100e-03 mol
Equiv- Equivalent Log
Species Moles alents Fraction Gamma
KX 5.507e-04 5.507e-04 5.006e-01 -0.017
NaX 5.493e-04 5.493e-04 4.994e-01 -0.017
NH4X 3.038e-63 3.038e-63 2.761e-60 -0.017
-----------------------------Solution composition------------------------------
Elements Molality Moles
K 2.000e-04 2.000e-04
N 1.200e-03 1.200e-03
Na 1.000e-03 1.000e-03
----------------------------Description of solution----------------------------
pH = 6.999 Charge balance
pe = 13.628 Adjusted to redox equilibrium
Specific Conductance (uS/cm, 25 oC) = 146
Density (g/cm3) = 0.99706
Activity of water = 1.000
Ionic strength = 1.200e-03
Mass of water (kg) = 1.000e+00
Total alkalinity (eq/kg) = -8.465e-19
Total carbon (mol/kg) = 0.000e+00
Total CO2 (mol/kg) = 0.000e+00
Temperature (deg C) = 25.00
Electrical balance (eq) = -8.404e-17
Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00
Iterations = 1
Total H = 1.110124e+02
Total O = 5.551035e+01
----------------------------Distribution of species----------------------------
Log Log Log
Species Molality Activity Molality Activity Gamma
H+ 1.040e-07 1.002e-07 -6.983 -6.999 -0.016
OH- 1.039e-07 9.991e-08 -6.983 -7.000 -0.017
H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000
H(0) 0.000e+00
H2 0.000e+00 0.000e+00 -44.404 -44.404 0.000
K 2.000e-04
K+ 2.000e-04 1.923e-04 -3.699 -3.716 -0.017
KOH 6.654e-12 6.656e-12 -11.177 -11.177 0.000
N(-3) 0.000e+00
NH4+ 0.000e+00 0.000e+00 -62.857 -62.874 -0.017
NH3 0.000e+00 0.000e+00 -65.120 -65.120 0.000
N(0) 1.729e-19
N2 8.645e-20 8.647e-20 -19.063 -19.063 0.000
N(3) 2.485e-16
NO2- 2.485e-16 2.389e-16 -15.605 -15.622 -0.017
N(5) 1.200e-03
NO3- 1.200e-03 1.154e-03 -2.921 -2.938 -0.017
Na 1.000e-03
Na+ 1.000e-03 9.621e-04 -3.000 -3.017 -0.017
NaOH 6.342e-11 6.344e-11 -10.198 -10.198 0.000
O(0) 5.352e-04
O2 2.676e-04 2.677e-04 -3.572 -3.572 0.000
------------------------------Saturation indices-------------------------------
Phase SI log IAP log K(298 K, 1 atm)
H2(g) -41.25 -44.40 -3.15 H2
H2O(g) -1.51 -0.00 1.51 H2O
N2(g) -15.80 -19.06 -3.26 N2
NH3(g) -66.89 -65.12 1.77 NH3
O2(g) -0.68 -3.57 -2.89 O2
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Transport step 38.
Transport step 38. Mixrun 1.
Transport step 38. Mixrun 2.
Transport step 38. Mixrun 3.
Transport step 38. Mixrun 4.
Transport step 39.
Transport step 39. Mixrun 1.
Transport step 39. Mixrun 2.
Transport step 39. Mixrun 3.
Transport step 39. Mixrun 4.
Transport step 40.
Transport step 40. Mixrun 1.
Transport step 40. Mixrun 2.
Transport step 40. Mixrun 3.
Transport step 40. Mixrun 4.
Transport step 41.
Transport step 41. Mixrun 1.
Transport step 41. Mixrun 2.
Transport step 41. Mixrun 3.
Transport step 41. Mixrun 4.
Transport step 42.
Transport step 42. Mixrun 1.
Transport step 42. Mixrun 2.
Transport step 42. Mixrun 3.
Transport step 42. Mixrun 4.
Transport step 43.
Transport step 43. Mixrun 1.
Transport step 43. Mixrun 2.
Transport step 43. Mixrun 3.
Transport step 43. Mixrun 4.
Transport step 44.
Transport step 44. Mixrun 1.
Transport step 44. Mixrun 2.
Transport step 44. Mixrun 3.
Transport step 44. Mixrun 4.
Transport step 45.
Transport step 45. Mixrun 1.
Transport step 45. Mixrun 2.
Transport step 45. Mixrun 3.
Transport step 45. Mixrun 4.
Transport step 46.
Transport step 46. Mixrun 1.
Transport step 46. Mixrun 2.
Transport step 46. Mixrun 3.
Transport step 46. Mixrun 4.
Transport step 47.
Transport step 47. Mixrun 1.
Transport step 47. Mixrun 2.
Transport step 47. Mixrun 3.
Transport step 47. Mixrun 4.
Transport step 48.
Transport step 48. Mixrun 1.
Transport step 48. Mixrun 2.
Transport step 48. Mixrun 3.
Transport step 48. Mixrun 4.
Transport step 49.
Transport step 49. Mixrun 1.
Transport step 49. Mixrun 2.
Transport step 49. Mixrun 3.
Transport step 49. Mixrun 4.
Transport step 50.
Transport step 50. Mixrun 1.
Transport step 50. Mixrun 2.
Transport step 50. Mixrun 3.
Transport step 50. Mixrun 4.
Transport step 51.
Transport step 51. Mixrun 1.
Transport step 51. Mixrun 2.
Transport step 51. Mixrun 3.
Transport step 51. Mixrun 4.
Transport step 52.
Transport step 52. Mixrun 1.
Transport step 52. Mixrun 2.
Transport step 52. Mixrun 3.
Transport step 52. Mixrun 4.
Transport step 53.
Transport step 53. Mixrun 1.
Transport step 53. Mixrun 2.
Transport step 53. Mixrun 3.
Transport step 53. Mixrun 4.
Transport step 54.
Transport step 54. Mixrun 1.
Transport step 54. Mixrun 2.
Transport step 54. Mixrun 3.
Transport step 54. Mixrun 4.
Transport step 55.
Transport step 55. Mixrun 1.
Transport step 55. Mixrun 2.
Transport step 55. Mixrun 3.
Transport step 55. Mixrun 4.
Transport step 56.
Transport step 56. Mixrun 1.
Transport step 56. Mixrun 2.
Transport step 56. Mixrun 3.
Transport step 56. Mixrun 4.
Transport step 57.
Transport step 57. Mixrun 1.
Transport step 57. Mixrun 2.
Transport step 57. Mixrun 3.
Transport step 57. Mixrun 4.
Transport step 58.
Transport step 58. Mixrun 1.
Transport step 58. Mixrun 2.
Transport step 58. Mixrun 3.
Transport step 58. Mixrun 4.
Transport step 59.
Transport step 59. Mixrun 1.
Transport step 59. Mixrun 2.
Transport step 59. Mixrun 3.
Transport step 59. Mixrun 4.
Transport step 60.
Transport step 60. Mixrun 1.
Transport step 60. Mixrun 2.
Transport step 60. Mixrun 3.
Transport step 60. Mixrun 4.
Transport step 61.
Transport step 61. Mixrun 1.
Transport step 61. Mixrun 2.
Transport step 61. Mixrun 3.
Transport step 61. Mixrun 4.
Transport step 62.
Transport step 62. Mixrun 1.
Transport step 62. Mixrun 2.
Transport step 62. Mixrun 3.
Transport step 62. Mixrun 4.
Transport step 63.
Transport step 63. Mixrun 1.
Transport step 63. Mixrun 2.
Transport step 63. Mixrun 3.
Transport step 63. Mixrun 4.
Transport step 64.
Transport step 64. Mixrun 1.
Transport step 64. Mixrun 2.
Transport step 64. Mixrun 3.
Transport step 64. Mixrun 4.
Transport step 65.
Transport step 65. Mixrun 1.
Transport step 65. Mixrun 2.
Transport step 65. Mixrun 3.
Transport step 65. Mixrun 4.
Transport step 66.
Transport step 66. Mixrun 1.
Transport step 66. Mixrun 2.
Transport step 66. Mixrun 3.
Transport step 66. Mixrun 4.
Transport step 67.
Transport step 67. Mixrun 1.
Transport step 67. Mixrun 2.
Transport step 67. Mixrun 3.
Transport step 67. Mixrun 4.
Transport step 68.
Transport step 68. Mixrun 1.
Transport step 68. Mixrun 2.
Transport step 68. Mixrun 3.
Transport step 68. Mixrun 4.
Transport step 69.
Transport step 69. Mixrun 1.
Transport step 69. Mixrun 2.
Transport step 69. Mixrun 3.
Transport step 69. Mixrun 4.
Transport step 70.
Transport step 70. Mixrun 1.
Transport step 70. Mixrun 2.
Transport step 70. Mixrun 3.
Transport step 70. Mixrun 4.
Transport step 71.
Transport step 71. Mixrun 1.
Transport step 71. Mixrun 2.
Transport step 71. Mixrun 3.
Transport step 71. Mixrun 4.
Transport step 72.
Transport step 72. Mixrun 1.
Transport step 72. Mixrun 2.
Transport step 72. Mixrun 3.
Transport step 72. Mixrun 4.
Transport step 73.
Transport step 73. Mixrun 1.
Transport step 73. Mixrun 2.
Transport step 73. Mixrun 3.
Transport step 73. Mixrun 4.
Transport step 74.
Transport step 74. Mixrun 1.
Transport step 74. Mixrun 2.
Transport step 74. Mixrun 3.
Transport step 74. Mixrun 4.
Transport step 75.
Transport step 75. Mixrun 1.
Transport step 75. Mixrun 2.
Transport step 75. Mixrun 3.
Transport step 75. Mixrun 4.
Transport step 76.
Transport step 76. Mixrun 1.
Transport step 76. Mixrun 2.
Transport step 76. Mixrun 3.
Transport step 76. Mixrun 4.
Transport step 77.
Transport step 77. Mixrun 1.
Transport step 77. Mixrun 2.
Transport step 77. Mixrun 3.
Transport step 77. Mixrun 4.
Transport step 78.
Transport step 78. Mixrun 1.
Transport step 78. Mixrun 2.
Transport step 78. Mixrun 3.
Transport step 78. Mixrun 4.
Transport step 79.
Transport step 79. Mixrun 1.
Transport step 79. Mixrun 2.
Transport step 79. Mixrun 3.
Transport step 79. Mixrun 4.
Transport step 80.
Transport step 80. Mixrun 1.
Transport step 80. Mixrun 2.
Transport step 80. Mixrun 3.
Transport step 80. Mixrun 4.
Transport step 81.
Transport step 81. Mixrun 1.
Transport step 81. Mixrun 2.
Transport step 81. Mixrun 3.
Transport step 81. Mixrun 4.
Transport step 82.
Transport step 82. Mixrun 1.
Transport step 82. Mixrun 2.
Transport step 82. Mixrun 3.
Transport step 82. Mixrun 4.
Transport step 83.
Transport step 83. Mixrun 1.
Transport step 83. Mixrun 2.
Transport step 83. Mixrun 3.
Transport step 83. Mixrun 4.
Transport step 84.
Transport step 84. Mixrun 1.
Transport step 84. Mixrun 2.
Transport step 84. Mixrun 3.
Transport step 84. Mixrun 4.
Transport step 85.
Transport step 85. Mixrun 1.
Transport step 85. Mixrun 2.
Transport step 85. Mixrun 3.
Transport step 85. Mixrun 4.
Transport step 86.
Transport step 86. Mixrun 1.
Transport step 86. Mixrun 2.
Transport step 86. Mixrun 3.
Transport step 86. Mixrun 4.
Transport step 87.
Transport step 87. Mixrun 1.
Transport step 87. Mixrun 2.
Transport step 87. Mixrun 3.
Transport step 87. Mixrun 4.
Transport step 88.
Transport step 88. Mixrun 1.
Transport step 88. Mixrun 2.
Transport step 88. Mixrun 3.
Transport step 88. Mixrun 4.
Transport step 89.
Transport step 89. Mixrun 1.
Transport step 89. Mixrun 2.
Transport step 89. Mixrun 3.
Transport step 89. Mixrun 4.
Transport step 90.
Transport step 90. Mixrun 1.
Transport step 90. Mixrun 2.
Transport step 90. Mixrun 3.
Transport step 90. Mixrun 4.
Transport step 91.
Transport step 91. Mixrun 1.
Transport step 91. Mixrun 2.
Transport step 91. Mixrun 3.
Transport step 91. Mixrun 4.
Transport step 92.
Transport step 92. Mixrun 1.
Transport step 92. Mixrun 2.
Transport step 92. Mixrun 3.
Transport step 92. Mixrun 4.
Transport step 93.
Transport step 93. Mixrun 1.
Transport step 93. Mixrun 2.
Transport step 93. Mixrun 3.
Transport step 93. Mixrun 4.
Transport step 94.
Transport step 94. Mixrun 1.
Transport step 94. Mixrun 2.
Transport step 94. Mixrun 3.
Transport step 94. Mixrun 4.
Transport step 95.
Transport step 95. Mixrun 1.
Transport step 95. Mixrun 2.
Transport step 95. Mixrun 3.
Transport step 95. Mixrun 4.
Transport step 96.
Transport step 96. Mixrun 1.
Transport step 96. Mixrun 2.
Transport step 96. Mixrun 3.
Transport step 96. Mixrun 4.
Transport step 97.
Transport step 97. Mixrun 1.
Transport step 97. Mixrun 2.
Transport step 97. Mixrun 3.
Transport step 97. Mixrun 4.
Transport step 98.
Transport step 98. Mixrun 1.
Transport step 98. Mixrun 2.
Transport step 98. Mixrun 3.
Transport step 98. Mixrun 4.
Transport step 99.
Transport step 99. Mixrun 1.
Transport step 99. Mixrun 2.
Transport step 99. Mixrun 3.
Transport step 99. Mixrun 4.
Transport step 100.
Transport step 100. Mixrun 1.
Transport step 100. Mixrun 2.
Transport step 100. Mixrun 3.
Transport step 100. Mixrun 4.
------------------
End of simulation.
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Reading input data for simulation 5.
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End of run.
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