/
init.trace
450 lines (380 loc) · 29.5 KB
/
init.trace
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COMMENTS FROM DATA FILES:
! MODEL NAME : twop_vsc_hq
! Data :
! prm( 1)= R phase reactor resistance in per unit
! prm( 2)= L phase reactor inductance in per unit
! prm( 3)= Hdc DC capacitor electrostatic inertia in seconds
! prm( 4)= Snom nominal rating of VSC
! prm( 5)= Pnom nominal active power of VSC
! prm( 6)= Kp current controller P gain
! prm( 7)= Ki current controller I gain
! prm( 8)= Kpd outer loop d-axis P gain
! prm( 9)= Kid outer loop d-axis I gain
! prm( 10)= Kpq outer loop q-axis P gain
! prm( 11)= Kiq outer loop q-axis I gain
! prm( 12)= Kpw PLL P gain
! prm( 13)= Kiw PLL I gain
! prm( 14)= alpha1 P-V characteristic alpha coefficient
! prm( 15)= beta1 P-V characteristic beta coefficient
! prm( 16)= alpha2 Q-Vac characteristic alpha coefficient
! prm( 17)= beta2 Q-Vac characteristic beta coefficient
! MODEL NAME : twop_HVDC_LCC
! MODEL DESCRIPTION FILE : twop_HVDC_lcc.txt
! Data :
! prm( 1)= p ! number of poles (1 or 2)
! prm( 2)= rec_ctl ! initial rectifier control : 1= current control, 2= power control
! prm( 3)= inv_ctl ! initial inverter control : 1= voltage control, 2= gamma control
! prm( 4)= Br ! number of bridges in series in rectifier
! prm( 5)= Bi ! number of bridges in series in inverter
! prm( 6)= Er ! phase-to-phase open-circuit voltage (kV) on DC side of rectifier transformer with 1 pu voltage on
! prm( 7)= Ei ! phase-to-phase open-circuit voltage (kV) on DC side of inverter transformer with 1 pu voltage on A
! prm( 8)= Rcr ! rectifier commutating resistance per bridge (in ohm)
! prm( 9)= Xcr ! rectifier commutating reactance per bridge (in ohm)
! prm( 10)= Rci ! inverter commutating resistance per bridge (in ohm)
! prm( 11)= Xci ! inverter commutating reactance per bridge (in ohm)
! prm( 12)= RL ! DC line series resistance (ohm)
! prm( 13)= Rcomp ! compounding resistance (voltage control by inverter) (ohm)
! prm( 14)= Tp ! time constant of power control (s)
! prm( 15)= Idset ! initial value (and setpoint if rec_ctl=1) of DC current (kA)
! prm( 16)= nr ! initial rectifier transformer ratio (pu/pu)
! prm( 17)= ni ! initial inverter transformer ratio (pu/pu)
! prm( 18)= alphamin ! minimum firing angle (rad)
! prm( 19)= DeltaId ! decrease in DC current when the inverter controls current (kA)
! prm( 20)= gammamin ! minimum extinctin angle (rad)
SOLVER SETTINGS :
Using fully decomposed Scheme
Updating Jacobian only locally, whenever possible
Skipping Newton solution of converged components
Using COI reference frame
Variation of x in Jacobian computation : max( 0.1000E-04 |x|, 0.1000E-04)
Tolerance on network equations in pu (system base) : 0.1000E-03 pu
Tolerance on injector equations (absolute, relative) : 0.1000E-03 pu, 0.1000E-03 pu
EXTRACTED RECORDS:
91 buses extracted from records
161 branches extracted from records
36 synchronous machines extracted from records
for a total of 1273 continuous time states
252 discrete exciter states
864 exciter parameters
34 discrete torque states
220 torque parameters
7 user-defined two-ports extracted from records
64 user-defined injectors extracted from records
for a total of 857 continuous time states
328 discrete states
2041 parameters
16 impedance loads extracted from records or created from mismatches
29 discrete controllers extracted from records
NUMBER OF ISLANDS : 8
82 buses in island # 1
2 buses in island # 2
2 buses in island # 3
1 buses in island # 4 (includes a Thevenin equivalent)
1 buses in island # 5 (includes a Thevenin equivalent)
1 buses in island # 6 (includes a Thevenin equivalent)
1 buses in island # 7 (includes a Thevenin equivalent)
1 buses in island # 8 (includes a Thevenin equivalent)
NUMBER OF SHUNTS : 82 (B_ type: 0)
shunt at bus Qnom island breaker
SHG1 G1 182.180 1 1
SHG2 G2 39.160 1 1
SHG3 G3 28.470 1 1
SHG4 G4 60.660 1 1
SHG5 G5 226.400 1 1
SHG6 G6 40.060 1 1
SHG7 G7 413.370 1 1
SHG10 G10 449.130 1 1
SHG11 G11 420.730 1 1
SHG12 G12 601.280 1 1
SHG15 G15 878.930 1 1
SHG16 G16 831.800 1 1
SHG17 G17 244.120 1 1
SHG18 G18 647.230 1 1
SHG19 G19 200.670 1 1
SHG20 G20 265.180 1 1
SHG21 G21 0.000 1 1
SHG22 G22 40.970 1 1
SHG23 G23 1270.800 1 1
SHG25 G25 411.800 1 1
SHG26 G26 1352.770 1 1
SHG27 G27 1352.770 1 1
SHG28 G28 155.790 1 1
SHG29 G29 720.300 1 1
SH1 1 159.000 1 1
SH2 2 237.600 1 1
SH3 3 84.000 1 1
SH4 4 305.000 1 1
SH5 5 216.000 1 1
SH6 6 573.000 1 1
SH7 7 456.700 1 1
SH8 8 14.570 1 1
SH9 9 397.080 1 1
SH10 10 765.000 1 1
SH11 11 1306.000 1 1
SH12 12 676.000 1 1
SH13 13 861.000 1 1
SH14 14 243.000 1 1
SH15 15 876.530 1 1
SH16 16 346.400 1 1
SH17 17 561.560 1 1
SH18 18 4640.600 1 1
SH19 19 564.200 1 1
SH20 20 370.700 1 1
SH21 21 489.290 1 1
SH22 22 2082.400 1 1
SH23 23 1737.300 1 1
SH24 24 510.670 1 1
SH25 25 3513.000 1 1
SH26 26 1314.000 1 1
SH27 27 1062.000 1 1
SH28 28 1168.600 1 1
SH29 29 1806.100 1 1
SHL1 L1 29.900 1 1
SHL2 L2 33.700 1 1
SHL3 L3 35.800 1 1
SHL4 L4 82.100 1 1
SHL5 L5 32.700 1 1
SHL6 L6 75.900 1 1
SHL7 L7 45.300 1 1
SHL8 L8 6.200 1 1
SHL9 L9 11.100 1 1
SHL10 L10 140.300 1 1
SHL11 L11 197.700 1 1
SHL12 L12 80.800 1 1
SHL13 L13 147.000 1 1
SHL14 L14 104.000 1 1
SHL15 L15 160.300 1 1
SHL16 L16 181.300 1 1
SHL17 L17 70.300 1 1
SHL18 L18 322.000 1 1
SHL19 L19 131.900 1 1
SHL20 L20 65.800 1 1
SHL21 L21 56.900 1 1
SHL22 L22 115.700 1 1
SHL23 L23 281.700 1 1
SHL24 L24 83.500 1 1
SHL25 L25 552.800 1 1
SHL26 L26 94.700 1 1
SHL27 L27 10.200 1 1
SHL28 L28 149.100 1 1
SHL29 L29 138.100 1 1
NUMBER OF SYNCHRONOUS MACHINES : 36
machine at bus V P Q delta sat island br
excit model vf(pu) torque model Tm(pu)
HYDRG1.03 G1 1.0000 129.77198 -7.47672 75.14 1.0999 1 1
ST1A 1.3069 HYDRO_GENERIC1 0.81801
CCGTG2.01 G2 1.0000 1039.38853 219.54769 94.58 1.0000 1 1
ST1A 2.0067 tor_ENTSOE_simp 0.84099
HYDRG2.03 G2 1.0000 15.85564 3.34915 71.72 1.1197 1 1
ST1A 1.5293 HYDRO_GENERIC1 0.84101
HYDRG3.03 G3 1.0000 390.35332 126.45137 63.24 1.1287 1 1
ST1A 1.6183 HYDRO_GENERIC1 0.88661
COALG4.02 G4 1.0000 1778.60850 454.42769 79.01 1.0000 1 1
ST1A 2.0302 tor_ENTSOE_simp 0.87673
HYDRG4.03 G4 1.0000 318.25492 81.31292 57.07 1.1228 1 1
ST1A 1.5553 HYDRO_GENERIC1 0.87673
NUCLG5.04 G5 1.0000 881.99876 -28.91539 89.32 1.0000 1 1
ST1A 1.9976 CONSTANT 0.98000
NUCLG7.04 G7 1.0000 833.68089 -45.21639 89.44 1.0000 1 1
ST1A 1.8717 CONSTANT 0.90978
CCGTG10.01 G10 1.0000 130.21851 10.80325 73.73 1.0000 1 1
ST1A 1.9117 tor_ENTSOE_simp 0.90921
COALG10.02 G10 1.0000 279.04329 23.15011 73.73 1.0000 1 1
ST1A 1.9117 tor_ENTSOE_simp 0.90923
NUCLG10.04 G10 1.0000 790.61843 65.59163 73.73 1.0000 1 1
ST1A 1.9117 CONSTANT 0.90922
CCGTG11.01 G11 1.0000 910.14357 236.53584 60.77 1.0000 1 1
ST1A 2.0665 tor_ENTSOE_simp 0.84741
COALG11.02 G11 1.0000 1189.25670 309.07414 60.77 1.0000 1 1
ST1A 2.0665 tor_ENTSOE_simp 0.84741
NUCLG11.04 G11 1.0000 1198.35379 311.43837 60.77 1.0000 1 1
ST1A 2.0665 CONSTANT 0.84741
CCGTG12.01 G12 1.0000 1461.63945 163.74545 64.87 1.0000 1 1
ST1A 1.9912 tor_ENTSOE_simp 0.89235
HYDRG12.03 G12 1.0000 1522.29520 170.54063 39.72 1.1131 1 1
ST1A 1.4843 HYDRO_GENERIC1 0.89235
NUCLG12.04 G12 1.0000 312.79124 35.04157 64.87 1.0000 1 1
ST1A 1.9912 CONSTANT 0.89235
COALG15.02 G15 1.0000 6242.56140 1237.54477 65.85 1.0000 1 1
ST1A 2.0308 tor_ENTSOE_simp 0.91489
CCGTG16.01 G16 1.0000 6067.35587 1923.51484 61.51 1.0000 1 1
ST1A 2.1873 tor_ENTSOE_simp 0.88332
COALG16.02 G16 1.0000 3109.38141 985.75746 61.51 1.0000 1 1
ST1A 2.1873 tor_ENTSOE_simp 0.88332
COALG17.02 G17 1.0000 1607.99954 356.16507 53.69 1.0000 1 1
ST1A 1.9474 tor_ENTSOE_simp 0.84454
CCGTG18.01 G18 1.0000 693.42811 -17.87781 63.60 1.0000 1 1
ST1A 1.8382 tor_ENTSOE_simp 0.92384
COALG18.02 G18 1.0000 1065.57292 -27.47237 63.60 1.0000 1 1
ST1A 1.8382 tor_ENTSOE_simp 0.92385
CCGTG19.01 G19 1.0000 1693.72715 778.23906 47.83 1.0000 1 1
ST1A 2.3075 tor_ENTSOE_simp 0.86058
NUCLG20.04 G20 1.0000 1253.99995 304.41375 51.01 1.0000 1 1
ST1A 2.1830 CONSTANT 0.92889
CCGTG21.01 G21 1.0000 534.99999 325.95498 37.67 1.0000 1 1
ST1A 2.1930 tor_ENTSOE_simp 0.71191
CCGTG22.01 G22 1.0000 323.00003 130.02860 41.15 1.0000 1 1
ST1A 1.9650 tor_ENTSOE_simp 0.74219
CCGTG23.01 G23 1.0000 4380.90965 889.21360 49.45 1.0000 1 1
ST1A 2.0154 tor_ENTSOE_simp 0.90161
COALG23.02 G23 1.0000 1229.57290 249.57213 49.45 1.0000 1 1
ST1A 2.0154 tor_ENTSOE_simp 0.90161
CCGTG25.01 G25 1.0000 1708.00001 941.02958 37.66 1.0000 1 1
ST1A 2.4367 tor_ENTSOE_simp 0.92344
CCGTG26.01 G26 1.0000 3155.17903 309.73566 53.85 1.0000 1 1
ST1A 1.9655 tor_ENTSOE_simp 0.88434
COALG26.02 G26 1.0000 1274.82115 125.14585 53.85 1.0000 1 1
ST1A 1.9655 tor_ENTSOE_simp 0.88434
CCGTG28.01 G28 1.0000 1086.22713 219.47212 45.31 1.0000 1 1
ST1A 1.9604 tor_ENTSOE_simp 0.81770
COALG28.02 G28 1.0000 142.77294 28.84726 45.31 1.0000 1 1
ST1A 1.9604 tor_ENTSOE_simp 0.81770
CCGTG29.01 G29 1.0000 560.65055 -205.93936 73.52 1.0000 1 1
ST1A 1.7756 tor_ENTSOE_simp 0.96778
NUCLG29.04 G29 1.0000 462.33729 -169.82673 73.52 1.0000 1 1
ST1A 1.7756 CONSTANT 0.96778
NUMBER OF INJECTORS : 64
model name injector name at bus V P Q
THEVEQ LCC1 5IC 0.9914 -10.00000 -10.00000
THEVEQ VSC1 12IC 0.9821 -500.00000 0.00000
THEVEQ LCC2 26IC 0.9988 -1022.29966 -55.67607
THEVEQ VSC2 27IC2 0.9727 -1000.00000 0.00000
THEVEQ LCC3 27IC 0.9962 -1597.99943 -1245.57863
WT3 WF3G1.05 G1 1.0000 422.59884 -9.58697
WT4 CONVG1.06 G1 1.0000 301.62817 -17.37810
WT3 WF3G2.05 G2 1.0000 208.75872 44.09563
WT3 WF3G3.05 G3 1.0000 389.64664 126.22245
WT3 WF3G4.05 G4 1.0000 50.63109 12.93605
WT4 CONVG4.06 G4 1.0000 189.50495 48.41779
WT3 WF3G6.05 G6 1.0000 778.31027 47.40323
WT4 CONVG6.06 G6 1.0000 92.69012 26.05902
WT3 WF3G7.05 G7 1.0000 610.44756 -33.10888
WT4 CONVG7.06 G7 1.0000 602.86958 -32.69787
WT4 CONVG10.06 G10 1.0000 1617.11695 134.15997
WT4 CONVG11.06 G11 1.0000 1278.24618 332.20148
WT3 WF3G12.05 G12 1.0000 56.27339 6.30423
WT3 WF3G15.05 G15 1.0000 29.23913 5.79646
WT4 CONVG16.06 G16 1.0000 661.27161 209.64087
WT4 CONVG19.06 G19 1.0000 920.27118 182.63146
WT3 WF3G23.05 G23 1.0000 569.51795 115.59771
WT4 CONVG27.06 G27 1.0000 1035.72251 -89.42794
WT4 CONVG29.06 G29 1.0000 719.01404 -81.59689
vfd_load L_1 L1 0.9961 -489.99981 -242.50016
vfd_load L_2 L2 0.9985 -542.99991 -419.99923
vfd_load L_3 L3 0.9950 -599.00062 -263.39999
vfd_load L_4 L4 0.9991 -1327.30108 -923.50065
vfd_load L_5 L5 0.9914 -505.80065 -260.19918
vfd_load L_6 L6 0.9986 -1303.39998 -827.69849
vfd_load L_7 L7 0.9996 -753.00025 -496.90020
vfd_load L_8 L8 0.9996 -118.49996 -44.09987
vfd_load L_9 L9 0.9996 -134.90000 -192.40018
vfd_load L_10 L10 0.9910 -2569.00077 -1224.99733
vfd_load L_11 L11 0.9951 -3413.39826 -2182.69776
vfd_load L_12 L12 0.9906 -1208.99919 -1111.99834
vfd_load L_13 L13 0.9985 -2544.99931 -1498.49983
vfd_load L_14 L14 0.9983 -1843.50063 -1065.70054
vfd_load L_15 L15 0.9930 -2669.00119 -1902.40109
vfd_load L_16 L16 0.9971 -1691.49565 -3389.59241
vfd_load L_17 L17 0.9969 -1095.50003 -942.09855
vfd_load L_18 L18 0.9946 -5437.50081 -3667.00165
vfd_load L_19 L19 0.9963 -2066.10022 -1740.99981
vfd_load L_20 L20 0.9950 -1041.36008 -788.79981
vfd_load L_21 L21 0.9959 -718.99982 -848.19816
vfd_load L_22 L22 0.9983 -1861.80014 -1498.09864
vfd_load L_23 L23 0.9912 -4781.40037 -3185.80407
vfd_load L_24 L24 0.9939 -1423.89979 -894.70062
vfd_load L_25 L25 0.9920 -9804.69700 -5569.69311
vfd_load L_26 L26 0.9907 -1450.00019 -1426.00383
vfd_load L_27 L27 0.9919 -462.79969 -359.69983
vfd_load L_28 L28 0.9959 -2761.99864 -1242.69966
vfd_load L_29 L29 0.9919 -2601.99818 -923.70112
SVC_HQ_GENERIC1 SVC2 2 0.9855 0.00000 3.16928
SVC_HQ_GENERIC1 SVC9 9 0.9803 0.00000 -142.76000
SVC_HQ_GENERIC1 SVC18 18 0.9788 0.00000 21.68872
SVC_HQ_GENERIC1 SVC21 21 0.9647 0.00000 11.20667
SVC_HQ_GENERIC1 SVC22 22 0.9669 0.00000 12.09994
SVC_HQ_GENERIC1 SVC23 23 0.9750 0.00000 5.71619
SVC_HQ_GENERIC1 SVC25 25 0.9528 0.00000 29.72175
SVC_HQ_GENERIC1 SVC27 27 0.9727 0.00000 8.24184
SVC_HQ_GENERIC1 SVC28 28 0.9794 0.00000 6.72941
SVC_HQ_GENERIC1 SVC29 29 0.9993 0.00000 0.61234
VFAULT VFAULT G1 1.0000 0.00000 0.00000
NUMBER OF TWO-PORTS : 7
model name two-port name bus 1 V Pinj Qinj
bus 2 V Pinj Qinj
HVDC_VSC 12VSC 12 0.9821 -500.00000 0.00000
DC12 0.9821 500.00000 0.00000
HVDC_VSC 12ICVSC 12IC 0.9821 500.00000 0.00000
DC12IC 0.9745 -500.00000 0.00000
HVDC_VSC 27VSC 27 0.9727 -1000.00000 0.00000
DC27 0.9727 1000.00000 0.00000
HVDC_VSC 27ICVSC 27IC2 0.9727 1000.00000 0.00000
DC27IC 0.9630 -1000.00000 0.00000
HVDC_LCC HVDC1 5 0.9870 -10.00000 -10.00000
5IC 0.9914 10.00000 10.00000
HVDC_LCC HVDC2 26 0.9751 -1022.29966 -55.67607
26IC 0.9988 1022.29966 55.67607
HVDC_LCC HVDC3 27 0.9727 -1597.99943 -1245.57863
27IC 0.9962 1597.99943 1245.57863
NUMBER OF IMPEDANCE LOADS : 16 (M_ type: 16 )
load name bus name P Q
M_G1 G1 -0.000 14.761
M_G6 G6 -0.000 -171.412
M_G19 G19 -0.000 -240.218
M_G27 G27 0.000 804.851
M_G29 G29 0.002 182.512
M_5 5 -10.002 -9.997
M_7 7 -0.034 0.014
M_8 8 0.033 -0.020
M_12 12 -500.000 0.001
M_16 16 0.018 0.010
M_17 17 0.002 0.019
M_27 27 -999.999 0.000
M_DC12 DC12 -4.597 0.000
M_DC12IC DC12IC 0.698 0.000
M_DC27 DC27 -0.982 0.000
M_DC27IC DC27IC -9.029 0.000
NUMBER OF BIG M_LOADS : 8
load name bus name P Q
M_G1 G1 -0.000 14.761
M_G6 G6 -0.000 -171.412
M_G19 G19 -0.000 -240.218
M_G27 G27 0.000 804.851
M_G29 G29 0.002 182.512
M_5 5 -10.002 -9.997
M_12 12 -500.000 0.001
M_27 27 -999.999 0.000
INJECTORS NOT IN STEADY STATE (tol: 0.001000) :
WF3G1.05
eq. # 7: -0.2865460E-02
WF3G2.05
eq. # 7: 0.4690068E-02
eq. # 8: 0.1563356E-02
WF3G3.05
eq. # 7: -0.3417157E-02
eq. # 8: -0.1139052E-02
WF3G4.05
eq. # 7: -0.2305666E-01
eq. # 8: -0.7685555E-02
WF3G12.05
eq. # 7: -0.5184983E-01
eq. # 8: -0.1728328E-01
WF3G15.05
eq. # 7: -0.7608659E-01
eq. # 8: -0.2536220E-01
WF3G23.05
eq. # 7: -0.3243369E-02
eq. # 8: -0.1081123E-02
CONVG29.06
eq. # 3: 0.1807344E-02
TWO-PORTS NOT IN STEADY STATE (tol: 0.001000) :
12VSC
eq. # 11: -0.2103544E-02
12ICVSC
eq. # 11: -0.2103544E-02
27VSC
eq. # 11: -0.8577887E-02
27ICVSC
eq. # 11: -0.8577887E-02
HVDC3
eq. # 19: -0.1019010E-02