BEGIN NEW DATA CASE C BENCHMARK DC-12 C Simulation of BPA single-line-to-ground fault and single-pole switching C of Raver-Sickler-Chief Joseph line. See Volume I, 19 September 1974, C pagination "DCL". For double-circuit representation, both Pi-circuits C and constant-parameter distributed modeling with zero-sequence coupling C is illustrated. Change 3-phase K.C. Lee col-80 "1"-punch to "2"-punch C on 3 July 87, when realized that branch current output is not yet OK. $NEW EPSILN, 1.E-9, { Not needed; Just added to prove the card is recognized $WATCH, 25, { Illustrate extra echoing of cards to CRT periodically (every 25th) PRINTED NUMBER WIDTH, 12, 2, { Full precision on each of 9 columns of printout .000050 .025 60. 1 1 1 3 1 -1 5 5 20 20 0CJA X32A .01 1 0CJB X32B .01 1 0RAA XA .01 0RAB XB .01 0RAGA RAA 26. 1 0RAGB RAB 26. 1 0RAGC RAC 26. 1 0CJGA CJA 28. 0CJGB CJB 28. 0CJGC CJC 28. 0VC Y17C 26. 0VB Y17B 26. 0VA Y17A 26. 0RAA YA .01 1 0RAB YB .01 1 0RAC YC .01 1 0XC 1680. 0X16B T 1.0E18 2 0X16C T 1.0E18 2 0X16A T 1.0E18 2 0T 65. 1 1XA X1A .3545 3.2009.0476 2XB X1B .2599 1.543-.0088.349 3.2067.0449 3XC X1C .2624 1.484-.006 .2599 1.543 -.0087.3545 3.2009.0479 4YA Y1A .2619 1.128-.0008.2595 1.1848-.0018.2622 1.2824-.0025 .3657 3.6724 .0363 5YB Y1B .2615 1.0374-.0004.2592 1.0834-.001 .2619 1.1492-.0011 .2624 1.5455-.0052.3656 3.6724.0361 6YC Y1C .261 .9663 -.0003.2588 1.005 -.0007.2616 1.054 -.0006 .2623 1.3076-.002 .2624 1.551 -.0053.3656 3.6724 .036 1X1A X2A 1.05749.547 .1421 2X1B X2B .7752 4.602 -.026 1.042 9.564 .1353 3X1C X2C .7826 4.426 -.018 .7752 4.602 -.02561.057 9.547 .1428 4Y1B Y2B .7811 3.366 -.0023.7741 3.534 -.0055.7822 3.825 -.0074 1.091 10.95 .1084 5Y1A Y2A .7799 3.094 -.0013.7732 3.231 -.0031.7813 3.427 -.0032 .7827 4.609 -.01541.091 10.95 .1076 6Y1C Y2C .7785 2.882 -.0009.772 2.998 -.0022.7802 3.145 -.0018 .7822 3.9 -.0059.7827 4.625 -.01591.091 10.95 .0357 -1X2A X16A 0.58213.4008.00912 70. -2X2B X16B .034160.6790.01663 70. -3X2C X16C .034941.0952.01163 70. -4Y2A Y16A -5Y2B Y16B -6Y2C Y16C 1X16C X17C .6198 5.596 .08325 2X16A X17A .4545 2.698 -.0156.6110 5.606 .079 3X16B X17B .459 2.5945-.0107.4545 2.6975-.0156.6198 5.596 .08325 1X17C X18C X16C X17C 2X17A X18A 3X17B X18B 1X18C X19C X16C X17C 2X18A X19A 3X18B X19B 1X19A X20A X16C X17C 2X19B X20B 3X19C X20C 1X20A X21A X16C X17C 2X20B X21B 3X20C X21C 1X21A X22A X16C X17C 2X21B X22B 3X21C X22C 1X22A X23A X16C X17C 2X22B X23B 3X22C X23C 1X23A X24A X16C X17C 2X23B X24B 3X23C X24C 1X24A X25A X16C X17C 2X24B X25B 3X24C X25C 1X25A X26A X16C X17C 2X25B X26B 3X25C X26C 1X26A X27A X16C X17C 2X26B X27B 3X26C X27C 1X27A X28A X16C X17C 2X27B X28B 3X27C X28C 1X28A X29A X16C X17C 2X28B X29B 3X28C X29C 1X29A X30A X16C X17C 2X29B X30B 3X29C X30C 1X30A X31A X16C X17C 2X30B X31B 3X30C X31C 1X31A X32A X16C X17C 2X31B X32B 3X31C X32C C 3 July 1987. Change 3 column-80 "1"-punches to "2"-punches that do work: -1Y16C Y17C .316 752. 123.E3 31. 1 2 -2Y16B Y17B .03 370. 179.E3 31. 1 2 -3Y16A Y17A 2 BLANK card ending branch cards CJC X32C -1. .016 0.1 RAC XC -1. .016 0.1 2 X16C T -1. .2 0. BLANK card ending switch cards 14VA 305418. 60. -1.5 -1. 14VB 305418. 60. -121.5 -1. 14VC 305418. 60. 118.5 -1. 14RAGA 301954. 60. 0.0 -1. 14RAGB 301954. 60. -120.0 -1. 14RAGC 301954. 60. 120.0 -1. 14CJGA 303109. 60. 12.0 -1. 14CJGB 303109. 60. -108.0 -1. 14CJGC 303109. 60. 132.0 -1. C --------------+------------------------------ C From bus name | Names of all adjacent busses. C --------------+------------------------------ C CJA | X32A *CJGA * C X32A | CJA *X31A * C CJB | X32B *CJGB * C X32B | CJB *X31B * C RAA | XA *RAGA *YA * C XA | RAA *X1A * C RAB | XB *RAGB *YB * C XB | RAB *X1B * C RAGA | RAA * C RAGB | RAB * C RAGC | RAC * C RAC | RAGC *YC *XC * C Etc. (many more connections!) ..... BLANK card ending source cards C Total network loss P-loss by summing injections = 4.180325863357E+08 C Last gen: VA 305313.34087938 305418. -117.2584310988 258.76988979273 C (inject) -7994.911198294 -1.5000000 230.67794909697 116.9451840 X16C { Request this single node-voltage output C Step Time X16B X16C X16A Y16C Y16B C T T T Y17C Y17B C C CJB RAGA RAGB RAGC RAA C X32B RAA RAB RAC YA C *** Phasor I(0) = -3.0383545E+02 Switch "CJC " to "X32C " closed C *** Phasor I(0) = 3.8992458E+02 Switch "RAC " to "XC " closed C *** Phasor I(0) = 2.0157191E+02 Switch "X16C " to "T " closed C 0 0.0 -78763.148 0.0 356989.678 20286.0902 17732.2707 C -18.016564 -303.41193 324.866491 159.741413 116.579991 C 1 .5E-4 -68915.376 0.0 360816.716 20407.8874 17886.2544 C -7.6834907 -305.95716 323.27785 139.58148 116.957369 C *** Open switch "CJC " to "X32C " after 1.63000000E-02 sec. C 340 .017 -58325.296 0.0 332129.95 18459.1058 16144.8216 C -71.509286 -318.23015 312.072738 24.5303035 118.269882 C *** Open switch "RAC " to "XC " after 1.73000000E-02 sec. C 360 .018 12731.9904 0.0 250135.752 -12838.9 -16820.319 C 52.7863341 -253.90065 320.141582 -141.05357 52.1159786 BLANK card ending output variable requests (here, just one node voltage) C 500 .025 132495.985 0.0 -302263.22 -29.587992 2946.07641 C 84.5341302 250.938187 -366.24032 246.772723 -200.01038 C Variable maxima : 527574.804 0.0 412447.128 31636.9013 29592.9306 C 548.378747 333.249762 334.841845 1080.00888 118.507064 C Times of maxima : .00455 0.0 .0014 .01945 .01935 C .00425 .00945 .016 .0129 .5E-3 C Variable minima : -527587.93 0.0 -412416.39 -42474.614 -23464.43 C -548.38706 -333.20182 -367.8861 -1079.8953 -234.86055 C Times of minima : .0129 0.0 .0097 .01835 .0184 C .0126 .00115 .02495 .00455 .02325 PRINTER PLOT { Axis limits: (-3.870, 2.119) Voltage across switch (RAC,XC), which opens at 16 milliseconds. 184 1. 15. 30. RAC XC Recovery voltage $WATCH, 9999, { Turn off echoing of cards to CRT, in case other solutions follow BLANK card terminating plot cards BEGIN NEW DATA CASE BLANK