

                          .                                                                               
                          .                                                                               

                              *** Output at End of Time Step No.     5 ***

     Time .......................................................   1.941E+03  (yr)

                                        *** Global Flow Balance Summary ***
                         Current Time Step                         Rates                  Amounts

 Fluid inflow ...............................................  4.791021E+10  (kg/yr)     4.791021E+10  (kg)
 Fluid outflow ..............................................  4.789545E+10  (kg/yr)     4.789545E+10  (kg)
 Change in fluid in region ..................................  1.475926E+07  (kg/yr)     1.475926E+07  (kg)
 Residual imbalance ......................................... -4.904335E+00  (kg/yr)    -4.904335E+00  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: H         

 Solute inflow ..............................................  8.417517E+02  (kg/yr)     8.417517E+02  (kg)
 Solute outflow .............................................  1.249535E+02  (kg/yr)     1.249535E+02  (kg)
 Change in solute in region from reactions .................. -2.379751E-06  (kg/yr)    -2.379751E-06  (kg)
 Change in solute in region .................................  7.167982E+02  (kg/yr)     7.167982E+02  (kg)
 Residual imbalance ......................................... -5.988476E-07  (kg/yr)    -5.988476E-07  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: O         

 Solute inflow ..............................................  1.927457E+05  (kg/yr)     1.927457E+05  (kg)
 Solute outflow .............................................  1.915897E+05  (kg/yr)     1.915897E+05  (kg)
 Change in solute in region from reactions ..................  2.781823E-01  (kg/yr)     2.781823E-01  (kg)
 Change in solute in region .................................  1.156197E+03  (kg/yr)     1.156197E+03  (kg)
 Residual imbalance ......................................... -3.580491E-04  (kg/yr)    -3.580491E-04  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: N         

 Solute inflow ..............................................  2.328321E+03  (kg/yr)     2.328321E+03  (kg)
 Solute outflow .............................................  1.114396E+01  (kg/yr)     1.114396E+01  (kg)
 Change in solute in region from reactions .................. -6.848726E-06  (kg/yr)    -6.848726E-06  (kg)
 Change in solute in region .................................  2.317177E+03  (kg/yr)     2.317177E+03  (kg)
 Residual imbalance ......................................... -1.989009E-06  (kg/yr)    -1.989009E-06  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: P         

 Solute inflow ..............................................  7.953350E+02  (kg/yr)     7.953350E+02  (kg)
 Solute outflow .............................................  3.806680E+00  (kg/yr)     3.806680E+00  (kg)
 Change in solute in region from reactions .................. -1.621074E-05  (kg/yr)    -1.621074E-05  (kg)
 Change in solute in region .................................  7.915283E+02  (kg/yr)     7.915283E+02  (kg)
 Residual imbalance ......................................... -6.794338E-07  (kg/yr)    -6.794338E-07  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: Charge    

 Solute inflow ..............................................  2.612654E+02  (kg/yr)     2.612654E+02  (kg)
 Solute outflow .............................................  1.220165E+02  (kg/yr)     1.220165E+02  (kg)
 Change in solute in region from reactions ..................  1.716937E-06  (kg/yr)     1.716937E-06  (kg)
 Change in solute in region .................................  1.392489E+02  (kg/yr)     1.392489E+02  (kg)
 Residual imbalance ......................................... -1.030148E-07  (kg/yr)    -1.030148E-07  (kg)
 Fractional imbalance .......................................                              0.0000

               Current Time Step by Boundary Condition Type
                                                                 Amounts

 Step total specified head b.c. fluid net inflow ............ -1.086667E+10  (kg)
 Step total flux b.c. fluid net inflow ......................  4.791021E+10  (kg)
 Step total leakage b.c. fluid net inflow ...................  0.000000E+00  (kg)
 Step total river leakage b.c. fluid net inflow .............  0.000000E+00  (kg)
 Step total drain leakage b.c. fluid net inflow ............. -3.702878E+10  (kg)
 Step total well fluid net inflow ...........................  0.000000E+00  (kg)



          Component: H         

 Step total specified head b.c. solute net inflow............ -2.756775E+01  (kg)
 Step total flux b.c. solute net inflow .....................  8.417517E+02  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -9.738579E+01  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: O         

 Step total specified head b.c. solute net inflow............ -4.346729E+04  (kg)
 Step total flux b.c. solute net inflow .....................  1.927457E+05  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -1.481225E+05  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: N         

 Step total specified head b.c. solute net inflow............ -1.083125E-06  (kg)
 Step total flux b.c. solute net inflow .....................  2.328321E+03  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -1.114396E+01  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: P         

 Step total specified head b.c. solute net inflow............ -2.950437E-07  (kg)
 Step total flux b.c. solute net inflow .....................  7.953350E+02  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -3.806680E+00  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: Charge    

 Step total specified head b.c. solute net inflow............ -2.753158E+01  (kg)
 Step total flux b.c. solute net inflow .....................  2.612654E+02  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -9.448494E+01  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)


               Cumulative Summary
                                                                 Amounts

 Cumulative Fluid inflow ....................................  2.395510E+11  (kg)
 Cumulative Fluid outflow ...................................  2.395997E+11  (kg)
 Cumulative Change in fluid in region .......................  1.535024E+08  (kg)
 Current Fluid in region ....................................  2.457792E+12  (kg)
 Current Fluid volume in region .............................  2.457792E+09  (m ^3)
 Residual imbalance .........................................  2.021644E+08  (kg)
 Fractional imbalance .......................................      0.0008


          Component: H         

 Cumulative solute inflow ...................................  4.208759E+03  (kg)
 Cumulative solute outflow ..................................  6.143935E+02  (kg)
 Cumulative change in solute in region from reactions ....... -1.673635E-05  (kg)
 Cumulative change in solute in region ......................  3.594878E+03  (kg)
 Current solute in region ...................................  9.829685E+03  (kg)
 Residual imbalance..........................................  5.128781E-01  (kg)
 Fractional imbalance .......................................      0.0001


          Component: O         

 Cumulative solute inflow ...................................  9.637283E+05  (kg)
 Cumulative solute outflow ..................................  9.584224E+05  (kg)
 Cumulative change in solute in region from reactions .......  1.449375E+00  (kg)
 Cumulative change in solute in region ......................  6.116100E+03  (kg)
 Current solute in region ...................................  9.836812E+06  (kg)
 Residual imbalance..........................................  8.086682E+02  (kg)
 Fractional imbalance .......................................      0.0008


          Component: N         

 Cumulative solute inflow ...................................  1.164161E+04  (kg)
 Cumulative solute outflow ..................................  2.117733E+01  (kg)
 Cumulative change in solute in region from reactions ....... -3.446365E-05  (kg)
 Cumulative change in solute in region ......................  1.162043E+04  (kg)
 Current solute in region ...................................  1.162043E+04  (kg)
 Residual imbalance..........................................  1.588928E-05  (kg)
 Fractional imbalance .......................................      0.0000


          Component: P         

 Cumulative solute inflow ...................................  3.976675E+03  (kg)
 Cumulative solute outflow ..................................  7.233994E+00  (kg)
 Cumulative change in solute in region from reactions ....... -8.356223E-05  (kg)
 Cumulative change in solute in region ......................  3.969441E+03  (kg)
 Current solute in region ...................................  3.969441E+03  (kg)
 Residual imbalance..........................................  5.427643E-06  (kg)
 Fractional imbalance .......................................      0.0000


          Component: Charge    

 Cumulative solute inflow ...................................  1.306327E+03  (kg)
 Cumulative solute outflow ..................................  6.083176E+02  (kg)
 Cumulative change in solute in region from reactions .......  4.557172E-06  (kg)
 Cumulative change in solute in region ......................  6.985217E+02  (kg)
 Current solute in region ...................................  6.925149E+03  (kg)
 Residual imbalance..........................................  5.122012E-01  (kg)
 Fractional imbalance .......................................      0.0004

               Cumulative Summary by Boundary Condition Type
                                                                 Amounts

 Cumulative specified head b.c. fluid net inflow ............ -5.454579E+10  (kg)
 Cumulative flux b.c. fluid net inflow ......................  2.395510E+11  (kg)
 Cumulative leakage b.c. fluid net inflow ...................  0.000000E+00  (kg)
 Cumulative river leakage b.c. fluid net inflow .............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. fluid net inflow ............. -1.850539E+11  (kg)
 Cumulative well fluid net inflow ...........................  0.000000E+00  (kg)



          Component: H         

 Cumulative specified head b.c. solute net inflow............ -1.383778E+02  (kg)
 Cumulative flux b.c. solute net inflow .....................  4.208759E+03  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -4.760158E+02  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: O         

 Cumulative specified head b.c. solute net inflow............ -2.181863E+05  (kg)
 Cumulative flux b.c. solute net inflow .....................  9.637283E+05  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -7.402361E+05  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: N         

 Cumulative specified head b.c. solute net inflow............ -1.405949E-06  (kg)
 Cumulative flux b.c. solute net inflow .....................  1.164161E+04  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -2.117733E+01  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: P         

 Cumulative specified head b.c. solute net inflow............ -3.883828E-07  (kg)
 Cumulative flux b.c. solute net inflow .....................  3.976675E+03  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -7.233993E+00  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: Charge    

 Cumulative specified head b.c. solute net inflow............ -1.381962E+02  (kg)
 Cumulative flux b.c. solute net inflow .....................  1.306327E+03  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -4.701214E+02  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)


                              *** Output at End of Time Step No.    10 ***

     Time .......................................................   1.946E+03  (yr)

                                        *** Global Flow Balance Summary ***
                         Current Time Step                         Rates                  Amounts

 Fluid inflow ...............................................  4.985699E+10  (kg/yr)     4.985699E+10  (kg)
 Fluid outflow ..............................................  4.951759E+10  (kg/yr)     4.951759E+10  (kg)
 Change in fluid in region ..................................  3.393996E+08  (kg/yr)     3.393996E+08  (kg)
 Residual imbalance ......................................... -3.011180E+02  (kg/yr)    -3.011180E+02  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: H         

 Solute inflow ..............................................  1.122158E+04  (kg/yr)     1.122158E+04  (kg)
 Solute outflow .............................................  1.909227E+02  (kg/yr)     1.909227E+02  (kg)
 Change in solute in region from reactions ..................  1.879642E-06  (kg/yr)     1.879642E-06  (kg)
 Change in solute in region .................................  1.103065E+04  (kg/yr)     1.103065E+04  (kg)
 Residual imbalance .........................................  2.099086E-05  (kg/yr)     2.099086E-05  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: O         

 Solute inflow ..............................................  2.164192E+05  (kg/yr)     2.164192E+05  (kg)
 Solute outflow .............................................  1.981731E+05  (kg/yr)     1.981731E+05  (kg)
 Change in solute in region from reactions ..................  2.199053E-01  (kg/yr)     2.199053E-01  (kg)
 Change in solute in region .................................  1.824639E+04  (kg/yr)     1.824639E+04  (kg)
 Residual imbalance ......................................... -2.359325E-04  (kg/yr)    -2.359325E-04  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: N         

 Solute inflow ..............................................  3.586873E+04  (kg/yr)     3.586873E+04  (kg)
 Solute outflow .............................................  2.111083E+02  (kg/yr)     2.111083E+02  (kg)
 Change in solute in region from reactions ..................  1.225837E-04  (kg/yr)     1.225837E-04  (kg)
 Change in solute in region .................................  3.565763E+04  (kg/yr)     3.565763E+04  (kg)
 Residual imbalance .........................................  6.763354E-05  (kg/yr)     6.763354E-05  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: P         

 Solute inflow ..............................................  1.225246E+04  (kg/yr)     1.225246E+04  (kg)
 Solute outflow .............................................  7.211282E+01  (kg/yr)     7.211282E+01  (kg)
 Change in solute in region from reactions .................. -8.290437E-06  (kg/yr)    -8.290437E-06  (kg)
 Change in solute in region .................................  1.218034E+04  (kg/yr)     1.218034E+04  (kg)
 Residual imbalance .........................................  2.310324E-05  (kg/yr)     2.310324E-05  (kg)
 Fractional imbalance .......................................                              0.0000


          Component: Charge    

 Solute inflow ..............................................  2.281241E+03  (kg/yr)     2.281241E+03  (kg)
 Solute outflow .............................................  1.381398E+02  (kg/yr)     1.381398E+02  (kg)
 Change in solute in region from reactions .................. -4.695936E-06  (kg/yr)    -4.695936E-06  (kg)
 Change in solute in region .................................  2.143101E+03  (kg/yr)     2.143101E+03  (kg)
 Residual imbalance .........................................  4.133349E-06  (kg/yr)     4.133349E-06  (kg)
 Fractional imbalance .......................................                              0.0000

               Current Time Step by Boundary Condition Type
                                                                 Amounts

 Step total specified head b.c. fluid net inflow ............ -1.086812E+10  (kg)
 Step total flux b.c. fluid net inflow ......................  4.985699E+10  (kg)
 Step total leakage b.c. fluid net inflow ...................  0.000000E+00  (kg)
 Step total river leakage b.c. fluid net inflow .............  0.000000E+00  (kg)
 Step total drain leakage b.c. fluid net inflow ............. -3.864947E+10  (kg)
 Step total well fluid net inflow ...........................  0.000000E+00  (kg)



          Component: H         

 Step total specified head b.c. solute net inflow............ -2.757147E+01  (kg)
 Step total flux b.c. solute net inflow .....................  1.122158E+04  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -1.633513E+02  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: O         

 Step total specified head b.c. solute net inflow............ -4.347308E+04  (kg)
 Step total flux b.c. solute net inflow .....................  2.164192E+05  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -1.547000E+05  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: N         

 Step total specified head b.c. solute net inflow............ -1.166338E-04  (kg)
 Step total flux b.c. solute net inflow .....................  3.586873E+04  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -2.111082E+02  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: P         

 Step total specified head b.c. solute net inflow............ -3.932226E-05  (kg)
 Step total flux b.c. solute net inflow .....................  1.225246E+04  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -7.211278E+01  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)



          Component: Charge    

 Step total specified head b.c. solute net inflow............ -2.753526E+01  (kg)
 Step total flux b.c. solute net inflow .....................  2.281241E+03  (kg)
 Step total leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Step total river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Step total drain leakage b.c. solute net inflow ............ -1.106046E+02  (kg)
 Step total well solute net inflow ..........................  0.000000E+00  (kg)


               Cumulative Summary
                                                                 Amounts

 Cumulative Fluid inflow ....................................  4.888360E+11  (kg)
 Cumulative Fluid outflow ...................................  4.852686E+11  (kg)
 Cumulative Change in fluid in region .......................  3.769538E+09  (kg)
 Current Fluid in region ....................................  2.461408E+12  (kg)
 Current Fluid volume in region .............................  2.461408E+09  (m ^3)
 Residual imbalance .........................................  2.021628E+08  (kg)
 Fractional imbalance .......................................      0.0004


          Component: H         

 Cumulative solute inflow ...................................  6.031664E+04  (kg)
 Cumulative solute outflow ..................................  1.390512E+03  (kg)
 Cumulative change in solute in region from reactions ....... -3.344308E-06  (kg)
 Cumulative change in solute in region ......................  5.892664E+04  (kg)
 Current solute in region ...................................  6.516145E+04  (kg)
 Residual imbalance..........................................  5.130433E-01  (kg)
 Fractional imbalance .......................................      0.0000


          Component: O         

 Cumulative solute inflow ...................................  2.045824E+06  (kg)
 Cumulative solute outflow ..................................  1.941346E+06  (kg)
 Cumulative change in solute in region from reactions .......  2.563302E+00  (kg)
 Cumulative change in solute in region ......................  1.052901E+05  (kg)
 Current solute in region ...................................  9.935986E+06  (kg)
 Residual imbalance..........................................  8.086673E+02  (kg)
 Fractional imbalance .......................................      0.0004


          Component: N         

 Cumulative solute inflow ...................................  1.909853E+05  (kg)
 Cumulative solute outflow ..................................  5.154087E+02  (kg)
 Cumulative change in solute in region from reactions .......  2.472688E-04  (kg)
 Cumulative change in solute in region ......................  1.904699E+05  (kg)
 Current solute in region ...................................  1.904699E+05  (kg)
 Residual imbalance..........................................  5.485525E-04  (kg)
 Fractional imbalance .......................................      0.0000


          Component: P         

 Cumulative solute inflow ...................................  6.523896E+04  (kg)
 Cumulative solute outflow ..................................  1.760593E+02  (kg)
 Cumulative change in solute in region from reactions ....... -1.316075E-04  (kg)
 Cumulative change in solute in region ......................  6.506290E+04  (kg)
 Current solute in region ...................................  6.506290E+04  (kg)
 Residual imbalance..........................................  1.873812E-04  (kg)
 Fractional imbalance .......................................      0.0000


          Component: Charge    

 Cumulative solute inflow ...................................  1.271253E+04  (kg)
 Cumulative solute outflow ..................................  1.260432E+03  (kg)
 Cumulative change in solute in region from reactions .......  6.762431E-06  (kg)
 Cumulative change in solute in region ......................  1.145261E+04  (kg)
 Current solute in region ...................................  1.767924E+04  (kg)
 Residual imbalance..........................................  5.122337E-01  (kg)
 Fractional imbalance .......................................      0.0000

               Cumulative Summary by Boundary Condition Type
                                                                 Amounts

 Cumulative specified head b.c. fluid net inflow ............ -1.088836E+11  (kg)
 Cumulative flux b.c. fluid net inflow ......................  4.888360E+11  (kg)
 Cumulative leakage b.c. fluid net inflow ...................  0.000000E+00  (kg)
 Cumulative river leakage b.c. fluid net inflow .............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. fluid net inflow ............. -3.763850E+11  (kg)
 Cumulative well fluid net inflow ...........................  0.000000E+00  (kg)



          Component: H         

 Cumulative specified head b.c. solute net inflow............ -2.762280E+02  (kg)
 Cumulative flux b.c. solute net inflow .....................  6.031664E+04  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -1.114284E+03  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: O         

 Cumulative specified head b.c. solute net inflow............ -4.355406E+05  (kg)
 Cumulative flux b.c. solute net inflow .....................  2.045824E+06  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -1.505805E+06  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: N         

 Cumulative specified head b.c. solute net inflow............ -2.092359E-04  (kg)
 Cumulative flux b.c. solute net inflow .....................  1.909853E+05  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -5.154085E+02  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: P         

 Cumulative specified head b.c. solute net inflow............ -6.922075E-05  (kg)
 Cumulative flux b.c. solute net inflow .....................  6.523896E+04  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -1.760592E+02  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



          Component: Charge    

 Cumulative specified head b.c. solute net inflow............ -2.758655E+02  (kg)
 Cumulative flux b.c. solute net inflow .....................  1.271253E+04  (kg)
 Cumulative leakage b.c. solute net inflow ..................  0.000000E+00  (kg)
 Cumulative river leakage b.c. solute net inflow ............  0.000000E+00  (kg)
 Cumulative drain leakage b.c. solute net inflow ............ -9.845668E+02  (kg)
 Cumulative well solute net inflow ..........................  0.000000E+00  (kg)



                                       ***** Simulation Completed *****
               Last time value calculated ......................................  1946.     (yr)
               Last time step index ............................................      10
