
TURBOSTREAM VERSION 3.6.10

APPLICATION VARIABLES:
                                 cp:               1005.000000
                                 ga:                  1.400000
                                cfl:                  0.400000
                            prandtl:                  0.720000
                          viscosity:                  0.001000
                               sfin:                  0.500000
                             dampin:                 25.000000
                              rfvis:                  0.200000
                              nstep:                     20000
                            nchange:                      1000
                        poisson_cfl:                  0.700000
                      poisson_nstep:                         0
                    poisson_restart:                         2
                            restart:                         1
                               ilos:                         1
                               nlos:                         5
                                dts:                         0
                             ncycle:                         0
                          frequency:                  0.000000
                        nstep_cycle:                         0
                           dts_conv:                  0.000000
                            facsafe:                  0.200000
                        nstep_inner:                         0
                         nstep_save:                         0
                   nstep_save_start:                         0
                              rfmix:                  0.000000
                           facsecin:                  0.005000
                       poisson_sfin:                  0.020000
                 adaptive_smoothing:                         1
                   nstep_save_probe:                         0
             nstep_save_start_probe:                         0
                      viscosity_law:                         0
                           wall_law:                         0
                        write_yplus:                         1
                        write_force:                         0
                             if_ale:                         0
                              ifgas:                         0
                             rg_cp0:               1005.000000
                             rg_cp1:                  0.000000
                             rg_cp2:                  0.000000
                             rg_cp3:                  0.000000
                             rg_cp4:                  0.000000
                             rg_cp5:                  0.000000
                            rg_rgas:                287.149994
                           nspecies:                         1
                          sf_scalar:                  0.050000
                          schmidt_0:                  1.000000
                          schmidt_1:                  1.000000
                              cp0_0:               1005.000000
                              cp1_0:                  0.000000
                              cp2_0:                  0.000000
                              cp3_0:                  0.000000
                              cp4_0:                  0.000000
                              cp5_0:                  0.000000
                             rgas_0:                287.149994
                              cp0_1:               1005.000000
                              cp1_1:                  0.000000
                              cp2_1:                  0.000000
                              cp3_1:                  0.000000
                              cp4_1:                  0.000000
                              cp5_1:                  0.000000
                             rgas_1:                287.149994
                               pref:             100000.000000
                               tref:                300.000000
                          fac_stmix:                  0.000000
                            fac_st0:                  1.000000
                            fac_st1:                  1.000000
                            fac_st2:                  1.000000
                            fac_st3:                  1.000000
                        fac_sa_step:                  1.000000
                        fac_sa_smth:                  4.000000
                      turb_vis_damp:                  1.000000
                           if_no_mg:                         0
                        turbvis_lim:               3000.000000
                        nomatch_int:                         1
                    poisson_nsmooth:                        10
                        write_tdamp:                         0
                         write_egen:                         0
                       viscosity_a1:                  0.000000
                       viscosity_a2:                  0.000000
                       viscosity_a3:                  0.000000
                       viscosity_a4:                  0.000000
                       viscosity_a5:                  0.000000
                         ifsuperfac:                         0
                      poisson_limit:                         0
                          cfl_st_ko:                  0.010000
                          cfl_en_ko:                  0.400000
                            ko_dist:                  0.000100
                         ko_restart:                         0
                            sfin_ko:                  0.050000
                     fac_st0_option:                         0
                 sa_helicity_option:                         0
                             sa_ch1:                  1.000000
                             sa_ch2:                  1.000000
                             precon:                         0
            smooth_scale_dts_option:                         0
         smooth_scale_precon_option:                         0
    smooth_scale_directional_option:                         0
             use_temperature_sensor:                         0


INITIALISING PERIODIC PATCHES AND HALOS

INITIALISING TURBULENCE DAMPING FOR LAMINAR FLOW

STARTING THE MAIN TIME STEPPING LOOP

INITIALISING MULTIGRID

INITIALISING SLIDING PLANES

INITIALISING INTERPOLATING PLANES

UPDATING INTERPOLATING PLANES

INITIALISING NON-MATCHING PATCHES

INLET FLOW =      1.38519 OUTLET FLOW =      1.38519
FLOW RATIO =      1.00000
AVG INLET STAG P =      99999.5 AVG OUTLET STAG P =      99999.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.000
OVERALL POWER OUTPUT = 0.000031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = 0.155152

STEP No.      50
TIME FOR 50 STEPS = 0.891 TIME PER NODE PER STEP = 1.8261E-08
SF = 0.50000 FACSEC = 0.02400 DAMP = 7.18844
BLOCK NO.     0 DAVG 6.6745E-01
TOTAL DAVG 6.6745E-01

INLET FLOW =      1.38360 OUTLET FLOW =      1.38339
FLOW RATIO =      0.99985
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99983.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = 0.047375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.778587

STEP No.     100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.02300 DAMP = 8.12688
BLOCK NO.     0 DAVG 9.5818E-01
TOTAL DAVG 9.5818E-01

INLET FLOW =      1.37912 OUTLET FLOW =      1.38180
FLOW RATIO =      1.00195
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99974.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.015
OVERALL POWER OUTPUT = -0.829313 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.645877

STEP No.     150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3764E-09
SF = 0.50000 FACSEC = 0.02200 DAMP = 9.06532
BLOCK NO.     0 DAVG 9.8116E-01
TOTAL DAVG 9.8116E-01

INLET FLOW =      1.37419 OUTLET FLOW =      1.37932
FLOW RATIO =      1.00373
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99959.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.026
OVERALL POWER OUTPUT = -1.579813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.702844

STEP No.     200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3701E-09
SF = 0.50000 FACSEC = 0.02100 DAMP = 10.00375
BLOCK NO.     0 DAVG 9.7777E-01
TOTAL DAVG 9.7777E-01

INLET FLOW =      1.36988 OUTLET FLOW =      1.37691
FLOW RATIO =      1.00513
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99946.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.038
OVERALL POWER OUTPUT = -2.170688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.790923

STEP No.     250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3749E-09
SF = 0.50000 FACSEC = 0.01999 DAMP = 10.94219
BLOCK NO.     0 DAVG 9.6146E-01
TOTAL DAVG 9.6146E-01

INLET FLOW =      1.36580 OUTLET FLOW =      1.37421
FLOW RATIO =      1.00616
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99934.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.052
OVERALL POWER OUTPUT = -2.606906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.901083

STEP No.     300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.01899 DAMP = 11.88063
BLOCK NO.     0 DAVG 9.5153E-01
TOTAL DAVG 9.5153E-01

INLET FLOW =      1.36171 OUTLET FLOW =      1.37148
FLOW RATIO =      1.00718
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99923.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.055
OVERALL POWER OUTPUT = -3.022187 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.838996

STEP No.     350
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3820E-09
SF = 0.50000 FACSEC = 0.01799 DAMP = 12.81907
BLOCK NO.     0 DAVG 9.2859E-01
TOTAL DAVG 9.2859E-01

INLET FLOW =      1.35758 OUTLET FLOW =      1.36861
FLOW RATIO =      1.00812
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      99910.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.064
OVERALL POWER OUTPUT = -3.411531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.813487

STEP No.     400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3755E-09
SF = 0.50000 FACSEC = 0.01699 DAMP = 13.75751
BLOCK NO.     0 DAVG 8.9044E-01
TOTAL DAVG 8.9044E-01

INLET FLOW =      1.35371 OUTLET FLOW =      1.36527
FLOW RATIO =      1.00855
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99895.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.066
OVERALL POWER OUTPUT = -3.578250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.738543

STEP No.     450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3717E-09
SF = 0.50000 FACSEC = 0.01599 DAMP = 14.69595
BLOCK NO.     0 DAVG 8.6174E-01
TOTAL DAVG 8.6174E-01

INLET FLOW =      1.34978 OUTLET FLOW =      1.36145
FLOW RATIO =      1.00865
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99876.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.068
OVERALL POWER OUTPUT = -3.611438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.635844

STEP No.     500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3761E-09
SF = 0.50000 FACSEC = 0.01499 DAMP = 15.63439
BLOCK NO.     0 DAVG 8.3922E-01
TOTAL DAVG 8.3922E-01

INLET FLOW =      1.34601 OUTLET FLOW =      1.35696
FLOW RATIO =      1.00813
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99851.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.064
OVERALL POWER OUTPUT = -3.385156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.493971

STEP No.     550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3680E-09
SF = 0.50000 FACSEC = 0.01399 DAMP = 16.57282
BLOCK NO.     0 DAVG 8.0987E-01
TOTAL DAVG 8.0987E-01

INLET FLOW =      1.34223 OUTLET FLOW =      1.35220
FLOW RATIO =      1.00743
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      99822.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.059
OVERALL POWER OUTPUT = -3.083281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.375806

STEP No.     600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3746E-09
SF = 0.50000 FACSEC = 0.01299 DAMP = 17.51126
BLOCK NO.     0 DAVG 7.7840E-01
TOTAL DAVG 7.7840E-01

INLET FLOW =      1.33859 OUTLET FLOW =      1.34752
FLOW RATIO =      1.00668
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99795.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.052
OVERALL POWER OUTPUT = -2.763969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.293700

STEP No.     650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3723E-09
SF = 0.50000 FACSEC = 0.01199 DAMP = 18.44970
BLOCK NO.     0 DAVG 7.4816E-01
TOTAL DAVG 7.4816E-01

INLET FLOW =      1.33510 OUTLET FLOW =      1.34367
FLOW RATIO =      1.00642
AVG INLET STAG P =     100000.6 AVG OUTLET STAG P =      99776.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.052
OVERALL POWER OUTPUT = -2.653437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.267028

STEP No.     700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3716E-09
SF = 0.50000 FACSEC = 0.01099 DAMP = 19.38814
BLOCK NO.     0 DAVG 7.2170E-01
TOTAL DAVG 7.2170E-01

INLET FLOW =      1.33184 OUTLET FLOW =      1.34000
FLOW RATIO =      1.00613
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99757.3
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.053
OVERALL POWER OUTPUT = -2.532875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.258156

STEP No.     750
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3818E-09
SF = 0.50000 FACSEC = 0.00998 DAMP = 20.32658
BLOCK NO.     0 DAVG 6.9912E-01
TOTAL DAVG 6.9912E-01

INLET FLOW =      1.32873 OUTLET FLOW =      1.33640
FLOW RATIO =      1.00578
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99739.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.054
OVERALL POWER OUTPUT = -2.386687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.241240

STEP No.     800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3673E-09
SF = 0.50000 FACSEC = 0.00898 DAMP = 21.26501
BLOCK NO.     0 DAVG 6.7318E-01
TOTAL DAVG 6.7318E-01

INLET FLOW =      1.32605 OUTLET FLOW =      1.33250
FLOW RATIO =      1.00486
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99718.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.054
OVERALL POWER OUTPUT = -2.014625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.220072

STEP No.     850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3728E-09
SF = 0.50000 FACSEC = 0.00798 DAMP = 22.20345
BLOCK NO.     0 DAVG 6.4375E-01
TOTAL DAVG 6.4375E-01

INLET FLOW =      1.32386 OUTLET FLOW =      1.32873
FLOW RATIO =      1.00368
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99698.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.055
OVERALL POWER OUTPUT = -1.544062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.215531

STEP No.     900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3713E-09
SF = 0.50000 FACSEC = 0.00698 DAMP = 23.14189
BLOCK NO.     0 DAVG 6.1733E-01
TOTAL DAVG 6.1733E-01

INLET FLOW =      1.32192 OUTLET FLOW =      1.32512
FLOW RATIO =      1.00242
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99679.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.055
OVERALL POWER OUTPUT = -1.038875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.201984

STEP No.     950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3680E-09
SF = 0.50000 FACSEC = 0.00598 DAMP = 24.08033
BLOCK NO.     0 DAVG 5.9648E-01
TOTAL DAVG 5.9648E-01

INLET FLOW =      1.32020 OUTLET FLOW =      1.32184
FLOW RATIO =      1.00124
AVG INLET STAG P =     100000.6 AVG OUTLET STAG P =      99663.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.058
OVERALL POWER OUTPUT = -0.570469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.199102

STEP No.    1000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3738E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.7617E-01
TOTAL DAVG 5.7617E-01

INLET FLOW =      1.31871 OUTLET FLOW =      1.31838
FLOW RATIO =      0.99975
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99645.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.060
OVERALL POWER OUTPUT = 0.019719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.199138

STEP No.    1050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3717E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.5366E-01
TOTAL DAVG 5.5366E-01

INLET FLOW =      1.31711 OUTLET FLOW =      1.31496
FLOW RATIO =      0.99836
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99627.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.064
OVERALL POWER OUTPUT = 0.565375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.199998

STEP No.    1100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3668E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.3141E-01
TOTAL DAVG 5.3141E-01

INLET FLOW =      1.31519 OUTLET FLOW =      1.31195
FLOW RATIO =      0.99754
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99612.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.070
OVERALL POWER OUTPUT = 0.885406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.207714

STEP No.    1150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3683E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.1159E-01
TOTAL DAVG 5.1159E-01

INLET FLOW =      1.31275 OUTLET FLOW =      1.30922
FLOW RATIO =      0.99731
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99600.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.079
OVERALL POWER OUTPUT = 0.959844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.234048

STEP No.    1200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3741E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.9510E-01
TOTAL DAVG 4.9510E-01

INLET FLOW =      1.30976 OUTLET FLOW =      1.30657
FLOW RATIO =      0.99756
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99588.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.086
OVERALL POWER OUTPUT = 0.850531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.243946

STEP No.    1250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3757E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.8137E-01
TOTAL DAVG 4.8137E-01

INLET FLOW =      1.30647 OUTLET FLOW =      1.30429
FLOW RATIO =      0.99833
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99580.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.098
OVERALL POWER OUTPUT = 0.526375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.274525

STEP No.    1300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3811E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.6707E-01
TOTAL DAVG 4.6707E-01

INLET FLOW =      1.30316 OUTLET FLOW =      1.30223
FLOW RATIO =      0.99928
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99573.5
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.111
OVERALL POWER OUTPUT = 0.135906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.304915

STEP No.    1350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3631E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.5433E-01
TOTAL DAVG 4.5433E-01

INLET FLOW =      1.29996 OUTLET FLOW =      1.30014
FLOW RATIO =      1.00014
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99566.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.124
OVERALL POWER OUTPUT = -0.218688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.334081

STEP No.    1400
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3852E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.4221E-01
TOTAL DAVG 4.4221E-01

INLET FLOW =      1.29692 OUTLET FLOW =      1.29804
FLOW RATIO =      1.00086
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99559.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.136
OVERALL POWER OUTPUT = -0.514312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.357948

STEP No.    1450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3801E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2815E-01
TOTAL DAVG 4.2815E-01

INLET FLOW =      1.29410 OUTLET FLOW =      1.29575
FLOW RATIO =      1.00128
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99549.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.146
OVERALL POWER OUTPUT = -0.689656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.377557

STEP No.    1500
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3856E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.1376E-01
TOTAL DAVG 4.1376E-01

INLET FLOW =      1.29139 OUTLET FLOW =      1.29316
FLOW RATIO =      1.00137
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99537.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.156
OVERALL POWER OUTPUT = -0.733469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.391168

STEP No.    1550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3702E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.0059E-01
TOTAL DAVG 4.0059E-01

INLET FLOW =      1.28873 OUTLET FLOW =      1.29029
FLOW RATIO =      1.00121
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99522.4
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.163
OVERALL POWER OUTPUT = -0.685219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.401089

STEP No.    1600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3679E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.8730E-01
TOTAL DAVG 3.8730E-01

INLET FLOW =      1.28608 OUTLET FLOW =      1.28717
FLOW RATIO =      1.00085
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99504.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.169
OVERALL POWER OUTPUT = -0.547094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.398500

STEP No.    1650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7371E-01
TOTAL DAVG 3.7371E-01

INLET FLOW =      1.28349 OUTLET FLOW =      1.28400
FLOW RATIO =      1.00040
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99486.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.174
OVERALL POWER OUTPUT = -0.377063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.393350

STEP No.    1700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3810E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.6113E-01
TOTAL DAVG 3.6113E-01

INLET FLOW =      1.28092 OUTLET FLOW =      1.28097
FLOW RATIO =      1.00004
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      99469.3
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.179
OVERALL POWER OUTPUT = -0.247406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.395445

STEP No.    1750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3703E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4978E-01
TOTAL DAVG 3.4978E-01

INLET FLOW =      1.27838 OUTLET FLOW =      1.27812
FLOW RATIO =      0.99980
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99453.2
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.186
OVERALL POWER OUTPUT = -0.161812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.398241

STEP No.    1800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3748E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.3915E-01
TOTAL DAVG 3.3915E-01

INLET FLOW =      1.27591 OUTLET FLOW =      1.27538
FLOW RATIO =      0.99958
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99439.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.195
OVERALL POWER OUTPUT = -0.087063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.404028

STEP No.    1850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3766E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2913E-01
TOTAL DAVG 3.2913E-01

INLET FLOW =      1.27358 OUTLET FLOW =      1.27276
FLOW RATIO =      0.99935
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99424.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.202
OVERALL POWER OUTPUT = -0.009125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.407799

STEP No.    1900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3653E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1929E-01
TOTAL DAVG 3.1929E-01

INLET FLOW =      1.27141 OUTLET FLOW =      1.27019
FLOW RATIO =      0.99904
AVG INLET STAG P =     100000.5 AVG OUTLET STAG P =      99411.9
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.211
OVERALL POWER OUTPUT = 0.098906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.418895

STEP No.    1950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3724E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0935E-01
TOTAL DAVG 3.0935E-01

INLET FLOW =      1.26942 OUTLET FLOW =      1.26764
FLOW RATIO =      0.99860
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99398.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.221
OVERALL POWER OUTPUT = 0.254625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.427375

STEP No.    2000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3759E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9949E-01
TOTAL DAVG 2.9949E-01

INLET FLOW =      1.26754 OUTLET FLOW =      1.26513
FLOW RATIO =      0.99810
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99385.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.229
OVERALL POWER OUTPUT = 0.434625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.433094

STEP No.    2050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3688E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8964E-01
TOTAL DAVG 2.8964E-01

INLET FLOW =      1.26570 OUTLET FLOW =      1.26266
FLOW RATIO =      0.99759
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99372.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.239
OVERALL POWER OUTPUT = 0.613938 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.444561

STEP No.    2100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3751E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8018E-01
TOTAL DAVG 2.8018E-01

INLET FLOW =      1.26383 OUTLET FLOW =      1.26024
FLOW RATIO =      0.99716
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99359.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.248
OVERALL POWER OUTPUT = 0.771000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.449221

STEP No.    2150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3809E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.7169E-01
TOTAL DAVG 2.7169E-01

INLET FLOW =      1.26189 OUTLET FLOW =      1.25790
FLOW RATIO =      0.99683
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99347.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.257
OVERALL POWER OUTPUT = 0.879812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.458237

STEP No.    2200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3693E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6376E-01
TOTAL DAVG 2.6376E-01

INLET FLOW =      1.25989 OUTLET FLOW =      1.25566
FLOW RATIO =      0.99664
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99336.0
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.265
OVERALL POWER OUTPUT = 0.938937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.467751

STEP No.    2250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3713E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5635E-01
TOTAL DAVG 2.5635E-01

INLET FLOW =      1.25778 OUTLET FLOW =      1.25352
FLOW RATIO =      0.99662
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99325.2
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.275
OVERALL POWER OUTPUT = 0.935562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.475596

STEP No.    2300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5013E-01
TOTAL DAVG 2.5013E-01

INLET FLOW =      1.25553 OUTLET FLOW =      1.25154
FLOW RATIO =      0.99682
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99315.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.285
OVERALL POWER OUTPUT = 0.845562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.483779

STEP No.    2350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3783E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4492E-01
TOTAL DAVG 2.4492E-01

INLET FLOW =      1.25316 OUTLET FLOW =      1.24966
FLOW RATIO =      0.99721
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99306.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.295
OVERALL POWER OUTPUT = 0.683187 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.495994

STEP No.    2400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3997E-01
TOTAL DAVG 2.3997E-01

INLET FLOW =      1.25073 OUTLET FLOW =      1.24783
FLOW RATIO =      0.99768
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      99298.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.305
OVERALL POWER OUTPUT = 0.491938 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.504474

STEP No.    2450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3744E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3511E-01
TOTAL DAVG 2.3511E-01

INLET FLOW =      1.24836 OUTLET FLOW =      1.24601
FLOW RATIO =      0.99812
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99289.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.314
OVERALL POWER OUTPUT = 0.315594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.514889

STEP No.    2500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3735E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3016E-01
TOTAL DAVG 2.3016E-01

INLET FLOW =      1.24613 OUTLET FLOW =      1.24417
FLOW RATIO =      0.99843
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99280.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.322
OVERALL POWER OUTPUT = 0.188281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.520231

STEP No.    2550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3732E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2482E-01
TOTAL DAVG 2.2482E-01

INLET FLOW =      1.24406 OUTLET FLOW =      1.24230
FLOW RATIO =      0.99858
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99270.4
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.329
OVERALL POWER OUTPUT = 0.123063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.523207

STEP No.    2600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3710E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1915E-01
TOTAL DAVG 2.1915E-01

INLET FLOW =      1.24211 OUTLET FLOW =      1.24037
FLOW RATIO =      0.99860
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99259.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.335
OVERALL POWER OUTPUT = 0.107063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.526585

STEP No.    2650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3748E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1322E-01
TOTAL DAVG 2.1322E-01

INLET FLOW =      1.24022 OUTLET FLOW =      1.23841
FLOW RATIO =      0.99854
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99248.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.340
OVERALL POWER OUTPUT = 0.121813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.526037

STEP No.    2700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3650E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0710E-01
TOTAL DAVG 2.0710E-01

INLET FLOW =      1.23834 OUTLET FLOW =      1.23640
FLOW RATIO =      0.99843
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99236.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.343
OVERALL POWER OUTPUT = 0.160625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.521389

STEP No.    2750
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3879E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0095E-01
TOTAL DAVG 2.0095E-01

INLET FLOW =      1.23647 OUTLET FLOW =      1.23437
FLOW RATIO =      0.99830
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99224.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.346
OVERALL POWER OUTPUT = 0.202187 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.521396

STEP No.    2800
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3832E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9484E-01
TOTAL DAVG 1.9484E-01

INLET FLOW =      1.23461 OUTLET FLOW =      1.23239
FLOW RATIO =      0.99820
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99212.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.348
OVERALL POWER OUTPUT = 0.238781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.515712

STEP No.    2850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3703E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8898E-01
TOTAL DAVG 1.8898E-01

INLET FLOW =      1.23279 OUTLET FLOW =      1.23051
FLOW RATIO =      0.99815
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99200.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.348
OVERALL POWER OUTPUT = 0.258062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.506229

STEP No.    2900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3684E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8363E-01
TOTAL DAVG 1.8363E-01

INLET FLOW =      1.23103 OUTLET FLOW =      1.22874
FLOW RATIO =      0.99814
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99190.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.352
OVERALL POWER OUTPUT = 0.255969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.504807

STEP No.    2950
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3827E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7868E-01
TOTAL DAVG 1.7868E-01

INLET FLOW =      1.22937 OUTLET FLOW =      1.22709
FLOW RATIO =      0.99814
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99180.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.355
OVERALL POWER OUTPUT = 0.250781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.504382

STEP No.    3000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7383E-01
TOTAL DAVG 1.7383E-01

INLET FLOW =      1.22780 OUTLET FLOW =      1.22549
FLOW RATIO =      0.99812
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99171.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.355
OVERALL POWER OUTPUT = 0.260344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.496815

STEP No.    3050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3739E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6901E-01
TOTAL DAVG 1.6901E-01

INLET FLOW =      1.22631 OUTLET FLOW =      1.22391
FLOW RATIO =      0.99804
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99161.9
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.357
OVERALL POWER OUTPUT = 0.283781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.496076

STEP No.    3100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3684E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6420E-01
TOTAL DAVG 1.6420E-01

INLET FLOW =      1.22488 OUTLET FLOW =      1.22236
FLOW RATIO =      0.99794
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99152.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.358
OVERALL POWER OUTPUT = 0.320344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.491304

STEP No.    3150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3686E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5937E-01
TOTAL DAVG 1.5937E-01

INLET FLOW =      1.22348 OUTLET FLOW =      1.22083
FLOW RATIO =      0.99783
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99143.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.358
OVERALL POWER OUTPUT = 0.361094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.486424

STEP No.    3200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3754E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5465E-01
TOTAL DAVG 1.5465E-01

INLET FLOW =      1.22210 OUTLET FLOW =      1.21933
FLOW RATIO =      0.99773
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99133.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.358
OVERALL POWER OUTPUT = 0.396125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.480665

STEP No.    3250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3681E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5017E-01
TOTAL DAVG 1.5017E-01

INLET FLOW =      1.22071 OUTLET FLOW =      1.21790
FLOW RATIO =      0.99770
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99123.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.356
OVERALL POWER OUTPUT = 0.410844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.471441

STEP No.    3300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3656E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4603E-01
TOTAL DAVG 1.4603E-01

INLET FLOW =      1.21929 OUTLET FLOW =      1.21652
FLOW RATIO =      0.99773
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99116.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.355
OVERALL POWER OUTPUT = 0.401406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.466855

STEP No.    3350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3676E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4226E-01
TOTAL DAVG 1.4226E-01

INLET FLOW =      1.21786 OUTLET FLOW =      1.21522
FLOW RATIO =      0.99783
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99108.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.356
OVERALL POWER OUTPUT = 0.361219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.464941

STEP No.    3400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3673E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3885E-01
TOTAL DAVG 1.3885E-01

INLET FLOW =      1.21640 OUTLET FLOW =      1.21398
FLOW RATIO =      0.99800
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99100.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.354
OVERALL POWER OUTPUT = 0.300625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.456791

STEP No.    3450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3572E-01
TOTAL DAVG 1.3572E-01

INLET FLOW =      1.21496 OUTLET FLOW =      1.21278
FLOW RATIO =      0.99821
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99093.5
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.353
OVERALL POWER OUTPUT = 0.226500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.453061

STEP No.    3500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3274E-01
TOTAL DAVG 1.3274E-01

INLET FLOW =      1.21354 OUTLET FLOW =      1.21161
FLOW RATIO =      0.99841
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      99086.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.353
OVERALL POWER OUTPUT = 0.154344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.447802

STEP No.    3550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3638E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2980E-01
TOTAL DAVG 1.2980E-01

INLET FLOW =      1.21218 OUTLET FLOW =      1.21046
FLOW RATIO =      0.99858
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99079.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.352
OVERALL POWER OUTPUT = 0.093250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.443275

STEP No.    3600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3719E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2677E-01
TOTAL DAVG 1.2677E-01

INLET FLOW =      1.21089 OUTLET FLOW =      1.20931
FLOW RATIO =      0.99869
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      99072.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.350
OVERALL POWER OUTPUT = 0.052031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.438541

STEP No.    3650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2360E-01
TOTAL DAVG 1.2360E-01

INLET FLOW =      1.20967 OUTLET FLOW =      1.20817
FLOW RATIO =      0.99876
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99065.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.347
OVERALL POWER OUTPUT = 0.033031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.430633

STEP No.    3700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3698E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2032E-01
TOTAL DAVG 1.2032E-01

INLET FLOW =      1.20851 OUTLET FLOW =      1.20701
FLOW RATIO =      0.99876
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      99057.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.344
OVERALL POWER OUTPUT = 0.033281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.424879

STEP No.    3750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3657E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1693E-01
TOTAL DAVG 1.1693E-01

INLET FLOW =      1.20740 OUTLET FLOW =      1.20586
FLOW RATIO =      0.99872
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99049.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.342
OVERALL POWER OUTPUT = 0.052531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.416312

STEP No.    3800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1349E-01
TOTAL DAVG 1.1349E-01

INLET FLOW =      1.20632 OUTLET FLOW =      1.20472
FLOW RATIO =      0.99867
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99042.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.335
OVERALL POWER OUTPUT = 0.076063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.407116

STEP No.    3850
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3835E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1012E-01
TOTAL DAVG 1.1012E-01

INLET FLOW =      1.20525 OUTLET FLOW =      1.20361
FLOW RATIO =      0.99864
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99034.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.332
OVERALL POWER OUTPUT = 0.093375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.399899

STEP No.    3900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3738E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0691E-01
TOTAL DAVG 1.0691E-01

INLET FLOW =      1.20419 OUTLET FLOW =      1.20253
FLOW RATIO =      0.99862
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99027.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.329
OVERALL POWER OUTPUT = 0.105469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.392531

STEP No.    3950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3779E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0388E-01
TOTAL DAVG 1.0388E-01

INLET FLOW =      1.20315 OUTLET FLOW =      1.20150
FLOW RATIO =      0.99862
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99021.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.325
OVERALL POWER OUTPUT = 0.106563 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.386787

STEP No.    4000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3698E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0100E-01
TOTAL DAVG 1.0100E-01

INLET FLOW =      1.20216 OUTLET FLOW =      1.20052
FLOW RATIO =      0.99864
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      99015.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.322
OVERALL POWER OUTPUT = 0.104375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.380079

STEP No.    4050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3777E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.8261E-02
TOTAL DAVG 9.8261E-02

INLET FLOW =      1.20121 OUTLET FLOW =      1.19959
FLOW RATIO =      0.99865
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      99009.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.319
OVERALL POWER OUTPUT = 0.104250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.373717

STEP No.    4100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3759E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.5598E-02
TOTAL DAVG 9.5598E-02

INLET FLOW =      1.20030 OUTLET FLOW =      1.19870
FLOW RATIO =      0.99866
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      99003.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.314
OVERALL POWER OUTPUT = 0.107469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.365269

STEP No.    4150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3707E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.2996E-02
TOTAL DAVG 9.2996E-02

INLET FLOW =      1.19945 OUTLET FLOW =      1.19783
FLOW RATIO =      0.99865
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98997.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.311
OVERALL POWER OUTPUT = 0.113406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.360859

STEP No.    4200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3713E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.0431E-02
TOTAL DAVG 9.0431E-02

INLET FLOW =      1.19861 OUTLET FLOW =      1.19698
FLOW RATIO =      0.99864
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98992.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.308
OVERALL POWER OUTPUT = 0.122063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.354125

STEP No.    4250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3744E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.7917E-02
TOTAL DAVG 8.7917E-02

INLET FLOW =      1.19779 OUTLET FLOW =      1.19614
FLOW RATIO =      0.99862
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98986.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.304
OVERALL POWER OUTPUT = 0.130188 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.349814

STEP No.    4300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3787E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.5469E-02
TOTAL DAVG 8.5469E-02

INLET FLOW =      1.19697 OUTLET FLOW =      1.19533
FLOW RATIO =      0.99863
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98980.9
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.298
OVERALL POWER OUTPUT = 0.136094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.341976

STEP No.    4350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3658E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.3118E-02
TOTAL DAVG 8.3118E-02

INLET FLOW =      1.19615 OUTLET FLOW =      1.19453
FLOW RATIO =      0.99864
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98976.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.295
OVERALL POWER OUTPUT = 0.136750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.335171

STEP No.    4400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3648E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.0903E-02
TOTAL DAVG 8.0903E-02

INLET FLOW =      1.19534 OUTLET FLOW =      1.19376
FLOW RATIO =      0.99868
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98971.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.292
OVERALL POWER OUTPUT = 0.125125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.329986

STEP No.    4450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3677E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.8852E-02
TOTAL DAVG 7.8852E-02

INLET FLOW =      1.19453 OUTLET FLOW =      1.19304
FLOW RATIO =      0.99875
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98966.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.287
OVERALL POWER OUTPUT = 0.107000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.321271

STEP No.    4500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3672E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.6946E-02
TOTAL DAVG 7.6946E-02

INLET FLOW =      1.19374 OUTLET FLOW =      1.19234
FLOW RATIO =      0.99883
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98962.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.284
OVERALL POWER OUTPUT = 0.079906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.318259

STEP No.    4550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3772E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.5128E-02
TOTAL DAVG 7.5128E-02

INLET FLOW =      1.19296 OUTLET FLOW =      1.19167
FLOW RATIO =      0.99892
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98957.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.279
OVERALL POWER OUTPUT = 0.053844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.311712

STEP No.    4600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3793E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.3351E-02
TOTAL DAVG 7.3351E-02

INLET FLOW =      1.19221 OUTLET FLOW =      1.19101
FLOW RATIO =      0.99899
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98953.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.276
OVERALL POWER OUTPUT = 0.031375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.306327

STEP No.    4650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3784E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.1566E-02
TOTAL DAVG 7.1566E-02

INLET FLOW =      1.19148 OUTLET FLOW =      1.19035
FLOW RATIO =      0.99905
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98949.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.273
OVERALL POWER OUTPUT = 0.016438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.301619

STEP No.    4700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3767E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.9751E-02
TOTAL DAVG 6.9751E-02

INLET FLOW =      1.19079 OUTLET FLOW =      1.18970
FLOW RATIO =      0.99909
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98945.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.268
OVERALL POWER OUTPUT = 0.009000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.293653

STEP No.    4750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3711E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.7894E-02
TOTAL DAVG 6.7894E-02

INLET FLOW =      1.19013 OUTLET FLOW =      1.18905
FLOW RATIO =      0.99909
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98941.1
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.264
OVERALL POWER OUTPUT = 0.009000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.290474

STEP No.    4800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3708E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.6025E-02
TOTAL DAVG 6.6025E-02

INLET FLOW =      1.18950 OUTLET FLOW =      1.18841
FLOW RATIO =      0.99909
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98937.0
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.261
OVERALL POWER OUTPUT = 0.014063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.286737

STEP No.    4850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3720E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.4168E-02
TOTAL DAVG 6.4168E-02

INLET FLOW =      1.18888 OUTLET FLOW =      1.18779
FLOW RATIO =      0.99908
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98932.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.256
OVERALL POWER OUTPUT = 0.022844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.278651

STEP No.    4900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3694E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.2337E-02
TOTAL DAVG 6.2337E-02

INLET FLOW =      1.18828 OUTLET FLOW =      1.18718
FLOW RATIO =      0.99907
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98929.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.251
OVERALL POWER OUTPUT = 0.031906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.272765

STEP No.    4950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3682E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.0566E-02
TOTAL DAVG 6.0566E-02

INLET FLOW =      1.18769 OUTLET FLOW =      1.18658
FLOW RATIO =      0.99907
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98925.1
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.248
OVERALL POWER OUTPUT = 0.036250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.268774

STEP No.    5000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3728E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.8868E-02
TOTAL DAVG 5.8868E-02

INLET FLOW =      1.18711 OUTLET FLOW =      1.18601
FLOW RATIO =      0.99908
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98920.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.243
OVERALL POWER OUTPUT = 0.039062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.262170

STEP No.    5050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3695E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.7250E-02
TOTAL DAVG 5.7250E-02

INLET FLOW =      1.18654 OUTLET FLOW =      1.18547
FLOW RATIO =      0.99909
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98917.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.239
OVERALL POWER OUTPUT = 0.040250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.255974

STEP No.    5100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3686E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.5708E-02
TOTAL DAVG 5.5708E-02

INLET FLOW =      1.18600 OUTLET FLOW =      1.18494
FLOW RATIO =      0.99911
AVG INLET STAG P =      99999.6 AVG OUTLET STAG P =      98914.2
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.236
OVERALL POWER OUTPUT = 0.037875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.253094

STEP No.    5150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.4224E-02
TOTAL DAVG 5.4224E-02

INLET FLOW =      1.18547 OUTLET FLOW =      1.18444
FLOW RATIO =      0.99913
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98910.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.231
OVERALL POWER OUTPUT = 0.037969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.245744

STEP No.    5200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3728E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.2778E-02
TOTAL DAVG 5.2778E-02

INLET FLOW =      1.18496 OUTLET FLOW =      1.18395
FLOW RATIO =      0.99914
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98907.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.228
OVERALL POWER OUTPUT = 0.035906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.242200

STEP No.    5250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3681E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.1368E-02
TOTAL DAVG 5.1368E-02

INLET FLOW =      1.18448 OUTLET FLOW =      1.18347
FLOW RATIO =      0.99915
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98905.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.225
OVERALL POWER OUTPUT = 0.036875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.238370

STEP No.    5300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3702E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.9986E-02
TOTAL DAVG 4.9986E-02

INLET FLOW =      1.18399 OUTLET FLOW =      1.18300
FLOW RATIO =      0.99916
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98901.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.220
OVERALL POWER OUTPUT = 0.037812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.232729

STEP No.    5350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3771E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.8639E-02
TOTAL DAVG 4.8639E-02

INLET FLOW =      1.18352 OUTLET FLOW =      1.18254
FLOW RATIO =      0.99918
AVG INLET STAG P =     100000.6 AVG OUTLET STAG P =      98898.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.216
OVERALL POWER OUTPUT = 0.038281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.227162

STEP No.    5400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3722E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.7338E-02
TOTAL DAVG 4.7338E-02

INLET FLOW =      1.18306 OUTLET FLOW =      1.18210
FLOW RATIO =      0.99919
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98895.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.212
OVERALL POWER OUTPUT = 0.035125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.224971

STEP No.    5450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.6090E-02
TOTAL DAVG 4.6090E-02

INLET FLOW =      1.18259 OUTLET FLOW =      1.18167
FLOW RATIO =      0.99922
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98893.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.208
OVERALL POWER OUTPUT = 0.032656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.216788

STEP No.    5500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.4900E-02
TOTAL DAVG 4.4900E-02

INLET FLOW =      1.18214 OUTLET FLOW =      1.18125
FLOW RATIO =      0.99925
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98890.4
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.205
OVERALL POWER OUTPUT = 0.024688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.215648

STEP No.    5550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3658E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.3761E-02
TOTAL DAVG 4.3761E-02

INLET FLOW =      1.18170 OUTLET FLOW =      1.18085
FLOW RATIO =      0.99928
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98887.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.201
OVERALL POWER OUTPUT = 0.016875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.210312

STEP No.    5600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3785E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2668E-02
TOTAL DAVG 4.2668E-02

INLET FLOW =      1.18127 OUTLET FLOW =      1.18046
FLOW RATIO =      0.99932
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98885.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.197
OVERALL POWER OUTPUT = 0.008531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.205651

STEP No.    5650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3689E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.1601E-02
TOTAL DAVG 4.1601E-02

INLET FLOW =      1.18085 OUTLET FLOW =      1.18008
FLOW RATIO =      0.99935
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98883.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.195
OVERALL POWER OUTPUT = 0.001219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.201500

STEP No.    5700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3712E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.0548E-02
TOTAL DAVG 4.0548E-02

INLET FLOW =      1.18044 OUTLET FLOW =      1.17971
FLOW RATIO =      0.99938
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98880.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.189
OVERALL POWER OUTPUT = -0.003000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.195490

STEP No.    5750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3811E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.9498E-02
TOTAL DAVG 3.9498E-02

INLET FLOW =      1.18005 OUTLET FLOW =      1.17934
FLOW RATIO =      0.99940
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98877.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.187
OVERALL POWER OUTPUT = -0.007094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.193267

STEP No.    5800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3666E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.8449E-02
TOTAL DAVG 3.8449E-02

INLET FLOW =      1.17967 OUTLET FLOW =      1.17897
FLOW RATIO =      0.99941
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98875.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.184
OVERALL POWER OUTPUT = -0.007875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.189952

STEP No.    5850
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3828E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7405E-02
TOTAL DAVG 3.7405E-02

INLET FLOW =      1.17931 OUTLET FLOW =      1.17862
FLOW RATIO =      0.99942
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98873.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.182
OVERALL POWER OUTPUT = -0.008250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.187538

STEP No.    5900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3665E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.6377E-02
TOTAL DAVG 3.6377E-02

INLET FLOW =      1.17895 OUTLET FLOW =      1.17827
FLOW RATIO =      0.99942
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98871.1
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.177
OVERALL POWER OUTPUT = -0.005063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.183386

STEP No.    5950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3706E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5365E-02
TOTAL DAVG 3.5365E-02

INLET FLOW =      1.17861 OUTLET FLOW =      1.17794
FLOW RATIO =      0.99943
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98868.2
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.172
OVERALL POWER OUTPUT = -0.003063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.178093

STEP No.    6000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4385E-02
TOTAL DAVG 3.4385E-02

INLET FLOW =      1.17827 OUTLET FLOW =      1.17760
FLOW RATIO =      0.99944
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98866.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.171
OVERALL POWER OUTPUT = -0.001406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.174956

STEP No.    6050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3791E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.3444E-02
TOTAL DAVG 3.3444E-02

INLET FLOW =      1.17794 OUTLET FLOW =      1.17729
FLOW RATIO =      0.99944
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98864.9
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.168
OVERALL POWER OUTPUT = -0.000531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.172420

STEP No.    6100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2535E-02
TOTAL DAVG 3.2535E-02

INLET FLOW =      1.17763 OUTLET FLOW =      1.17698
FLOW RATIO =      0.99945
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98862.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.165
OVERALL POWER OUTPUT = -0.000875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.169460

STEP No.    6150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3755E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1657E-02
TOTAL DAVG 3.1657E-02

INLET FLOW =      1.17731 OUTLET FLOW =      1.17669
FLOW RATIO =      0.99947
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98861.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.160
OVERALL POWER OUTPUT = -0.000313 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.162932

STEP No.    6200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3669E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0811E-02
TOTAL DAVG 3.0811E-02

INLET FLOW =      1.17701 OUTLET FLOW =      1.17640
FLOW RATIO =      0.99948
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98858.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.159
OVERALL POWER OUTPUT = -0.003844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.161354

STEP No.    6250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9994E-02
TOTAL DAVG 2.9994E-02

INLET FLOW =      1.17672 OUTLET FLOW =      1.17612
FLOW RATIO =      0.99949
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98857.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.155
OVERALL POWER OUTPUT = -0.003687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.157620

STEP No.    6300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3683E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9205E-02
TOTAL DAVG 2.9205E-02

INLET FLOW =      1.17643 OUTLET FLOW =      1.17585
FLOW RATIO =      0.99951
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98855.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.150
OVERALL POWER OUTPUT = -0.003656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.152975

STEP No.    6350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3679E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8437E-02
TOTAL DAVG 2.8437E-02

INLET FLOW =      1.17615 OUTLET FLOW =      1.17559
FLOW RATIO =      0.99953
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98853.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.149
OVERALL POWER OUTPUT = -0.006125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.149555

STEP No.    6400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3612E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.7690E-02
TOTAL DAVG 2.7690E-02

INLET FLOW =      1.17588 OUTLET FLOW =      1.17533
FLOW RATIO =      0.99954
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98851.7
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.145
OVERALL POWER OUTPUT = -0.008656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.147899

STEP No.    6450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3746E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6957E-02
TOTAL DAVG 2.6957E-02

INLET FLOW =      1.17561 OUTLET FLOW =      1.17508
FLOW RATIO =      0.99955
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98850.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.142
OVERALL POWER OUTPUT = -0.009687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.143707

STEP No.    6500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3753E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6243E-02
TOTAL DAVG 2.6243E-02

INLET FLOW =      1.17535 OUTLET FLOW =      1.17484
FLOW RATIO =      0.99957
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98848.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.139
OVERALL POWER OUTPUT = -0.010812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.139931

STEP No.    6550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3743E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5555E-02
TOTAL DAVG 2.5555E-02

INLET FLOW =      1.17509 OUTLET FLOW =      1.17460
FLOW RATIO =      0.99958
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98846.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.137
OVERALL POWER OUTPUT = -0.014250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.138375

STEP No.    6600
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3825E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4891E-02
TOTAL DAVG 2.4891E-02

INLET FLOW =      1.17484 OUTLET FLOW =      1.17437
FLOW RATIO =      0.99960
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98845.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.135
OVERALL POWER OUTPUT = -0.015750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.135574

STEP No.    6650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3683E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4244E-02
TOTAL DAVG 2.4244E-02

INLET FLOW =      1.17460 OUTLET FLOW =      1.17415
FLOW RATIO =      0.99961
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98844.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.132
OVERALL POWER OUTPUT = -0.018125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.133191

STEP No.    6700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3792E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3613E-02
TOTAL DAVG 2.3613E-02

INLET FLOW =      1.17436 OUTLET FLOW =      1.17393
FLOW RATIO =      0.99963
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98842.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.129
OVERALL POWER OUTPUT = -0.021000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.129201

STEP No.    6750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3667E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2994E-02
TOTAL DAVG 2.2994E-02

INLET FLOW =      1.17413 OUTLET FLOW =      1.17372
FLOW RATIO =      0.99965
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98841.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.126
OVERALL POWER OUTPUT = -0.022844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.125488

STEP No.    6800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3660E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2387E-02
TOTAL DAVG 2.2387E-02

INLET FLOW =      1.17391 OUTLET FLOW =      1.17351
FLOW RATIO =      0.99966
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98839.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.124
OVERALL POWER OUTPUT = -0.024000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.123596

STEP No.    6850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3788E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1793E-02
TOTAL DAVG 2.1793E-02

INLET FLOW =      1.17370 OUTLET FLOW =      1.17330
FLOW RATIO =      0.99966
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98838.7
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.122
OVERALL POWER OUTPUT = -0.025000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.122509

STEP No.    6900
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3824E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1210E-02
TOTAL DAVG 2.1210E-02

INLET FLOW =      1.17349 OUTLET FLOW =      1.17311
FLOW RATIO =      0.99967
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98837.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.120
OVERALL POWER OUTPUT = -0.025562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.119896

STEP No.    6950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3689E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0640E-02
TOTAL DAVG 2.0640E-02

INLET FLOW =      1.17328 OUTLET FLOW =      1.17292
FLOW RATIO =      0.99969
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98836.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.115
OVERALL POWER OUTPUT = -0.023125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.113788

STEP No.    7000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3663E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0082E-02
TOTAL DAVG 2.0082E-02

INLET FLOW =      1.17309 OUTLET FLOW =      1.17272
FLOW RATIO =      0.99969
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98834.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.113
OVERALL POWER OUTPUT = -0.024063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.113348

STEP No.    7050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3697E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9535E-02
TOTAL DAVG 1.9535E-02

INLET FLOW =      1.17289 OUTLET FLOW =      1.17254
FLOW RATIO =      0.99970
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98833.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.111
OVERALL POWER OUTPUT = -0.026719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.111275

STEP No.    7100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3725E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9010E-02
TOTAL DAVG 1.9010E-02

INLET FLOW =      1.17271 OUTLET FLOW =      1.17236
FLOW RATIO =      0.99971
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98832.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.109
OVERALL POWER OUTPUT = -0.024938 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.108135

STEP No.    7150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8504E-02
TOTAL DAVG 1.8504E-02

INLET FLOW =      1.17252 OUTLET FLOW =      1.17219
FLOW RATIO =      0.99972
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98831.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.106
OVERALL POWER OUTPUT = -0.024313 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.104473

STEP No.    7200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8008E-02
TOTAL DAVG 1.8008E-02

INLET FLOW =      1.17235 OUTLET FLOW =      1.17202
FLOW RATIO =      0.99972
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98830.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.105
OVERALL POWER OUTPUT = -0.026125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.104519

STEP No.    7250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3725E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7525E-02
TOTAL DAVG 1.7525E-02

INLET FLOW =      1.17218 OUTLET FLOW =      1.17186
FLOW RATIO =      0.99973
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98829.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.102
OVERALL POWER OUTPUT = -0.025406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.101443

STEP No.    7300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3729E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7057E-02
TOTAL DAVG 1.7057E-02

INLET FLOW =      1.17200 OUTLET FLOW =      1.17170
FLOW RATIO =      0.99974
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98828.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.100
OVERALL POWER OUTPUT = -0.026562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.099252

STEP No.    7350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6603E-02
TOTAL DAVG 1.6603E-02

INLET FLOW =      1.17184 OUTLET FLOW =      1.17155
FLOW RATIO =      0.99975
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98827.3
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.099
OVERALL POWER OUTPUT = -0.027969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.098498

STEP No.    7400
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3845E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6163E-02
TOTAL DAVG 1.6163E-02

INLET FLOW =      1.17168 OUTLET FLOW =      1.17140
FLOW RATIO =      0.99976
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98826.1
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.096
OVERALL POWER OUTPUT = -0.028781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.096226

STEP No.    7450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3687E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5736E-02
TOTAL DAVG 1.5736E-02

INLET FLOW =      1.17152 OUTLET FLOW =      1.17125
FLOW RATIO =      0.99977
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98825.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.093
OVERALL POWER OUTPUT = -0.027656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.091501

STEP No.    7500
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3818E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5320E-02
TOTAL DAVG 1.5320E-02

INLET FLOW =      1.17137 OUTLET FLOW =      1.17111
FLOW RATIO =      0.99978
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98824.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.091
OVERALL POWER OUTPUT = -0.029594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.090404

STEP No.    7550
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3827E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4915E-02
TOTAL DAVG 1.4915E-02

INLET FLOW =      1.17122 OUTLET FLOW =      1.17097
FLOW RATIO =      0.99979
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98823.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.089
OVERALL POWER OUTPUT = -0.030281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.088460

STEP No.    7600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4523E-02
TOTAL DAVG 1.4523E-02

INLET FLOW =      1.17108 OUTLET FLOW =      1.17084
FLOW RATIO =      0.99980
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98822.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.089
OVERALL POWER OUTPUT = -0.032344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.087639

STEP No.    7650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3691E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4140E-02
TOTAL DAVG 1.4140E-02

INLET FLOW =      1.17094 OUTLET FLOW =      1.17071
FLOW RATIO =      0.99980
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98821.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.085
OVERALL POWER OUTPUT = -0.032000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.084833

STEP No.    7700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3743E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3772E-02
TOTAL DAVG 1.3772E-02

INLET FLOW =      1.17080 OUTLET FLOW =      1.17059
FLOW RATIO =      0.99982
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98820.7
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.083
OVERALL POWER OUTPUT = -0.033438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.082584

STEP No.    7750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3412E-02
TOTAL DAVG 1.3412E-02

INLET FLOW =      1.17067 OUTLET FLOW =      1.17046
FLOW RATIO =      0.99983
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98820.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.082
OVERALL POWER OUTPUT = -0.034438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.080477

STEP No.    7800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3060E-02
TOTAL DAVG 1.3060E-02

INLET FLOW =      1.17054 OUTLET FLOW =      1.17034
FLOW RATIO =      0.99984
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98819.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.079
OVERALL POWER OUTPUT = -0.034344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.077225

STEP No.    7850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3705E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2715E-02
TOTAL DAVG 1.2715E-02

INLET FLOW =      1.17041 OUTLET FLOW =      1.17022
FLOW RATIO =      0.99984
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98818.4
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.078
OVERALL POWER OUTPUT = -0.036156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.076092

STEP No.    7900
TIME FOR 50 STEPS = 0.261 TIME PER NODE PER STEP = 5.3599E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2379E-02
TOTAL DAVG 1.2379E-02

INLET FLOW =      1.17029 OUTLET FLOW =      1.17011
FLOW RATIO =      0.99985
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98817.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.077
OVERALL POWER OUTPUT = -0.037062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.075631

STEP No.    7950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3676E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2048E-02
TOTAL DAVG 1.2048E-02

INLET FLOW =      1.17017 OUTLET FLOW =      1.17000
FLOW RATIO =      0.99985
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98816.8
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.074
OVERALL POWER OUTPUT = -0.036906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.073857

STEP No.    8000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3808E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1727E-02
TOTAL DAVG 1.1727E-02

INLET FLOW =      1.17005 OUTLET FLOW =      1.16989
FLOW RATIO =      0.99986
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98816.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.074
OVERALL POWER OUTPUT = -0.036406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.072045

STEP No.    8050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3750E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1412E-02
TOTAL DAVG 1.1412E-02

INLET FLOW =      1.16994 OUTLET FLOW =      1.16979
FLOW RATIO =      0.99987
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98815.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.071
OVERALL POWER OUTPUT = -0.036969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.069802

STEP No.    8100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3753E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1106E-02
TOTAL DAVG 1.1106E-02

INLET FLOW =      1.16983 OUTLET FLOW =      1.16968
FLOW RATIO =      0.99988
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98814.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.069
OVERALL POWER OUTPUT = -0.037281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.067763

STEP No.    8150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3680E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0809E-02
TOTAL DAVG 1.0809E-02

INLET FLOW =      1.16973 OUTLET FLOW =      1.16958
FLOW RATIO =      0.99988
AVG INLET STAG P =      99999.7 AVG OUTLET STAG P =      98814.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.068
OVERALL POWER OUTPUT = -0.036625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.066894

STEP No.    8200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3718E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0520E-02
TOTAL DAVG 1.0520E-02

INLET FLOW =      1.16962 OUTLET FLOW =      1.16948
FLOW RATIO =      0.99988
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98813.4
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.067
OVERALL POWER OUTPUT = -0.037344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.065194

STEP No.    8250
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3858E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0240E-02
TOTAL DAVG 1.0240E-02

INLET FLOW =      1.16952 OUTLET FLOW =      1.16939
FLOW RATIO =      0.99989
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98812.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.065
OVERALL POWER OUTPUT = -0.037844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.063415

STEP No.    8300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3789E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.9677E-03
TOTAL DAVG 9.9677E-03

INLET FLOW =      1.16942 OUTLET FLOW =      1.16930
FLOW RATIO =      0.99990
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98812.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.064
OVERALL POWER OUTPUT = -0.038437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.061963

STEP No.    8350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3733E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.7040E-03
TOTAL DAVG 9.7040E-03

INLET FLOW =      1.16932 OUTLET FLOW =      1.16921
FLOW RATIO =      0.99990
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98811.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.063
OVERALL POWER OUTPUT = -0.038594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.060436

STEP No.    8400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3802E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.4471E-03
TOTAL DAVG 9.4471E-03

INLET FLOW =      1.16923 OUTLET FLOW =      1.16912
FLOW RATIO =      0.99991
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98811.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.061
OVERALL POWER OUTPUT = -0.039531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.059418

STEP No.    8450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3726E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.2009E-03
TOTAL DAVG 9.2009E-03

INLET FLOW =      1.16913 OUTLET FLOW =      1.16904
FLOW RATIO =      0.99992
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98810.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.059
OVERALL POWER OUTPUT = -0.039156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.056440

STEP No.    8500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3655E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.9610E-03
TOTAL DAVG 8.9610E-03

INLET FLOW =      1.16904 OUTLET FLOW =      1.16895
FLOW RATIO =      0.99992
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98810.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.059
OVERALL POWER OUTPUT = -0.040750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.056633

STEP No.    8550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3729E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.7237E-03
TOTAL DAVG 8.7237E-03

INLET FLOW =      1.16896 OUTLET FLOW =      1.16887
FLOW RATIO =      0.99992
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98809.7
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.058
OVERALL POWER OUTPUT = -0.041625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.056980

STEP No.    8600
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3838E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.4949E-03
TOTAL DAVG 8.4949E-03

INLET FLOW =      1.16888 OUTLET FLOW =      1.16879
FLOW RATIO =      0.99993
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98809.3
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.056
OVERALL POWER OUTPUT = -0.042250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.055565

STEP No.    8650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3706E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.2712E-03
TOTAL DAVG 8.2712E-03

INLET FLOW =      1.16879 OUTLET FLOW =      1.16872
FLOW RATIO =      0.99994
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98808.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.055
OVERALL POWER OUTPUT = -0.042438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.053367

STEP No.    8700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3778E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.0534E-03
TOTAL DAVG 8.0534E-03

INLET FLOW =      1.16871 OUTLET FLOW =      1.16864
FLOW RATIO =      0.99994
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98808.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.054
OVERALL POWER OUTPUT = -0.043344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.052831

STEP No.    8750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3664E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.8398E-03
TOTAL DAVG 7.8398E-03

INLET FLOW =      1.16863 OUTLET FLOW =      1.16857
FLOW RATIO =      0.99995
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98807.5
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.053
OVERALL POWER OUTPUT = -0.044375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.052117

STEP No.    8800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.6332E-03
TOTAL DAVG 7.6332E-03

INLET FLOW =      1.16856 OUTLET FLOW =      1.16850
FLOW RATIO =      0.99995
AVG INLET STAG P =      99999.6 AVG OUTLET STAG P =      98806.9
AVG INLET STAG T =      299.998 AVG OUTLET STAG T =      300.051
OVERALL POWER OUTPUT = -0.044437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.051098

STEP No.    8850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3777E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.4305E-03
TOTAL DAVG 7.4305E-03

INLET FLOW =      1.16848 OUTLET FLOW =      1.16843
FLOW RATIO =      0.99996
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98806.5
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.050
OVERALL POWER OUTPUT = -0.045062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.049127

STEP No.    8900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3779E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.2331E-03
TOTAL DAVG 7.2331E-03

INLET FLOW =      1.16841 OUTLET FLOW =      1.16837
FLOW RATIO =      0.99997
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98805.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.047
OVERALL POWER OUTPUT = -0.043812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.045629

STEP No.    8950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.0401E-03
TOTAL DAVG 7.0401E-03

INLET FLOW =      1.16834 OUTLET FLOW =      1.16830
FLOW RATIO =      0.99997
AVG INLET STAG P =      99999.6 AVG OUTLET STAG P =      98805.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.048
OVERALL POWER OUTPUT = -0.044781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.047267

STEP No.    9000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3682E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.8549E-03
TOTAL DAVG 6.8549E-03

INLET FLOW =      1.16827 OUTLET FLOW =      1.16824
FLOW RATIO =      0.99997
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98805.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.047
OVERALL POWER OUTPUT = -0.045469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.046203

STEP No.    9050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3657E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.6750E-03
TOTAL DAVG 6.6750E-03

INLET FLOW =      1.16821 OUTLET FLOW =      1.16818
FLOW RATIO =      0.99998
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98804.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.046
OVERALL POWER OUTPUT = -0.045937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.044608

STEP No.    9100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3702E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.4958E-03
TOTAL DAVG 6.4958E-03

INLET FLOW =      1.16814 OUTLET FLOW =      1.16812
FLOW RATIO =      0.99998
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98804.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.045
OVERALL POWER OUTPUT = -0.045500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.042970

STEP No.    9150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3723E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.3216E-03
TOTAL DAVG 6.3216E-03

INLET FLOW =      1.16808 OUTLET FLOW =      1.16806
FLOW RATIO =      0.99999
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98804.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.044
OVERALL POWER OUTPUT = -0.045875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.042333

STEP No.    9200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3763E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.1539E-03
TOTAL DAVG 6.1539E-03

INLET FLOW =      1.16802 OUTLET FLOW =      1.16801
FLOW RATIO =      0.99999
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98803.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.043
OVERALL POWER OUTPUT = -0.047125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.042032

STEP No.    9250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3737E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.9921E-03
TOTAL DAVG 5.9921E-03

INLET FLOW =      1.16796 OUTLET FLOW =      1.16795
FLOW RATIO =      0.99999
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98803.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.042
OVERALL POWER OUTPUT = -0.047031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.040350

STEP No.    9300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3674E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.8336E-03
TOTAL DAVG 5.8336E-03

INLET FLOW =      1.16790 OUTLET FLOW =      1.16790
FLOW RATIO =      1.00000
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98802.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.040
OVERALL POWER OUTPUT = -0.047000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.038522

STEP No.    9350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3736E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.6789E-03
TOTAL DAVG 5.6789E-03

INLET FLOW =      1.16784 OUTLET FLOW =      1.16785
FLOW RATIO =      1.00001
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98802.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.039
OVERALL POWER OUTPUT = -0.046719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.036873

STEP No.    9400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3732E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.5290E-03
TOTAL DAVG 5.5290E-03

INLET FLOW =      1.16778 OUTLET FLOW =      1.16780
FLOW RATIO =      1.00001
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98802.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.039
OVERALL POWER OUTPUT = -0.048531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.036872

STEP No.    9450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3742E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.3849E-03
TOTAL DAVG 5.3849E-03

INLET FLOW =      1.16773 OUTLET FLOW =      1.16775
FLOW RATIO =      1.00001
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98801.7
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.037
OVERALL POWER OUTPUT = -0.049125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.036831

STEP No.    9500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3625E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.2445E-03
TOTAL DAVG 5.2445E-03

INLET FLOW =      1.16768 OUTLET FLOW =      1.16770
FLOW RATIO =      1.00002
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98801.4
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.036
OVERALL POWER OUTPUT = -0.048500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.035521

STEP No.    9550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3813E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.1057E-03
TOTAL DAVG 5.1057E-03

INLET FLOW =      1.16763 OUTLET FLOW =      1.16765
FLOW RATIO =      1.00002
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98801.2
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.035
OVERALL POWER OUTPUT = -0.047969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.034271

STEP No.    9600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3721E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.9707E-03
TOTAL DAVG 4.9707E-03

INLET FLOW =      1.16758 OUTLET FLOW =      1.16761
FLOW RATIO =      1.00002
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98801.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.035
OVERALL POWER OUTPUT = -0.047844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.033473

STEP No.    9650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3794E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.8418E-03
TOTAL DAVG 4.8418E-03

INLET FLOW =      1.16753 OUTLET FLOW =      1.16756
FLOW RATIO =      1.00002
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98800.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.034
OVERALL POWER OUTPUT = -0.048094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.032839

STEP No.    9700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3783E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.7105E-03
TOTAL DAVG 4.7105E-03

INLET FLOW =      1.16749 OUTLET FLOW =      1.16752
FLOW RATIO =      1.00003
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98800.6
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.034
OVERALL POWER OUTPUT = -0.049656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.033459

STEP No.    9750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3671E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.5860E-03
TOTAL DAVG 4.5860E-03

INLET FLOW =      1.16744 OUTLET FLOW =      1.16748
FLOW RATIO =      1.00003
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98800.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.032
OVERALL POWER OUTPUT = -0.048250 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.031320

STEP No.    9800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3712E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.4636E-03
TOTAL DAVG 4.4636E-03

INLET FLOW =      1.16740 OUTLET FLOW =      1.16744
FLOW RATIO =      1.00003
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98800.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.032
OVERALL POWER OUTPUT = -0.048969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.030577

STEP No.    9850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3694E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.3447E-03
TOTAL DAVG 4.3447E-03

INLET FLOW =      1.16736 OUTLET FLOW =      1.16740
FLOW RATIO =      1.00003
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98799.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.031
OVERALL POWER OUTPUT = -0.049000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.030392

STEP No.    9900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3686E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2284E-03
TOTAL DAVG 4.2284E-03

INLET FLOW =      1.16731 OUTLET FLOW =      1.16736
FLOW RATIO =      1.00004
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98799.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.031
OVERALL POWER OUTPUT = -0.048813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.029769

STEP No.    9950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3715E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.1157E-03
TOTAL DAVG 4.1157E-03

INLET FLOW =      1.16727 OUTLET FLOW =      1.16732
FLOW RATIO =      1.00004
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98799.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.031
OVERALL POWER OUTPUT = -0.049063 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.028934

STEP No.   10000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.0072E-03
TOTAL DAVG 4.0072E-03

INLET FLOW =      1.16723 OUTLET FLOW =      1.16728
FLOW RATIO =      1.00004
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98799.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.030
OVERALL POWER OUTPUT = -0.049750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.028744

STEP No.   10050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3641E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.8989E-03
TOTAL DAVG 3.8989E-03

INLET FLOW =      1.16719 OUTLET FLOW =      1.16725
FLOW RATIO =      1.00005
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98798.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.029
OVERALL POWER OUTPUT = -0.050375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.028145

STEP No.   10100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3762E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7927E-03
TOTAL DAVG 3.7927E-03

INLET FLOW =      1.16716 OUTLET FLOW =      1.16721
FLOW RATIO =      1.00004
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98798.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.028
OVERALL POWER OUTPUT = -0.048531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.027057

STEP No.   10150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.6925E-03
TOTAL DAVG 3.6925E-03

INLET FLOW =      1.16712 OUTLET FLOW =      1.16718
FLOW RATIO =      1.00005
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98798.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.028
OVERALL POWER OUTPUT = -0.048844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.026551

STEP No.   10200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3707E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5954E-03
TOTAL DAVG 3.5954E-03

INLET FLOW =      1.16709 OUTLET FLOW =      1.16715
FLOW RATIO =      1.00005
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98798.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.027
OVERALL POWER OUTPUT = -0.048656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.024983

STEP No.   10250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3679E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4982E-03
TOTAL DAVG 3.4982E-03

INLET FLOW =      1.16705 OUTLET FLOW =      1.16711
FLOW RATIO =      1.00005
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98798.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.026
OVERALL POWER OUTPUT = -0.047938 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.024271

STEP No.   10300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3714E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4026E-03
TOTAL DAVG 3.4026E-03

INLET FLOW =      1.16702 OUTLET FLOW =      1.16708
FLOW RATIO =      1.00005
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98797.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.025
OVERALL POWER OUTPUT = -0.048000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.024030

STEP No.   10350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3660E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.3124E-03
TOTAL DAVG 3.3124E-03

INLET FLOW =      1.16699 OUTLET FLOW =      1.16705
FLOW RATIO =      1.00006
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98797.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.025
OVERALL POWER OUTPUT = -0.048219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.023645

STEP No.   10400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3805E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2256E-03
TOTAL DAVG 3.2256E-03

INLET FLOW =      1.16696 OUTLET FLOW =      1.16702
FLOW RATIO =      1.00006
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98797.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.024
OVERALL POWER OUTPUT = -0.048125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.022574

STEP No.   10450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3714E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1422E-03
TOTAL DAVG 3.1422E-03

INLET FLOW =      1.16692 OUTLET FLOW =      1.16699
FLOW RATIO =      1.00006
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98797.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.024
OVERALL POWER OUTPUT = -0.048219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.021919

STEP No.   10500
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3824E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0573E-03
TOTAL DAVG 3.0573E-03

INLET FLOW =      1.16689 OUTLET FLOW =      1.16697
FLOW RATIO =      1.00006
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98796.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.023
OVERALL POWER OUTPUT = -0.048906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.022034

STEP No.   10550
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3857E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9751E-03
TOTAL DAVG 2.9751E-03

INLET FLOW =      1.16686 OUTLET FLOW =      1.16694
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98796.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.022
OVERALL POWER OUTPUT = -0.048531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.021057

STEP No.   10600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3769E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8967E-03
TOTAL DAVG 2.8967E-03

INLET FLOW =      1.16684 OUTLET FLOW =      1.16691
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98796.4
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.022
OVERALL POWER OUTPUT = -0.048094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020321

STEP No.   10650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3780E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8221E-03
TOTAL DAVG 2.8221E-03

INLET FLOW =      1.16681 OUTLET FLOW =      1.16689
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98796.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.022
OVERALL POWER OUTPUT = -0.048719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020108

STEP No.   10700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3724E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.7485E-03
TOTAL DAVG 2.7485E-03

INLET FLOW =      1.16678 OUTLET FLOW =      1.16686
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98796.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.022
OVERALL POWER OUTPUT = -0.049500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020552

STEP No.   10750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3739E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6764E-03
TOTAL DAVG 2.6764E-03

INLET FLOW =      1.16676 OUTLET FLOW =      1.16684
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98796.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.022
OVERALL POWER OUTPUT = -0.049813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020610

STEP No.   10800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3698E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6049E-03
TOTAL DAVG 2.6049E-03

INLET FLOW =      1.16673 OUTLET FLOW =      1.16681
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98795.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.021
OVERALL POWER OUTPUT = -0.049813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.019753

STEP No.   10850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5349E-03
TOTAL DAVG 2.5349E-03

INLET FLOW =      1.16671 OUTLET FLOW =      1.16679
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98795.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.050438 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.019985

STEP No.   10900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3734E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4683E-03
TOTAL DAVG 2.4683E-03

INLET FLOW =      1.16668 OUTLET FLOW =      1.16677
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98795.5
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.050875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.019893

STEP No.   10950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3729E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4030E-03
TOTAL DAVG 2.4030E-03

INLET FLOW =      1.16666 OUTLET FLOW =      1.16675
FLOW RATIO =      1.00007
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98795.4
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.050906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020218

STEP No.   11000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3676E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3401E-03
TOTAL DAVG 2.3401E-03

INLET FLOW =      1.16664 OUTLET FLOW =      1.16673
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98795.4
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.051531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.020452

STEP No.   11050
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3861E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2800E-03
TOTAL DAVG 2.2800E-03

INLET FLOW =      1.16661 OUTLET FLOW =      1.16670
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98795.3
AVG INLET STAG T =      299.999 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.051312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.019860

STEP No.   11100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3723E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2187E-03
TOTAL DAVG 2.2187E-03

INLET FLOW =      1.16659 OUTLET FLOW =      1.16668
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98795.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.019
OVERALL POWER OUTPUT = -0.050531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.018446

STEP No.   11150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1627E-03
TOTAL DAVG 2.1627E-03

INLET FLOW =      1.16657 OUTLET FLOW =      1.16666
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98795.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.020
OVERALL POWER OUTPUT = -0.050937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.018861

STEP No.   11200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1036E-03
TOTAL DAVG 2.1036E-03

INLET FLOW =      1.16655 OUTLET FLOW =      1.16664
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98795.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.019
OVERALL POWER OUTPUT = -0.050688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.018092

STEP No.   11250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3735E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0490E-03
TOTAL DAVG 2.0490E-03

INLET FLOW =      1.16653 OUTLET FLOW =      1.16662
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98795.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.019
OVERALL POWER OUTPUT = -0.050906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.018236

STEP No.   11300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3770E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9941E-03
TOTAL DAVG 1.9941E-03

INLET FLOW =      1.16651 OUTLET FLOW =      1.16661
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98794.9
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.019
OVERALL POWER OUTPUT = -0.050969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.017853

STEP No.   11350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3780E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9425E-03
TOTAL DAVG 1.9425E-03

INLET FLOW =      1.16649 OUTLET FLOW =      1.16659
FLOW RATIO =      1.00008
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98795.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.018
OVERALL POWER OUTPUT = -0.050625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.017738

STEP No.   11400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3677E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8926E-03
TOTAL DAVG 1.8926E-03

INLET FLOW =      1.16647 OUTLET FLOW =      1.16657
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98794.7
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.018
OVERALL POWER OUTPUT = -0.050750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.016909

STEP No.   11450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3705E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8425E-03
TOTAL DAVG 1.8425E-03

INLET FLOW =      1.16645 OUTLET FLOW =      1.16656
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98794.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.017
OVERALL POWER OUTPUT = -0.050406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.016143

STEP No.   11500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3802E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7938E-03
TOTAL DAVG 1.7938E-03

INLET FLOW =      1.16644 OUTLET FLOW =      1.16654
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98794.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.017
OVERALL POWER OUTPUT = -0.050688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.016111

STEP No.   11550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3805E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7471E-03
TOTAL DAVG 1.7471E-03

INLET FLOW =      1.16642 OUTLET FLOW =      1.16652
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98794.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.016
OVERALL POWER OUTPUT = -0.050375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.015197

STEP No.   11600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3816E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7019E-03
TOTAL DAVG 1.7019E-03

INLET FLOW =      1.16640 OUTLET FLOW =      1.16651
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98794.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.016
OVERALL POWER OUTPUT = -0.050375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.014695

STEP No.   11650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3649E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6614E-03
TOTAL DAVG 1.6614E-03

INLET FLOW =      1.16638 OUTLET FLOW =      1.16650
FLOW RATIO =      1.00009
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98793.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.015
OVERALL POWER OUTPUT = -0.050094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.013781

STEP No.   11700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6186E-03
TOTAL DAVG 1.6186E-03

INLET FLOW =      1.16637 OUTLET FLOW =      1.16648
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.5 AVG OUTLET STAG P =      98793.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.015
OVERALL POWER OUTPUT = -0.049938 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.013426

STEP No.   11750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5746E-03
TOTAL DAVG 1.5746E-03

INLET FLOW =      1.16636 OUTLET FLOW =      1.16647
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98793.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.014
OVERALL POWER OUTPUT = -0.049625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.013309

STEP No.   11800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3801E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5331E-03
TOTAL DAVG 1.5331E-03

INLET FLOW =      1.16634 OUTLET FLOW =      1.16645
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98793.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.014
OVERALL POWER OUTPUT = -0.049594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012808

STEP No.   11850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3725E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4910E-03
TOTAL DAVG 1.4910E-03

INLET FLOW =      1.16632 OUTLET FLOW =      1.16644
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98793.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.049813 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012186

STEP No.   11900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3749E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4466E-03
TOTAL DAVG 1.4466E-03

INLET FLOW =      1.16631 OUTLET FLOW =      1.16643
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98793.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.049969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012069

STEP No.   11950
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3827E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4090E-03
TOTAL DAVG 1.4090E-03

INLET FLOW =      1.16630 OUTLET FLOW =      1.16642
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98793.0
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.050563 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012274

STEP No.   12000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3690E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3755E-03
TOTAL DAVG 1.3755E-03

INLET FLOW =      1.16628 OUTLET FLOW =      1.16640
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.050750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011948

STEP No.   12050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3730E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3445E-03
TOTAL DAVG 1.3445E-03

INLET FLOW =      1.16627 OUTLET FLOW =      1.16639
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.8
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.050937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011773

STEP No.   12100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3673E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3115E-03
TOTAL DAVG 1.3115E-03

INLET FLOW =      1.16626 OUTLET FLOW =      1.16638
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011949

STEP No.   12150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3688E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2801E-03
TOTAL DAVG 1.2801E-03

INLET FLOW =      1.16624 OUTLET FLOW =      1.16637
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012097

STEP No.   12200
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3878E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2494E-03
TOTAL DAVG 1.2494E-03

INLET FLOW =      1.16623 OUTLET FLOW =      1.16635
FLOW RATIO =      1.00010
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.014
OVERALL POWER OUTPUT = -0.051656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.012360

STEP No.   12250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3733E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2165E-03
TOTAL DAVG 1.2165E-03

INLET FLOW =      1.16622 OUTLET FLOW =      1.16634
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011626

STEP No.   12300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3643E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1827E-03
TOTAL DAVG 1.1827E-03

INLET FLOW =      1.16621 OUTLET FLOW =      1.16633
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98792.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051187 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011597

STEP No.   12350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1452E-03
TOTAL DAVG 1.1452E-03

INLET FLOW =      1.16620 OUTLET FLOW =      1.16632
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011065

STEP No.   12400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3710E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1126E-03
TOTAL DAVG 1.1126E-03

INLET FLOW =      1.16618 OUTLET FLOW =      1.16631
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.5 AVG OUTLET STAG P =      98792.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.051156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010536

STEP No.   12450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3759E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0828E-03
TOTAL DAVG 1.0828E-03

INLET FLOW =      1.16618 OUTLET FLOW =      1.16630
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98792.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011211

STEP No.   12500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0545E-03
TOTAL DAVG 1.0545E-03

INLET FLOW =      1.16617 OUTLET FLOW =      1.16629
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.013
OVERALL POWER OUTPUT = -0.051594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011152

STEP No.   12550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3810E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0282E-03
TOTAL DAVG 1.0282E-03

INLET FLOW =      1.16616 OUTLET FLOW =      1.16628
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.052219 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011504

STEP No.   12600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3678E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0039E-03
TOTAL DAVG 1.0039E-03

INLET FLOW =      1.16615 OUTLET FLOW =      1.16628
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98792.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.051969 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.011034

STEP No.   12650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3762E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.7633E-04
TOTAL DAVG 9.7633E-04

INLET FLOW =      1.16614 OUTLET FLOW =      1.16627
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98792.1
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.051687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010917

STEP No.   12700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3728E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.5139E-04
TOTAL DAVG 9.5139E-04

INLET FLOW =      1.16613 OUTLET FLOW =      1.16626
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010328

STEP No.   12750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.2853E-04
TOTAL DAVG 9.2853E-04

INLET FLOW =      1.16612 OUTLET FLOW =      1.16625
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010151

STEP No.   12800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3718E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.0584E-04
TOTAL DAVG 9.0584E-04

INLET FLOW =      1.16611 OUTLET FLOW =      1.16624
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009681

STEP No.   12850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3769E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.8343E-04
TOTAL DAVG 8.8343E-04

INLET FLOW =      1.16610 OUTLET FLOW =      1.16623
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009418

STEP No.   12900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3814E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.6068E-04
TOTAL DAVG 8.6068E-04

INLET FLOW =      1.16609 OUTLET FLOW =      1.16623
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009446

STEP No.   12950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.3798E-04
TOTAL DAVG 8.3798E-04

INLET FLOW =      1.16609 OUTLET FLOW =      1.16622
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009534

STEP No.   13000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3777E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.1440E-04
TOTAL DAVG 8.1440E-04

INLET FLOW =      1.16608 OUTLET FLOW =      1.16621
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.4 AVG OUTLET STAG P =      98792.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009623

STEP No.   13050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3796E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.8887E-04
TOTAL DAVG 7.8887E-04

INLET FLOW =      1.16607 OUTLET FLOW =      1.16620
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009652

STEP No.   13100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.6924E-04
TOTAL DAVG 7.6924E-04

INLET FLOW =      1.16606 OUTLET FLOW =      1.16620
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98791.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009387

STEP No.   13150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.5152E-04
TOTAL DAVG 7.5152E-04

INLET FLOW =      1.16606 OUTLET FLOW =      1.16619
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009446

STEP No.   13200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.3392E-04
TOTAL DAVG 7.3392E-04

INLET FLOW =      1.16605 OUTLET FLOW =      1.16618
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.3 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009445

STEP No.   13250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3661E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.1576E-04
TOTAL DAVG 7.1576E-04

INLET FLOW =      1.16604 OUTLET FLOW =      1.16617
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.051906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010004

STEP No.   13300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3766E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.9779E-04
TOTAL DAVG 6.9779E-04

INLET FLOW =      1.16604 OUTLET FLOW =      1.16617
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.052156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010268

STEP No.   13350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3753E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.8074E-04
TOTAL DAVG 6.8074E-04

INLET FLOW =      1.16603 OUTLET FLOW =      1.16616
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.012
OVERALL POWER OUTPUT = -0.052062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010504

STEP No.   13400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3700E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.6350E-04
TOTAL DAVG 6.6350E-04

INLET FLOW =      1.16602 OUTLET FLOW =      1.16616
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010210

STEP No.   13450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3658E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.4627E-04
TOTAL DAVG 6.4627E-04

INLET FLOW =      1.16602 OUTLET FLOW =      1.16615
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.051906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009945

STEP No.   13500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3710E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.2843E-04
TOTAL DAVG 6.2843E-04

INLET FLOW =      1.16601 OUTLET FLOW =      1.16614
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010120

STEP No.   13550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3772E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.0945E-04
TOTAL DAVG 6.0945E-04

INLET FLOW =      1.16601 OUTLET FLOW =      1.16614
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010149

STEP No.   13600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.9025E-04
TOTAL DAVG 5.9025E-04

INLET FLOW =      1.16600 OUTLET FLOW =      1.16614
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009855

STEP No.   13650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3665E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.7235E-04
TOTAL DAVG 5.7235E-04

INLET FLOW =      1.16600 OUTLET FLOW =      1.16613
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009914

STEP No.   13700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3725E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.5479E-04
TOTAL DAVG 5.5479E-04

INLET FLOW =      1.16599 OUTLET FLOW =      1.16612
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010266

STEP No.   13750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3770E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.3763E-04
TOTAL DAVG 5.3763E-04

INLET FLOW =      1.16599 OUTLET FLOW =      1.16612
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010149

STEP No.   13800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3789E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.2125E-04
TOTAL DAVG 5.2125E-04

INLET FLOW =      1.16598 OUTLET FLOW =      1.16611
FLOW RATIO =      1.00011
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.010354

STEP No.   13850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3716E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.0501E-04
TOTAL DAVG 5.0501E-04

INLET FLOW =      1.16598 OUTLET FLOW =      1.16611
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009737

STEP No.   13900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3696E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.8960E-04
TOTAL DAVG 4.8960E-04

INLET FLOW =      1.16597 OUTLET FLOW =      1.16611
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.2 AVG OUTLET STAG P =      98791.3
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.011
OVERALL POWER OUTPUT = -0.052437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009413

STEP No.   13950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.7484E-04
TOTAL DAVG 4.7484E-04

INLET FLOW =      1.16597 OUTLET FLOW =      1.16610
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052625 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009414

STEP No.   14000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3805E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.6168E-04
TOTAL DAVG 4.6168E-04

INLET FLOW =      1.16596 OUTLET FLOW =      1.16610
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008943

STEP No.   14050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3680E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.4970E-04
TOTAL DAVG 4.4970E-04

INLET FLOW =      1.16596 OUTLET FLOW =      1.16609
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008767

STEP No.   14100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3717E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.3933E-04
TOTAL DAVG 4.3933E-04

INLET FLOW =      1.16595 OUTLET FLOW =      1.16609
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.1
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008767

STEP No.   14150
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3879E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2990E-04
TOTAL DAVG 4.2990E-04

INLET FLOW =      1.16595 OUTLET FLOW =      1.16609
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.1 AVG OUTLET STAG P =      98791.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008796

STEP No.   14200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3715E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2075E-04
TOTAL DAVG 4.2075E-04

INLET FLOW =      1.16594 OUTLET FLOW =      1.16608
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98791.0
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009090

STEP No.   14250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3775E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.1233E-04
TOTAL DAVG 4.1233E-04

INLET FLOW =      1.16594 OUTLET FLOW =      1.16608
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009002

STEP No.   14300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.0349E-04
TOTAL DAVG 4.0349E-04

INLET FLOW =      1.16594 OUTLET FLOW =      1.16607
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009119

STEP No.   14350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3689E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.9371E-04
TOTAL DAVG 3.9371E-04

INLET FLOW =      1.16593 OUTLET FLOW =      1.16607
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.9
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.052844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008972

STEP No.   14400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3670E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.8712E-04
TOTAL DAVG 3.8712E-04

INLET FLOW =      1.16593 OUTLET FLOW =      1.16607
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.8
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008766

STEP No.   14450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3764E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7987E-04
TOTAL DAVG 3.7987E-04

INLET FLOW =      1.16592 OUTLET FLOW =      1.16607
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008531

STEP No.   14500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3703E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7286E-04
TOTAL DAVG 3.7286E-04

INLET FLOW =      1.16592 OUTLET FLOW =      1.16606
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008678

STEP No.   14550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3741E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.6575E-04
TOTAL DAVG 3.6575E-04

INLET FLOW =      1.16592 OUTLET FLOW =      1.16606
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053469 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008736

STEP No.   14600
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3834E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5985E-04
TOTAL DAVG 3.5985E-04

INLET FLOW =      1.16591 OUTLET FLOW =      1.16606
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.7
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009030

STEP No.   14650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3731E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5295E-04
TOTAL DAVG 3.5295E-04

INLET FLOW =      1.16591 OUTLET FLOW =      1.16605
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.6
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053687 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008971

STEP No.   14700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3717E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4696E-04
TOTAL DAVG 3.4696E-04

INLET FLOW =      1.16591 OUTLET FLOW =      1.16605
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009117

STEP No.   14750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3682E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4156E-04
TOTAL DAVG 3.4156E-04

INLET FLOW =      1.16590 OUTLET FLOW =      1.16605
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009234

STEP No.   14800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3725E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.3575E-04
TOTAL DAVG 3.3575E-04

INLET FLOW =      1.16590 OUTLET FLOW =      1.16604
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.6
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009322

STEP No.   14850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3705E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2964E-04
TOTAL DAVG 3.2964E-04

INLET FLOW =      1.16590 OUTLET FLOW =      1.16604
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009146

STEP No.   14900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3707E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2337E-04
TOTAL DAVG 3.2337E-04

INLET FLOW =      1.16589 OUTLET FLOW =      1.16604
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008735

STEP No.   14950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3672E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1614E-04
TOTAL DAVG 3.1614E-04

INLET FLOW =      1.16589 OUTLET FLOW =      1.16603
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.5
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008823

STEP No.   15000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3743E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0948E-04
TOTAL DAVG 3.0948E-04

INLET FLOW =      1.16589 OUTLET FLOW =      1.16603
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.5
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053906 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008999

STEP No.   15050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3738E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0136E-04
TOTAL DAVG 3.0136E-04

INLET FLOW =      1.16589 OUTLET FLOW =      1.16603
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009028

STEP No.   15100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3699E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9299E-04
TOTAL DAVG 2.9299E-04

INLET FLOW =      1.16588 OUTLET FLOW =      1.16603
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008969

STEP No.   15150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3687E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8453E-04
TOTAL DAVG 2.8453E-04

INLET FLOW =      1.16588 OUTLET FLOW =      1.16602
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.053937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008910

STEP No.   15200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3746E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.7630E-04
TOTAL DAVG 2.7630E-04

INLET FLOW =      1.16588 OUTLET FLOW =      1.16602
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008763

STEP No.   15250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3657E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6785E-04
TOTAL DAVG 2.6785E-04

INLET FLOW =      1.16588 OUTLET FLOW =      1.16602
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053937 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008763

STEP No.   15300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3713E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5945E-04
TOTAL DAVG 2.5945E-04

INLET FLOW =      1.16587 OUTLET FLOW =      1.16602
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009027

STEP No.   15350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3663E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4981E-04
TOTAL DAVG 2.4981E-04

INLET FLOW =      1.16587 OUTLET FLOW =      1.16602
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008704

STEP No.   15400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3708E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4051E-04
TOTAL DAVG 2.4051E-04

INLET FLOW =      1.16587 OUTLET FLOW =      1.16601
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   15450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3757E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3133E-04
TOTAL DAVG 2.3133E-04

INLET FLOW =      1.16587 OUTLET FLOW =      1.16601
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   15500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3793E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2210E-04
TOTAL DAVG 2.2210E-04

INLET FLOW =      1.16587 OUTLET FLOW =      1.16601
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   15550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3628E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1320E-04
TOTAL DAVG 2.1320E-04

INLET FLOW =      1.16586 OUTLET FLOW =      1.16601
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   15600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3674E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0494E-04
TOTAL DAVG 2.0494E-04

INLET FLOW =      1.16586 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008587

STEP No.   15650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9645E-04
TOTAL DAVG 1.9645E-04

INLET FLOW =      1.16586 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008734

STEP No.   15700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3751E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8831E-04
TOTAL DAVG 1.8831E-04

INLET FLOW =      1.16586 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.4
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   15750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3734E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8097E-04
TOTAL DAVG 1.8097E-04

INLET FLOW =      1.16586 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   15800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3720E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.7365E-04
TOTAL DAVG 1.7365E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   15850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3663E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6706E-04
TOTAL DAVG 1.6706E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16600
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008557

STEP No.   15900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3639E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.6055E-04
TOTAL DAVG 1.6055E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.001 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008439

STEP No.   15950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3669E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.5315E-04
TOTAL DAVG 1.5315E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008469

STEP No.   16000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3681E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4791E-04
TOTAL DAVG 1.4791E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008498

STEP No.   16050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3711E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.4232E-04
TOTAL DAVG 1.4232E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008527

STEP No.   16100
TIME FOR 50 STEPS = 0.261 TIME PER NODE PER STEP = 5.3592E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3665E-04
TOTAL DAVG 1.3665E-04

INLET FLOW =      1.16585 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   16150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3682E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.3064E-04
TOTAL DAVG 1.3064E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   16200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3737E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.2452E-04
TOTAL DAVG 1.2452E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16599
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008762

STEP No.   16250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3640E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1867E-04
TOTAL DAVG 1.1867E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008792

STEP No.   16300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3677E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.1425E-04
TOTAL DAVG 1.1425E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.053812 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008733

STEP No.   16350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3633E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0943E-04
TOTAL DAVG 1.0943E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008908

STEP No.   16400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3757E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0472E-04
TOTAL DAVG 1.0472E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008820

STEP No.   16450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3723E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.0036E-04
TOTAL DAVG 1.0036E-04

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009026

STEP No.   16500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3757E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.6314E-05
TOTAL DAVG 9.6314E-05

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054125 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008879

STEP No.   16550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3679E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 9.1945E-05
TOTAL DAVG 9.1945E-05

INLET FLOW =      1.16584 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009026

STEP No.   16600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3735E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.7889E-05
TOTAL DAVG 8.7889E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008997

STEP No.   16650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3729E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.4130E-05
TOTAL DAVG 8.4130E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008967

STEP No.   16700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3671E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 8.0769E-05
TOTAL DAVG 8.0769E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008880

STEP No.   16750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.7588E-05
TOTAL DAVG 7.7588E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16598
FLOW RATIO =      1.00012
AVG INLET STAG P =     100000.0 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008791

STEP No.   16800
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3832E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.4813E-05
TOTAL DAVG 7.4813E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008880

STEP No.   16850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3648E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 7.2119E-05
TOTAL DAVG 7.2119E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.010
OVERALL POWER OUTPUT = -0.054156 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008968

STEP No.   16900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3707E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.9757E-05
TOTAL DAVG 6.9757E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054062 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008762

STEP No.   16950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3674E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.7082E-05
TOTAL DAVG 6.7082E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054000 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   17000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3734E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.4729E-05
TOTAL DAVG 6.4729E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   17050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3722E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.2526E-05
TOTAL DAVG 6.2526E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   17100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3706E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 6.0254E-05
TOTAL DAVG 6.0254E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054094 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008616

STEP No.   17150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3773E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.8080E-05
TOTAL DAVG 5.8080E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054031 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008557

STEP No.   17200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3632E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.6412E-05
TOTAL DAVG 5.6412E-05

INLET FLOW =      1.16583 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054187 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008762

STEP No.   17250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3761E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.4734E-05
TOTAL DAVG 5.4734E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   17300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3792E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.2822E-05
TOTAL DAVG 5.2822E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008879

STEP No.   17350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3769E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 5.1399E-05
TOTAL DAVG 5.1399E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   17400
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3727E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.9726E-05
TOTAL DAVG 4.9726E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   17450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3772E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.8337E-05
TOTAL DAVG 4.8337E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   17500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3733E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.6880E-05
TOTAL DAVG 4.6880E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008762

STEP No.   17550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3703E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.5393E-05
TOTAL DAVG 4.5393E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008968

STEP No.   17600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3686E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.4085E-05
TOTAL DAVG 4.4085E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008909

STEP No.   17650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3738E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.2610E-05
TOTAL DAVG 4.2610E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008880

STEP No.   17700
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3854E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.1353E-05
TOTAL DAVG 4.1353E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.3
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009027

STEP No.   17750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3715E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 4.0240E-05
TOTAL DAVG 4.0240E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16597
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009144

STEP No.   17800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3752E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.9004E-05
TOTAL DAVG 3.9004E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009056

STEP No.   17850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3716E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.7891E-05
TOTAL DAVG 3.7891E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008997

STEP No.   17900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3672E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.6939E-05
TOTAL DAVG 3.6939E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008938

STEP No.   17950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3730E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5968E-05
TOTAL DAVG 3.5968E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054688 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.009056

STEP No.   18000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3744E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.5035E-05
TOTAL DAVG 3.5035E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054562 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008880

STEP No.   18050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3703E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.4288E-05
TOTAL DAVG 3.4288E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008792

STEP No.   18100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3739E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.3603E-05
TOTAL DAVG 3.3603E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   18150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3697E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.2605E-05
TOTAL DAVG 3.2605E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008733

STEP No.   18200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3734E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1950E-05
TOTAL DAVG 3.1950E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008733

STEP No.   18250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3690E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.1004E-05
TOTAL DAVG 3.1004E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   18300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3796E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0483E-05
TOTAL DAVG 3.0483E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008762

STEP No.   18350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3651E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 3.0010E-05
TOTAL DAVG 3.0010E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054437 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008733

STEP No.   18400
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3889E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9527E-05
TOTAL DAVG 2.9527E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008703

STEP No.   18450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3816E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.9121E-05
TOTAL DAVG 2.9121E-05

INLET FLOW =      1.16582 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054281 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   18500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3705E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8656E-05
TOTAL DAVG 2.8656E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054375 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   18550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3728E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.8126E-05
TOTAL DAVG 2.8126E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008674

STEP No.   18600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3807E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.7510E-05
TOTAL DAVG 2.7510E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   18650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3704E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.6704E-05
TOTAL DAVG 2.6704E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008616

STEP No.   18700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3753E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5936E-05
TOTAL DAVG 2.5936E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   18750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3782E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5542E-05
TOTAL DAVG 2.5542E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054312 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   18800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3771E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5333E-05
TOTAL DAVG 2.5333E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008616

STEP No.   18850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3729E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.5173E-05
TOTAL DAVG 2.5173E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008586

STEP No.   18900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3740E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.4571E-05
TOTAL DAVG 2.4571E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008616

STEP No.   18950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3796E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3887E-05
TOTAL DAVG 2.3887E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054344 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008440

STEP No.   19000
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3759E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3685E-05
TOTAL DAVG 2.3685E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054406 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008440

STEP No.   19050
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3789E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3439E-05
TOTAL DAVG 2.3439E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054500 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008557

STEP No.   19100
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3679E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.3117E-05
TOTAL DAVG 2.3117E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.9 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008498

STEP No.   19150
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3780E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2793E-05
TOTAL DAVG 2.2793E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008557

STEP No.   19200
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3716E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2575E-05
TOTAL DAVG 2.2575E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008645

STEP No.   19250
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3771E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2337E-05
TOTAL DAVG 2.2337E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   19300
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.2360E-05
TOTAL DAVG 2.2360E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008587

STEP No.   19350
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3718E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1883E-05
TOTAL DAVG 2.1883E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008587

STEP No.   19400
TIME FOR 50 STEPS = 0.263 TIME PER NODE PER STEP = 5.3821E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1594E-05
TOTAL DAVG 2.1594E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054531 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   19450
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3742E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.1195E-05
TOTAL DAVG 2.1195E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054594 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008675

STEP No.   19500
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0950E-05
TOTAL DAVG 2.0950E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054656 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008733

STEP No.   19550
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3683E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0934E-05
TOTAL DAVG 2.0934E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054875 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008938

STEP No.   19600
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3754E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0782E-05
TOTAL DAVG 2.0782E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008880

STEP No.   19650
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3747E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0459E-05
TOTAL DAVG 2.0459E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054844 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008909

STEP No.   19700
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3748E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 2.0131E-05
TOTAL DAVG 2.0131E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   19750
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3765E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9802E-05
TOTAL DAVG 1.9802E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008821

STEP No.   19800
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3776E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9456E-05
TOTAL DAVG 1.9456E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00012
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054719 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008851

STEP No.   19850
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3815E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.9197E-05
TOTAL DAVG 1.9197E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008851

STEP No.   19900
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3685E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8994E-05
TOTAL DAVG 1.8994E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16596
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054750 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008851

STEP No.   19950
TIME FOR 50 STEPS = 0.262 TIME PER NODE PER STEP = 5.3689E-09
SF = 0.50000 FACSEC = 0.00500 DAMP = 25.00000
BLOCK NO.     0 DAVG 1.8818E-05
TOTAL DAVG 1.8818E-05

INLET FLOW =      1.16581 OUTLET FLOW =      1.16595
FLOW RATIO =      1.00013
AVG INLET STAG P =      99999.8 AVG OUTLET STAG P =      98790.2
AVG INLET STAG T =      300.000 AVG OUTLET STAG T =      300.009
OVERALL POWER OUTPUT = -0.054781 KW.
ASSUMING A SINGLE INLET AND SINGLE OUTLET FLOW, THEN
TURBINE:     TOTAL-TOTAL ISENTROPIC EFFICIENCY = -0.008851

WRITING BLOCK NO. 0

WRITING BLOCK NO. 0
