. Central Oklahoma aquifer, . demonstration of PHAST *** Output at End of Steady State Iteration No. 1 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 4.766512E+10 (kg/yr) 9.533025E+10 (kg) Fluid outflow .............................................. 3.350351E+12 (kg/yr) 6.700701E+12 (kg) Change in fluid in region .................................. -6.703064E+12 (kg/yr) -1.340613E+13 (kg) Residual imbalance ......................................... -3.400378E+12 (kg/yr) -6.800757E+12 (kg) Fractional imbalance ....................................... -0.5073 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -2.826904E+10 (kg) Step total flux b.c. fluid net inflow ...................... 9.533025E+10 (kg) Step total leakage b.c. fluid net inflow ................... -1.170076E+10 (kg) Step total river leakage b.c. fluid net inflow ............. -6.660731E+12 (kg) Step total well fluid net inflow ........................... 0.000000E+00 (kg) *** Output at End of Steady State Iteration No. 2 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.906605E+11 (kg) Fluid outflow .............................................. 3.826827E+12 (kg/yr) 7.653654E+12 (kg) Change in fluid in region .................................. -2.063642E+11 (kg/yr) -4.127284E+11 (kg) Residual imbalance ......................................... 3.525132E+12 (kg/yr) 7.050265E+12 (kg) Fractional imbalance ....................................... 0.9212 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -2.771470E+10 (kg) Step total flux b.c. fluid net inflow ...................... 1.906605E+11 (kg) Step total leakage b.c. fluid net inflow ................... -2.318054E+10 (kg) Step total river leakage b.c. fluid net inflow ............. -7.602758E+12 (kg) Step total well fluid net inflow ........................... -3.652500E+02 (kg) *** Output at End of Steady State Iteration No. 3 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 3.813210E+11 (kg) Fluid outflow .............................................. 6.322477E+11 (kg/yr) 2.528991E+12 (kg) Change in fluid in region .................................. -1.970810E+11 (kg/yr) -7.883240E+11 (kg) Residual imbalance ......................................... 3.398365E+11 (kg/yr) 1.359346E+12 (kg) Fractional imbalance ....................................... 0.5375 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -5.415498E+10 (kg) Step total flux b.c. fluid net inflow ...................... 3.813210E+11 (kg) Step total leakage b.c. fluid net inflow ................... -4.521655E+10 (kg) Step total river leakage b.c. fluid net inflow ............. -2.429619E+12 (kg) Step total well fluid net inflow ........................... -7.305000E+02 (kg) *** Output at End of Steady State Iteration No. 4 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 7.626420E+11 (kg) Fluid outflow .............................................. 2.893428E+11 (kg/yr) 2.314742E+12 (kg) Change in fluid in region .................................. -1.826325E+11 (kg/yr) -1.461060E+12 (kg) Residual imbalance ......................................... 1.138002E+10 (kg/yr) 9.104015E+10 (kg) Fractional imbalance ....................................... 0.0393 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.042666E+11 (kg) Step total flux b.c. fluid net inflow ...................... 7.626420E+11 (kg) Step total leakage b.c. fluid net inflow ................... -8.668783E+10 (kg) Step total river leakage b.c. fluid net inflow ............. -2.123788E+12 (kg) Step total well fluid net inflow ........................... -1.461000E+03 (kg) *** Output at End of Steady State Iteration No. 5 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.525284E+12 (kg) Fluid outflow .............................................. 2.689813E+11 (kg/yr) 4.303701E+12 (kg) Change in fluid in region .................................. -1.594255E+11 (kg/yr) -2.550807E+12 (kg) Residual imbalance ......................................... 1.422564E+10 (kg/yr) 2.276103E+11 (kg) Fractional imbalance ....................................... 0.0529 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.953530E+11 (kg) Step total flux b.c. fluid net inflow ...................... 1.525284E+12 (kg) Step total leakage b.c. fluid net inflow ................... -1.617600E+11 (kg) Step total river leakage b.c. fluid net inflow ............. -3.946589E+12 (kg) Step total well fluid net inflow ........................... -2.922000E+03 (kg) *** Output at End of Steady State Iteration No. 6 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 3.050568E+12 (kg) Fluid outflow .............................................. 2.394193E+11 (kg/yr) 7.661419E+12 (kg) Change in fluid in region .................................. -1.266020E+11 (kg/yr) -4.051265E+12 (kg) Residual imbalance ......................................... 1.748708E+10 (kg/yr) 5.595866E+11 (kg) Fractional imbalance ....................................... 0.0730 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -3.502539E+11 (kg) Step total flux b.c. fluid net inflow ...................... 3.050568E+12 (kg) Step total leakage b.c. fluid net inflow ................... -2.916077E+11 (kg) Step total river leakage b.c. fluid net inflow ............. -7.019558E+12 (kg) Step total well fluid net inflow ........................... -5.844000E+03 (kg) *** Output at End of Steady State Iteration No. 7 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 6.101136E+12 (kg) Fluid outflow .............................................. 2.021382E+11 (kg/yr) 1.293684E+13 (kg) Change in fluid in region .................................. -8.962436E+10 (kg/yr) -5.735959E+12 (kg) Residual imbalance ......................................... 1.718356E+10 (kg/yr) 1.099748E+12 (kg) Fractional imbalance ....................................... 0.0850 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -5.851215E+11 (kg) Step total flux b.c. fluid net inflow ...................... 6.101136E+12 (kg) Step total leakage b.c. fluid net inflow ................... -5.059500E+11 (kg) Step total river leakage b.c. fluid net inflow ............. -1.184577E+13 (kg) Step total well fluid net inflow ........................... -1.168800E+04 (kg) *** Output at End of Steady State Iteration No. 8 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.220227E+13 (kg) Fluid outflow .............................................. 1.626124E+11 (kg/yr) 2.081439E+13 (kg) Change in fluid in region .................................. -5.016132E+10 (kg/yr) -6.420649E+12 (kg) Residual imbalance ......................................... 1.712088E+10 (kg/yr) 2.191472E+12 (kg) Fractional imbalance ....................................... 0.1053 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -8.775416E+11 (kg) Step total flux b.c. fluid net inflow ...................... 1.220227E+13 (kg) Step total leakage b.c. fluid net inflow ................... -8.434816E+11 (kg) Step total river leakage b.c. fluid net inflow ............. -1.909337E+13 (kg) Step total well fluid net inflow ........................... -2.337600E+04 (kg) *** Output at End of Steady State Iteration No. 9 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 2.440454E+13 (kg) Fluid outflow .............................................. 1.299410E+11 (kg/yr) 3.326490E+13 (kg) Change in fluid in region .................................. -2.179027E+10 (kg/yr) -5.578310E+12 (kg) Residual imbalance ......................................... 1.282049E+10 (kg/yr) 3.282046E+12 (kg) Fractional imbalance ....................................... 0.0987 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.147211E+12 (kg) Step total flux b.c. fluid net inflow ...................... 2.440454E+13 (kg) Step total leakage b.c. fluid net inflow ................... -1.345669E+12 (kg) Step total river leakage b.c. fluid net inflow ............. -3.077202E+13 (kg) Step total well fluid net inflow ........................... -4.675200E+04 (kg) *** Output at End of Steady State Iteration No. 10 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 4.880909E+13 (kg) Fluid outflow .............................................. 1.106067E+11 (kg/yr) 5.663064E+13 (kg) Change in fluid in region .................................. -7.225606E+09 (kg/yr) -3.699510E+12 (kg) Residual imbalance ......................................... 8.050857E+09 (kg/yr) 4.122039E+12 (kg) Fractional imbalance ....................................... 0.0728 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.430892E+12 (kg) Step total flux b.c. fluid net inflow ...................... 4.880909E+13 (kg) Step total leakage b.c. fluid net inflow ................... -2.091245E+12 (kg) Step total river leakage b.c. fluid net inflow ............. -5.310850E+13 (kg) Step total well fluid net inflow ........................... -9.350400E+04 (kg) *** Output at End of Steady State Iteration No. 11 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 9.761818E+13 (kg) Fluid outflow .............................................. 1.023049E+11 (kg/yr) 1.047602E+14 (kg) Change in fluid in region .................................. -1.772119E+09 (kg/yr) -1.814650E+12 (kg) Residual imbalance ......................................... 5.202534E+09 (kg/yr) 5.327394E+12 (kg) Fractional imbalance ....................................... 0.0509 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -2.006734E+12 (kg) Step total flux b.c. fluid net inflow ...................... 9.761818E+13 (kg) Step total leakage b.c. fluid net inflow ................... -3.384378E+12 (kg) Step total river leakage b.c. fluid net inflow ............. -9.936911E+13 (kg) Step total well fluid net inflow ........................... -1.870080E+05 (kg) *** Output at End of Steady State Iteration No. 12 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.952364E+14 (kg) Fluid outflow .............................................. 9.777531E+10 (kg/yr) 2.002438E+14 (kg) Change in fluid in region .................................. -6.440088E+08 (kg/yr) -1.318930E+12 (kg) Residual imbalance ......................................... 1.801056E+09 (kg/yr) 3.688562E+12 (kg) Fractional imbalance ....................................... 0.0184 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -2.234228E+12 (kg) Step total flux b.c. fluid net inflow ...................... 1.952364E+14 (kg) Step total leakage b.c. fluid net inflow ................... -5.849682E+12 (kg) Step total river leakage b.c. fluid net inflow ............. -1.921599E+14 (kg) Step total well fluid net inflow ........................... -3.740160E+05 (kg) *** Output at End of Steady State Iteration No. 13 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 3.904727E+14 (kg) Fluid outflow .............................................. 9.571814E+10 (kg/yr) 3.920615E+14 (kg) Change in fluid in region .................................. -6.922948E+07 (kg/yr) -2.835639E+11 (kg) Residual imbalance ......................................... 3.186647E+08 (kg/yr) 1.305251E+12 (kg) Fractional imbalance ....................................... 0.0033 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -3.966789E+12 (kg) Step total flux b.c. fluid net inflow ...................... 3.904727E+14 (kg) Step total leakage b.c. fluid net inflow ................... -1.076149E+13 (kg) Step total river leakage b.c. fluid net inflow ............. -3.773332E+14 (kg) Step total well fluid net inflow ........................... -7.480320E+05 (kg) *** Output at End of Steady State Iteration No. 14 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 7.809454E+14 (kg) Fluid outflow .............................................. 9.538496E+10 (kg/yr) 7.813936E+14 (kg) Change in fluid in region .................................. -2.845593E+06 (kg/yr) -2.331110E+10 (kg) Residual imbalance ......................................... 5.186708E+07 (kg/yr) 4.248951E+11 (kg) Fractional imbalance ....................................... 0.0005 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -7.781294E+12 (kg) Step total flux b.c. fluid net inflow ...................... 7.809454E+14 (kg) Step total leakage b.c. fluid net inflow ................... -2.108115E+13 (kg) Step total river leakage b.c. fluid net inflow ............. -7.525312E+14 (kg) Step total well fluid net inflow ........................... -1.496064E+06 (kg) *** Output at End of Steady State Iteration No. 15 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.561891E+15 (kg) Fluid outflow .............................................. 9.533417E+10 (kg/yr) 1.561955E+15 (kg) Change in fluid in region .................................. -1.027977E+05 (kg/yr) -1.684238E+09 (kg) Residual imbalance ......................................... 3.819481E+06 (kg/yr) 6.257838E+10 (kg) Fractional imbalance ....................................... 0.0000 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.555403E+13 (kg) Step total flux b.c. fluid net inflow ...................... 1.561891E+15 (kg) Step total leakage b.c. fluid net inflow ................... -4.206295E+13 (kg) Step total river leakage b.c. fluid net inflow ............. -1.504338E+15 (kg) Step total well fluid net inflow ........................... -2.992128E+06 (kg) *** Output at End of Steady State Iteration No. 16 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 3.123782E+15 (kg) Fluid outflow .............................................. 9.533076E+10 (kg/yr) 3.123798E+15 (kg) Change in fluid in region .................................. -1.823693E+02 (kg/yr) -5.975878E+06 (kg) Residual imbalance ......................................... 5.067282E+05 (kg/yr) 1.660447E+10 (kg) Fractional imbalance ....................................... 0.0000 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -3.110575E+13 (kg) Step total flux b.c. fluid net inflow ...................... 3.123782E+15 (kg) Step total leakage b.c. fluid net inflow ................... -8.410649E+13 (kg) Step total river leakage b.c. fluid net inflow ............. -3.008586E+15 (kg) Step total well fluid net inflow ........................... -5.984256E+06 (kg) *** Output at End of Steady State Iteration No. 17 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 6.247563E+15 (kg) Fluid outflow .............................................. 9.533025E+10 (kg/yr) 6.247563E+15 (kg) Change in fluid in region .................................. 6.140285E+01 (kg/yr) 4.024097E+06 (kg) Residual imbalance ......................................... 3.200811E+02 (kg/yr) 2.097684E+07 (kg) Fractional imbalance ....................................... 0.0000 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -6.221160E+13 (kg) Step total flux b.c. fluid net inflow ...................... 6.247563E+15 (kg) Step total leakage b.c. fluid net inflow ................... -1.682108E+14 (kg) Step total river leakage b.c. fluid net inflow ............. -6.017141E+15 (kg) Step total well fluid net inflow ........................... -1.196851E+07 (kg) *** Output at End of Steady State Iteration No. 18 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.249513E+16 (kg) Fluid outflow .............................................. 9.533025E+10 (kg/yr) 1.249513E+16 (kg) Change in fluid in region .................................. 1.306682E+00 (kg/yr) 1.712694E+05 (kg) Residual imbalance ......................................... -2.705501E+02 (kg/yr) -3.546154E+07 (kg) Fractional imbalance ....................................... 0.0000 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.244232E+14 (kg) Step total flux b.c. fluid net inflow ...................... 1.249513E+16 (kg) Step total leakage b.c. fluid net inflow ................... -3.364216E+14 (kg) Step total river leakage b.c. fluid net inflow ............. -1.203428E+16 (kg) Step total well fluid net inflow ........................... -2.393702E+07 (kg) *** Output at End of Steady State Iteration No. 19 *** Time ....................................................... 0.000 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 2.499025E+16 (kg) Fluid outflow .............................................. 9.533025E+10 (kg/yr) 2.499025E+16 (kg) Change in fluid in region .................................. -2.713406E-02 (kg/yr) -7.113031E+03 (kg) Residual imbalance ......................................... -9.417175E+00 (kg/yr) -2.468656E+06 (kg) Fractional imbalance ....................................... 0.0000 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -2.488465E+14 (kg) Step total flux b.c. fluid net inflow ...................... 2.499025E+16 (kg) Step total leakage b.c. fluid net inflow ................... -6.728432E+14 (kg) Step total river leakage b.c. fluid net inflow ............. -2.406856E+16 (kg) Step total well fluid net inflow ........................... -4.787405E+07 (kg) *** Output at End of Time Step No. 50 *** Time ....................................................... 1.000E+05 (yr) *** Global Flow Balance Summary *** Current Time Step Rates Amounts Fluid inflow ............................................... 9.533025E+10 (kg/yr) 1.906605E+14 (kg) Fluid outflow .............................................. 9.533025E+10 (kg/yr) 1.906605E+14 (kg) Change in fluid in region .................................. -3.556625E+00 (kg/yr) -7.113250E+03 (kg) Residual imbalance ......................................... 1.354962E+03 (kg/yr) 2.709925E+06 (kg) Fractional imbalance ....................................... 0.0000 Component: H Solute inflow .............................................. 5.794205E+05 (kg/yr) 1.158841E+09 (kg) Solute outflow ............................................. 6.780978E+05 (kg/yr) 1.356196E+09 (kg) Change in solute in region ................................. -7.412571E+03 (kg/yr) -1.482514E+07 (kg) Residual imbalance ......................................... 9.126481E+04 (kg/yr) 1.825296E+08 (kg) Fractional imbalance ....................................... 0.1346 Component: O Solute inflow .............................................. 3.302088E+07 (kg/yr) 6.604177E+10 (kg) Solute outflow ............................................. 3.659360E+07 (kg/yr) 7.318720E+10 (kg) Change in solute in region ................................. -4.451673E+05 (kg/yr) -8.903346E+08 (kg) Residual imbalance ......................................... 3.127550E+06 (kg/yr) 6.255099E+09 (kg) Fractional imbalance ....................................... 0.0855 Component: As Solute inflow .............................................. 0.000000E+00 (kg/yr) 0.000000E+00 (kg) Solute outflow ............................................. 2.590026E+02 (kg/yr) 5.180052E+05 (kg) Change in solute in region ................................. 9.039827E+00 (kg/yr) 1.807965E+04 (kg) Residual imbalance ......................................... 2.680424E+02 (kg/yr) 5.360849E+05 (kg) Fractional imbalance ....................................... 1.0349 Component: C Solute inflow .............................................. 8.147018E+06 (kg/yr) 1.629404E+10 (kg) Solute outflow ............................................. 8.885335E+06 (kg/yr) 1.777067E+10 (kg) Change in solute in region ................................. -1.143131E+05 (kg/yr) -2.286261E+08 (kg) Residual imbalance ......................................... 6.240035E+05 (kg/yr) 1.248007E+09 (kg) Fractional imbalance ....................................... 0.0702 Component: Ca Solute inflow .............................................. 7.196397E+06 (kg/yr) 1.439279E+10 (kg) Solute outflow ............................................. 3.884320E+06 (kg/yr) 7.768640E+09 (kg) Change in solute in region ................................. -1.159103E+06 (kg/yr) -2.318205E+09 (kg) Residual imbalance ......................................... -4.471180E+06 (kg/yr) -8.942360E+09 (kg) Fractional imbalance ....................................... -0.6213 Component: Cl Solute inflow .............................................. 4.516556E+05 (kg/yr) 9.033112E+08 (kg) Solute outflow ............................................. 2.010764E+07 (kg/yr) 4.021529E+10 (kg) Change in solute in region ................................. -1.923533E+07 (kg/yr) -3.847067E+10 (kg) Residual imbalance ......................................... 4.206557E+05 (kg/yr) 8.413114E+08 (kg) Fractional imbalance ....................................... 0.0209 Component: Mg Solute inflow .............................................. 3.207187E+06 (kg/yr) 6.414374E+09 (kg) Solute outflow ............................................. 1.674152E+06 (kg/yr) 3.348304E+09 (kg) Change in solute in region ................................. -3.223701E+05 (kg/yr) -6.447402E+08 (kg) Residual imbalance ......................................... -1.855405E+06 (kg/yr) -3.710811E+09 (kg) Fractional imbalance ....................................... -0.5785 Component: Na Solute inflow .............................................. 2.687055E+05 (kg/yr) 5.374109E+08 (kg) Solute outflow ............................................. 2.257261E+07 (kg/yr) 4.514523E+10 (kg) Change in solute in region ................................. -1.100167E+07 (kg/yr) -2.200334E+10 (kg) Residual imbalance ......................................... 1.130224E+07 (kg/yr) 2.260448E+10 (kg) Fractional imbalance ....................................... 0.5007 Component: S Solute inflow .............................................. 7.181160E+05 (kg/yr) 1.436232E+09 (kg) Solute outflow ............................................. 7.298210E+05 (kg/yr) 1.459642E+09 (kg) Change in solute in region ................................. -1.151748E+04 (kg/yr) -2.303496E+07 (kg) Residual imbalance ......................................... 1.874987E+02 (kg/yr) 3.749974E+05 (kg) Fractional imbalance ....................................... 0.0003 Component: Charge Solute inflow .............................................. 1.918721E-07 (kg/yr) 3.837443E-04 (kg) Solute outflow ............................................. 2.383856E+04 (kg/yr) 4.767712E+07 (kg) Change in solute in region ................................. -1.228872E+04 (kg/yr) -2.457743E+07 (kg) Residual imbalance ......................................... 1.154984E+04 (kg/yr) 2.309969E+07 (kg) Fractional imbalance ....................................... 0.4845 Current Time Step by Boundary Condition Type Amounts Step total specified p cell fluid net inflow ............... -1.898548E+12 (kg) Step total flux b.c. fluid net inflow ...................... 1.906605E+14 (kg) Step total leakage b.c. fluid net inflow ................... -5.133386E+12 (kg) Step total river leakage b.c. fluid net inflow ............. -1.836286E+14 (kg) Step total well fluid net inflow ........................... -7.305000E+05 (kg) Component: H Step total specified C cell or associated with specified P c -1.497059E+07 (kg) Step total flux b.c. solute net inflow ..................... 1.158841E+09 (kg) Step total leakage b.c. solute net inflow .................. -6.246269E+07 (kg) Step total river leakage b.c. solute net inflow ............ -1.278762E+09 (kg) Step total well solute net inflow .......................... -8.745984E+00 (kg) Component: O Step total specified C cell or associated with specified P c -7.707348E+08 (kg) Step total flux b.c. solute net inflow ..................... 6.604177E+10 (kg) Step total leakage b.c. solute net inflow .................. -3.765721E+09 (kg) Step total river leakage b.c. solute net inflow ............ -6.865075E+10 (kg) Step total well solute net inflow .......................... -4.628550E+02 (kg) Component: As Step total specified C cell or associated with specified P c -2.302722E+04 (kg) Step total flux b.c. solute net inflow ..................... 0.000000E+00 (kg) Step total leakage b.c. solute net inflow .................. -1.736188E+05 (kg) Step total river leakage b.c. solute net inflow ............ -3.213592E+05 (kg) Step total well solute net inflow .......................... -9.014535E-04 (kg) Component: C Step total specified C cell or associated with specified P c -1.837058E+08 (kg) Step total flux b.c. solute net inflow ..................... 1.629404E+10 (kg) Step total leakage b.c. solute net inflow .................. -9.827261E+08 (kg) Step total river leakage b.c. solute net inflow ............ -1.660424E+10 (kg) Step total well solute net inflow .......................... -1.148900E+02 (kg) Component: Ca Step total specified C cell or associated with specified P c -1.450850E+07 (kg) Step total flux b.c. solute net inflow ..................... 1.439279E+10 (kg) Step total leakage b.c. solute net inflow .................. -1.659760E+09 (kg) Step total river leakage b.c. solute net inflow ............ -6.094371E+09 (kg) Step total well solute net inflow .......................... -3.061664E+01 (kg) Component: Cl Step total specified C cell or associated with specified P c -1.098618E+08 (kg) Step total flux b.c. solute net inflow ..................... 9.033112E+08 (kg) Step total leakage b.c. solute net inflow .................. -3.125127E+10 (kg) Step total river leakage b.c. solute net inflow ............ -8.854158E+09 (kg) Step total well solute net inflow .......................... -1.256212E+03 (kg) Component: Mg Step total specified C cell or associated with specified P c -6.388697E+06 (kg) Step total flux b.c. solute net inflow ..................... 6.414374E+09 (kg) Step total leakage b.c. solute net inflow .................. -6.323594E+08 (kg) Step total river leakage b.c. solute net inflow ............ -2.709556E+09 (kg) Step total well solute net inflow .......................... -1.331002E+01 (kg) Component: Na Step total specified C cell or associated with specified P c -4.095871E+08 (kg) Step total flux b.c. solute net inflow ..................... 5.374109E+08 (kg) Step total leakage b.c. solute net inflow .................. -2.006701E+10 (kg) Step total river leakage b.c. solute net inflow ............ -2.466863E+10 (kg) Step total well solute net inflow .......................... -1.066714E+03 (kg) Component: S Step total specified C cell or associated with specified P c -1.435986E+07 (kg) Step total flux b.c. solute net inflow ..................... 1.436232E+09 (kg) Step total leakage b.c. solute net inflow .................. -5.734298E+07 (kg) Step total river leakage b.c. solute net inflow ............ -1.387939E+09 (kg) Step total well solute net inflow .......................... -6.249526E+00 (kg) Component: Charge Step total specified C cell or associated with specified P c -3.523090E+03 (kg) Step total flux b.c. solute net inflow ..................... 3.837443E-04 (kg) Step total leakage b.c. solute net inflow .................. -6.031505E+07 (kg) Step total river leakage b.c. solute net inflow ............ 1.264146E+07 (kg) Step total well solute net inflow .......................... -4.508036E+00 (kg) Cumulative Summary Amounts Cumulative Fluid inflow .................................... 9.533025E+15 (kg) Cumulative Fluid outflow ................................... 9.533025E+15 (kg) Cumulative Change in fluid in region ....................... -3.485552E+05 (kg) Current Fluid in region .................................... 2.692531E+14 (kg) Current Fluid volume in region ............................. 2.692531E+11 (m ^3) Residual imbalance ......................................... 6.690833E+07 (kg) Fractional imbalance ....................................... 0.0000 Component: H Cumulative Solute inflow ................................... 5.794205E+10 (kg) Cumulative Solute outflow .................................. 8.626928E+10 (kg) Cumulative Change in solute in region ...................... 7.762805E+08 (kg) Current Solute in region ................................... 2.252242E+09 (kg) Residual imbalance.......................................... 2.910352E+10 (kg) Fractional imbalance ....................................... 0.3374 Component: O Cumulative Solute inflow ................................... 3.302088E+12 (kg) Cumulative Solute outflow .................................. 4.843686E+12 (kg) Cumulative Change in solute in region ...................... -6.022788E+10 (kg) Current Solute in region ................................... 1.308041E+11 (kg) Residual imbalance.......................................... 1.481370E+12 (kg) Fractional imbalance ....................................... 0.3058 Component: As Cumulative Solute inflow ................................... 0.000000E+00 (kg) Cumulative Solute outflow .................................. 2.748362E+08 (kg) Cumulative Change in solute in region ...................... 1.082580E+06 (kg) Current Solute in region ................................... 1.374324E+06 (kg) Residual imbalance.......................................... 2.759188E+08 (kg) Fractional imbalance ....................................... 1.0039 Component: C Cumulative Solute inflow ................................... 8.147018E+11 (kg) Cumulative Solute outflow .................................. 1.202647E+12 (kg) Cumulative Change in solute in region ...................... 1.425903E+10 (kg) Current Solute in region ................................... 3.278049E+10 (kg) Residual imbalance.......................................... 4.022041E+11 (kg) Fractional imbalance ....................................... 0.3344 Component: Ca Cumulative Solute inflow ................................... 7.196397E+11 (kg) Cumulative Solute outflow .................................. 3.070672E+12 (kg) Cumulative Change in solute in region ...................... -7.164890E+12 (kg) Current Solute in region ................................... 9.851762E+10 (kg) Residual imbalance.......................................... -4.813857E+12 (kg) Fractional imbalance ....................................... -0.6719 Component: Cl Cumulative Solute inflow ................................... 4.516556E+10 (kg) Cumulative Solute outflow .................................. 4.437556E+13 (kg) Cumulative Change in solute in region ...................... -9.025248E+13 (kg) Current Solute in region ................................... 1.437131E+12 (kg) Residual imbalance.......................................... -4.592208E+13 (kg) Fractional imbalance ....................................... -0.5088 Component: Mg Cumulative Solute inflow ................................... 3.207187E+11 (kg) Cumulative Solute outflow .................................. 9.783606E+11 (kg) Cumulative Change in solute in region ...................... -1.492866E+12 (kg) Current Solute in region ................................... 3.142007E+10 (kg) Residual imbalance.......................................... -8.352241E+11 (kg) Fractional imbalance ....................................... -0.5595 Component: Na Cumulative Solute inflow ................................... 2.687055E+10 (kg) Cumulative Solute outflow .................................. 2.640397E+13 (kg) Cumulative Change in solute in region ...................... -4.752031E+13 (kg) Current Solute in region ................................... 8.395117E+11 (kg) Residual imbalance.......................................... -2.114321E+13 (kg) Fractional imbalance ....................................... -0.4449 Component: S Cumulative Solute inflow ................................... 7.181160E+10 (kg) Cumulative Solute outflow .................................. 9.763447E+10 (kg) Cumulative Change in solute in region ...................... -5.610699E+10 (kg) Current Solute in region ................................... 2.887908E+09 (kg) Residual imbalance.......................................... -3.028412E+10 (kg) Fractional imbalance ....................................... -0.3102 Component: Charge Cumulative Solute inflow ................................... 1.918721E-02 (kg) Cumulative Solute outflow .................................. 3.782373E+10 (kg) Cumulative Change in solute in region ...................... 1.059735E+09 (kg) Current Solute in region ................................... 1.059735E+09 (kg) Residual imbalance.......................................... 3.888347E+10 (kg) Fractional imbalance ....................................... 1.0280 Cumulative Summary by Boundary Condition Type Amounts Cumulative specified p cell fluid net inflow ............... -9.492739E+13 (kg) Cumulative flux b.c. fluid net inflow ...................... 9.533025E+15 (kg) Cumulative leakage b.c. fluid net inflow ................... -2.566693E+14 (kg) Cumulative river leakage b.c. fluid net inflow ............. -9.181428E+15 (kg) Cumulative well fluid net inflow ........................... -3.652500E+07 (kg) Component: H Cumulative specified C cell or associated with specified P cell solute net inflow..................... -9.273954E+08 (kg) Cumulative flux b.c. solute net inflow ..................... 5.794205E+10 (kg) Cumulative leakage b.c. solute net inflow .................. -3.111734E+09 (kg) Cumulative river leakage b.c. solute net inflow ............ -8.223015E+10 (kg) Cumulative well solute net inflow .......................... -4.571897E+02 (kg) Component: O Cumulative specified C cell or associated with specified P cell solute net inflow..................... -5.316733E+10 (kg) Cumulative flux b.c. solute net inflow ..................... 3.302088E+12 (kg) Cumulative leakage b.c. solute net inflow .................. -2.264983E+11 (kg) Cumulative river leakage b.c. solute net inflow ............ -4.564021E+12 (kg) Cumulative well solute net inflow .......................... -3.239545E+04 (kg) Component: As Cumulative specified C cell or associated with specified P cell solute net inflow..................... -9.291999E+05 (kg) Cumulative flux b.c. solute net inflow ..................... 0.000000E+00 (kg) Cumulative leakage b.c. solute net inflow .................. -1.606430E+06 (kg) Cumulative river leakage b.c. solute net inflow ............ -2.723006E+08 (kg) Cumulative well solute net inflow .......................... -2.308345E-02 (kg) Component: C Cumulative specified C cell or associated with specified P cell solute net inflow..................... -1.330719E+10 (kg) Cumulative flux b.c. solute net inflow ..................... 8.147018E+11 (kg) Cumulative leakage b.c. solute net inflow .................. -5.900602E+10 (kg) Cumulative river leakage b.c. solute net inflow ............ -1.130334E+12 (kg) Cumulative well solute net inflow .......................... -8.492959E+03 (kg) Component: Ca Cumulative specified C cell or associated with specified P cell solute net inflow..................... -4.764116E+10 (kg) Cumulative flux b.c. solute net inflow ..................... 7.196397E+11 (kg) Cumulative leakage b.c. solute net inflow .................. -8.852940E+11 (kg) Cumulative river leakage b.c. solute net inflow ............ -2.137737E+12 (kg) Cumulative well solute net inflow .......................... -1.038578E+05 (kg) Component: Cl Cumulative specified C cell or associated with specified P cell solute net inflow..................... -7.123677E+11 (kg) Cumulative flux b.c. solute net inflow ..................... 4.516556E+10 (kg) Cumulative leakage b.c. solute net inflow .................. -1.223675E+13 (kg) Cumulative river leakage b.c. solute net inflow ............ -3.142644E+13 (kg) Cumulative well solute net inflow .......................... -1.464664E+06 (kg) Component: Mg Cumulative specified C cell or associated with specified P cell solute net inflow..................... -1.511863E+10 (kg) Cumulative flux b.c. solute net inflow ..................... 3.207187E+11 (kg) Cumulative leakage b.c. solute net inflow .................. -2.344379E+11 (kg) Cumulative river leakage b.c. solute net inflow ............ -7.288041E+11 (kg) Cumulative well solute net inflow .......................... -2.835629E+04 (kg) Component: Na Cumulative specified C cell or associated with specified P cell solute net inflow..................... -4.139335E+11 (kg) Cumulative flux b.c. solute net inflow ..................... 2.687055E+10 (kg) Cumulative leakage b.c. solute net inflow .................. -6.676016E+12 (kg) Cumulative river leakage b.c. solute net inflow ............ -1.931402E+13 (kg) Cumulative well solute net inflow .......................... -8.053299E+05 (kg) Component: S Cumulative specified C cell or associated with specified P cell solute net inflow..................... -1.141287E+09 (kg) Cumulative flux b.c. solute net inflow ..................... 7.181160E+10 (kg) Cumulative leakage b.c. solute net inflow .................. -9.243087E+09 (kg) Cumulative river leakage b.c. solute net inflow ............ -8.725009E+10 (kg) Cumulative well solute net inflow .......................... -1.152293E+03 (kg) Component: Charge Cumulative specified C cell or associated with specified P cell solute net inflow..................... -5.362575E+08 (kg) Cumulative flux b.c. solute net inflow ..................... 1.918721E-02 (kg) Cumulative leakage b.c. solute net inflow .................. -5.061012E+09 (kg) Cumulative river leakage b.c. solute net inflow ............ -3.222646E+10 (kg) Cumulative well solute net inflow .......................... -7.114224E+02 (kg) ***** Simulation Completed ***** Last time value calculated ...................................... 1.0000E+05 (yr) Last time step index ............................................ 50