From b18347ffc9db9641e215995edea1c04c363b2bdf Mon Sep 17 00:00:00 2001 From: Angelo Rossi Date: Wed, 21 Jun 2023 12:04:16 +0000 Subject: Initial commit. --- benchmarks/dc47.dat | 751 ++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 751 insertions(+) create mode 100644 benchmarks/dc47.dat (limited to 'benchmarks/dc47.dat') diff --git a/benchmarks/dc47.dat b/benchmarks/dc47.dat new file mode 100644 index 0000000..21f33b0 --- /dev/null +++ b/benchmarks/dc47.dat @@ -0,0 +1,751 @@ +BEGIN NEW DATA CASE +C BENCHMARK DC-47 +C Realistic large case with Type-59 S.M. and TACS modeling, as set up and +C studied by Prof. Alfonso Capasso of the University of Rome during a 1980 +C visit to BPA. There are many cascaded, 25-mile, frequency-dependent, +C 3-phase line sections that originally were represented using weighting +C functions. But such code was removed from ATP around 1986, so for years +C this case lay unused. It was resurrected during November of 1989 when Dan +C Goldsworthy of BPA supplied replacement Marti branch cards. Dimensioning +C of EMTP tables is tricky. Except for list sizes 20 and 22, twice default +C dimensioning is adequate. On the other hand 3 times default dimensioning +C of all lists fails quickly. For testing on Apollo, use: DEFAULT = 2.00, +C and the following 3 cards blank except for list 20 = 13000 and list 22 = +C 1750. Default sizes of these two are only 660 and 150, respectively. +C 20 Oct 93, the new dynamic dimensioning of Salford EMTP saves the day. +C The following five lines apply this old 1989 Apollo recommendation: +C Answers change slightly on 10 February 1999 following the massive changes +C from TEPCO (Tokyo Electric Power Company) in Japan. See April newsletter. +C Most extrema agree to 6 decimal digits or more. All printer plots are +C identical. +C 16 February 2002, add the optional NBHDSW line to the following NLS +C data structure. In fact, this does nothing since value 5.0 is the +C default. But such a declaration is critically important for some data +C that is overloaded with switches. For example, Hong Xiao's data NAVSYS +C at Texas A&M had 894 switches. If the List 6 switch limit was 2500, +C slightly more than a factor of 5.0 was required. Of course, the user +C can only expand what exists (i.e., make sure VARDIM created the same or +C greater NBHDSW space when the program was linked). Although use with +C NLS is being illustrated here, the declaration applies to LISTSIZE, +C too --- either as used prior to linking ATP, or as used at the start +C of ATP execution. The total size of NBHDSW is equal to this factor +C times the limit on switches (List 6). So, here, default List 6 is 40, +C and 5 times this ==> 200 cells of NBHDSW are available for use. Much +C more typically was created at linking time, of course. +NEW LIST SIZES +NBHDSW 5.0 { Five is the default factor for sizing switch vector NBHDSW +DEFAULT 2.0 +BLANK +C 0 0 0 0 0 0 0 0 3400 13000 + 0 0 0 0 0 0 0 0 3540 13000 + 0 1750 + 240000 742 +ABSOLUTE TACS DIMENSIONS +C Expand TACS Table 1 from 57 to 130 on 1 April 2007. Copy use from DC-2 +C without worrying about probably waste that might be involved: +C 57 256 285 36 85 713 998 171 --- default + 130 65 80 20 70 325 120 115 +PRINTED NUMBER WIDTH, 13, 2, { Full precision on each of 8 columns of printout + .000100 .100 60. + 1 3 1 0 1 -1 + 5 15 50 50 200 100 +TACS HYBRID +C EXCITATION SYSTEM FOR THE COALSTRIP STEAM TURBINES. +C CONVERSION TO MACHINE PER UNIT SYSTEM, SQRT(3)*RF/LAF. + 0VF +EFO .01862 +C FEED FORWARD PATH + 1EF1 -VT +UNITY -EFFBL1 195.6 +1. +1. 1.3 + 1EFO +EF1 -4.13 4.13 +1. +1. .02 +C FEEDBACK PATH + 1EFFBL +EFO .164 +0. 1. +1. 1. +C SPEED GOVERNOR SYSTEM FOR COLSTRIP GENERATOR +C CONVERSION OMEGA PER UNIT SYSTEM + 0DIFOME -UNITY +TACOME + 0PS1 +UNITY -KDIFOM -PGV + 0PS2 +PS1 10. -.4 .4 + 0KDIFOM +DIFOME 20. + 1PGV +PS21 1.0 0. 1.1 + 1. + 1. + 1PGV1 +PGV 1. + 1. + 1. .25 + 1PGV2 +PGV1 1. + 1. + 1. 10. + 1PGV3 +PGV2 1. + 1. + 1. .5 + 0PMT +PM1 +PM2 +PM3 +C POWER SYSTEM STABLIZER (PSS) +C ADD SQUARED TERMINAL VOLTAGES + 0VMS +VSQA +VSQB +VSQC +C FILTER TERMINAL VOLTAGE + 1VT +VRMS +1. +1. .0133 +C EMTP PARAMETERS PASSED TO TACS +C TERMINAL VOLTAGE INPUTS +90CSGENA +90CSGENB +90CSGENC +C SHAFT SPEED INPUT +C SPEED SOURCE FOR TACS +92VEL1 +C COMPUTATIONS +C SQUARE ROOT OF SUM OF SQUARED TERMINAL VOLTAGES. +88VRMS SQRT VMS / 26000. +C SQUARE INSTANTANEOUS TERMINAL VOLTAGES. +99VSQA CSGENA* CSGENA +99VSQB CSGENB* CSGENB +99VSQC CSGENC* CSGENC +C UNITY INITIAL INPUT TO S.M., DIVIDE BY INITIAL VF. +98EFDPP 36.4528 * VF +88PM1 .274 * PGV1 +88EFFBL1 = EFFBL +88PS21 = PS2 +88PM2 .243 * PGV2 +88PM3 .483 * PGV3 +98FACTOR 1. * PMT +C SWITCH FOR FREE-FORMAT. +99TACOME = .002651* VEL1 +C FAST VALVING +33EFO VT VF EFDPP EFFBL UNITY EF1 +33DIFOMEPGV PS1 PMT VEL1 TACOMEKDIFOM +C INITIAL CONDITIONS +77EF1 1.4730 +77EFO 1.4730 +77VT 1.0 +77VRMS 1.0 +77EFDPP 1.0 +77EFFBL 0.0 +77PS1 0. +77PGV 1. +77PGV1 1. +77PGV2 1. +77PGV3 1. +77PMT 1. +77TACOME 1. +77VEL1 376.99 +BLANK card ending all TACS data +C ** SOURCE IMPEDANCE CARDS **** + 0SOA BEGINA .001 1 + 0SOB BEGINB .001 1 + 0SOC BEGINC .001 1 + 0V2A HSA 36. 1 + 0V2B HSB 36. 1 + 0V2C HSC 36. 1 +C LOAD AT THE RECEIVING END +C ** SOURCE IMPEDANCE CARDS **** +C SOURCE IMPEDANCE CARDS +C SWITCH SHUNTS + 0GA G1A .001 + 0GB G1B .001 + 0GC G1C .001 + 0GA G5A .001 + 0GB G5B .001 + 0GC G5C .001 +C 100MVAR SHUNT REACTORS + 0BEGINA 7.0 3025. + 0BEGINB 7.0 3025. + 0BEGINC 7.0 3025. + 0BVA 7.0 3025. + 0BVB 7.0 3025. + 0BVC 7.0 3025. + 014A 7.0 3025. + 014B 7.0 3025. + 014C 7.0 3025. + 0HSA 7.0 3025. + 0HSB 7.0 3025. + 0HSC 7.0 3025. +C 225 MVAR SHUNT REACTORS + 05A 3.0 1344. + 05B 3.0 1344. + 05C 3.0 1344. + 0G4A 3.0 1344. + 0G4B 3.0 1344. + 0G4C 3.0 1344. +C SHUNT REACTORS 100 MVAR + 0BEGINA 7.0 3025. + 0BEGINB 7.0 3025. + 0BEGINC 7.0 3025. + 0BVA 7.0 3025. + 0BVB 7.0 3025. + 0BVC 7.0 3025. +C * 225 MVAR + 05AA 3.0 1344. + 05BB 3.0 1344. + 05CC 3.0 1344. + 0G8A 3.0 1344. + 0G8B 3.0 1344. + 0G8C 3.0 1344. +C * 100 MVAR + 014AA 7.0 3025. + 014BB 7.0 3025. + 014CC 7.0 3025. + 0HSA 7.0 3025. + 0HSB 7.0 3025. + 0HSC 7.0 3025. +C 25- MILE SECTION CARDS. For data, see normally unused bottom on DCNEW-5. +C <++++++> Cards punched by support routine on 25-Nov-89 01.41.53 <++++++> +C JMARTI SETUP, 1.0, { Note use of PDT0 = 1 to allow reduction of ord +C BRANCH BEGINA1A BEGINB1B BEGINC1C +C LINE CONSTANTS +C 1.375 .0776 4 1.302 - 15.3 47.8 47.8 +C 1.375 .0776 4 1.302 - 16.2 48.8 48.8 +C 1.375 .0776 4 1.302 - 14.5 48.8 48.8 +C 2.375 .0776 4 1.302 0.0 76.8 76.8 +C 2.375 .0776 4 1.302 - 0.8 77.8 77.8 +C 2.375 .0776 4 1.302 + 0.8 77.8 77.8 +C 3.375 .0776 4 1.302 + 15.3 47.8 47.8 +C 3.375 .0776 4 1.302 + 14.5 48.8 48.8 +C 3.375 .0776 4 1.302 + 16.2 48.8 48.8 +C 0.5 3.56 4 0.495 - 12.0 109.3 109.3 +C 0.5 3.56 4 0.495 12.0 109.3 109.3 +C BLANK card ending conductor cards of imbedded "LINE CONSTANTS" data +C 100. 1000. 1 25.00 1 1 +C 100. 60. 1 25.00 1 1 +C 100. .001 1 25.00 1 9 10 1 +C BLANK card ending frequency cards of inbedded "LINE CONSTANTS" data +C BLANK card ending "LINE CONSTANTS" cases (back to "JMARTI SETUP") +C C 3456789012345678901234567890123456789012345678901234567890123456789012345678 +C C LECT +0 -3 +C 1 +C C .30 30 0 1 1 0 0 +C C .30 30 0 1 1 0 0 .0 +C .30 30 0 1 3 0 0 +-1BEGINA1A 2. 1.00 -2 3 + 14 0.47293192457610910000E+03 + -0.692872546664471400E+00 -0.289997290946665200E+01 -0.642465234009757800E+01 + -0.263126866758512600E+02 -0.112197664116317600E+03 0.120003724331559200E+04 + 0.534855106416246700E+04 0.265735664895556200E+05 0.102299437025596100E+06 + 0.378064088036946100E+06 0.132921127921708400E+07 0.513934786170517100E+07 + 0.925674681170112800E+07 0.288450507277665100E+08 + 0.193740761292982800E+00 0.845745890606555900E+00 0.158002669592290500E+01 + 0.166026211278831900E+01 0.245330041260623900E+01 0.189362602308108900E+02 + 0.114161260221103000E+03 0.603227605191941700E+03 0.248970479870548400E+04 + 0.984189709230105300E+04 0.371843313566798500E+05 0.154256975765183100E+06 + 0.584765486140849700E+06 0.189661890222411100E+07 + 16 0.14611089425809670000E-03 + 0.321843918913226800E+00 0.162311293633336900E+01 0.215973805406543600E+01 + 0.469951431259633000E+01 0.327308002733053700E+02 0.452437760931982100E+02 + 0.328756421277238100E+03 0.200177420834287000E+04 -0.354515696612718900E+04 + 0.155705219977707800E+05 0.151221170895251900E+05 0.106915368104621200E+06 + -0.344719217999650700E+08 0.341080435346218900E+08 0.184594442012013500E+08 + -0.182320460954986800E+08 + 0.120261736819556900E+03 0.586377706864171600E+03 0.785729396647819200E+03 + 0.153582968615116900E+04 0.292216408325832800E+04 0.197211684817117800E+04 + 0.646946699809216000E+04 0.153758728646538300E+05 0.336431053557711100E+05 + 0.298806156726226600E+05 0.626456551850810500E+05 0.108192223183447900E+06 + 0.203944809477644400E+06 0.204148754287121900E+06 0.227695290201973200E+06 + 0.227922985492175000E+06 +-2BEGINB1B 2. 1.00 -2 3 + 11 0.24662476420370340000E+03 + 0.768995655381981900E+03 0.357946515159924200E+03 0.605800489377626000E+03 + 0.115846813162034100E+03 0.601598942354618800E+02 0.129603353249450600E+03 + 0.124322546275003900E+03 0.590000752707421200E+02 0.220555895798305100E+04 + 0.157374743868763000E+05 0.852520795579153100E+06 + 0.260905187905774000E+01 0.411855521834657500E+01 0.771404316437598300E+01 + 0.110187727317372200E+02 0.139680485049492400E+02 0.240091291541332100E+02 + 0.394513496124981500E+02 0.678919942549256600E+02 0.217073311495445300E+04 + 0.155198039317144100E+05 0.843266115513732800E+06 + 10 0.13423855276504470000E-03 + 0.156109695496983100E+02 0.207664299896075400E+03 0.253250298139870400E+03 + 0.182704839566228600E+03 0.247234491946191700E+04 0.330281306977220200E+05 + 0.979732483249094900E+05 0.551807975650099700E+05 0.155746415195975200E+07 + 0.651738564168535400E+06 + 0.379023174699368500E+04 0.493260943720562800E+05 0.620894169605181600E+05 + 0.411709275865929300E+05 0.140741388619576300E+06 0.563969432263966900E+06 + 0.731398783309924900E+06 0.828090639159713400E+06 0.285651731185617700E+07 + 0.406516792268231300E+07 +-3BEGINC1C 2. 1.00 -2 3 + 11 0.25189000703436050000E+03 + 0.705625882215074600E+03 0.480037666605113300E+03 0.523476975958925000E+03 + 0.101303478940912900E+03 0.730107254632987800E+02 0.135394935113372000E+03 + 0.117137840471522300E+03 0.558311320674074200E+02 0.124472273810087900E+03 + 0.627682104800954300E+04 0.240980689874141800E+06 + 0.256960827808081800E+01 0.435244353197636700E+01 0.749429585075439400E+01 + 0.106024369367294000E+02 0.138594221660724100E+02 0.239678957610427000E+02 + 0.375429307533879400E+02 0.639863500328914500E+02 0.130791036571128600E+03 + 0.615083978087696500E+04 0.237064293040221300E+06 + 14 0.13539861053437450000E-03 + 0.269179702767214200E+01 0.210140414716693800E+02 0.764589314809415700E+02 + 0.110678295975407300E+03 0.129037590729584400E+03 0.154905865724887900E+03 + 0.973468183688154800E+02 0.125397291104907200E+03 0.946997596373924000E+04 + 0.324310548935950100E+05 0.405933736771673600E+05 0.230683862157762600E+06 + -0.173236283555902400E+07 0.619672413081824600E+07 + 0.127520846547645700E+04 0.991859082931559900E+04 0.352599882601353600E+05 + 0.470219434319579600E+05 0.598736861767069000E+05 0.738954426067940100E+05 + 0.481920080235604800E+05 0.616738461673569000E+05 0.420313332159116900E+06 + 0.921318128971279800E+06 0.557714717553727900E+06 0.169631694566225400E+07 + 0.116008957300778400E+08 0.716479108546823500E+07 + 0.59100946 0.70710678 -0.40296093 + 0.00000000 0.00000000 0.00000000 + 0.54901333 0.00000000 0.82173291 + 0.00000000 0.00000000 0.00000000 + 0.59100946 -0.70710678 -0.40296093 + 0.00000000 0.00000000 0.00000000 +-11A 2A BEGINA1A +-21B 2B +-31C 2C +-12A 3A BEGINA1A +-22B 3B +-32C 3C +-13A 4A BEGINA1A +-23B 4B +-33C 4C +-14A C1A BEGINA1A +-24B C1B +-34C C1C + 0C1A BVA .001 138. + 0C1B BVB .001 138. + 0C1C BVC .001 138. + 0C2A G4A .001 70. + 0C2B G4B .001 70. + 0C2C G4C .001 70. + 0C3A 14A 128. + 0C3B 14B 128. + 0C3C 14C 128. + 0C4A BVA C1A BVA + 0C4B BVB C1A BVA + 0C4C BVC C1A BVA + 0C5A G8A C2A G4A + 0C5B G8B C2A G4A + 0C5C G8C C2A G4A +-15A 6A BEGINA1A +-25B 6B +-35C 6C +-16A 7A BEGINA1A +-26B 7B +-36C 7C +-17A 8A BEGINA1A +-27B 8B +-37C 8C +-18A 9A BEGINA1A +-28B 9B +-38C 9C +-19A 10A BEGINA1A +-29B 10B +-39C 10C +-110A 11A BEGINA1A +-210B 11B +-310C 11C +-111A 12A BEGINA1A +-211B 12B +-311C 12C +-112A 13A BEGINA1A +-212B 13B +-312C 13C +-113A C2A BEGINA1A +-213B C2B +-313C C2C +-1C3A 15A BEGINA1A +-2C3B 15B +-3C3C 15C +-115A 16A BEGINA1A +-215B 16B +-315C 16C +-116A 17A BEGINA1A +-216B 17B +-316C 17C +-117A 18A BEGINA1A +-217B 18B +-317C 18C +-118A HSA BEGINA1A +-218B HSB +-318C HSC +C SECOND CIRCUIT +-1BEGINA1AA BEGINA1A +-2BEGINB1BB +-3BEGINC1CC +-11AA 2AA BEGINA1A +-21BB 2BB +-31CC 2CC +-12AA 3AA BEGINA1A +-22BB 3BB +-32CC 3CC +-13AA 4AA BEGINA1A +-23BB 4BB +-33CC 4CC +-14AA C4A BEGINA1A +-24BB C4B +-34CC C4C +-15AA 6AA BEGINA1A +-25BB 6BB +-35CC 6CC +-16AA 7AA BEGINA1A +-26BB 7BB +-36CC 7CC +-17AA 8AA BEGINA1A +-27BB 8BB +-37CC 8CC +-18AA 9AA BEGINA1A +-28BB 9BB +-38CC 9CC +-19AA 10AA BEGINA1A +-29BB 10BB +-39CC 10CC +-110AA 11AA BEGINA1A +-210BB 11BB +-310CC 11CC +-111AA 12AA BEGINA1A +-211BB 12BB +-311CC 12CC +-112AA 13AA BEGINA1A +-212BB 13BB +-312CC 13CC +-113AA C5A BEGINA1A +-213BB C5B +-313CC C5C +C NO SERIES CAPS ON THE SECOND CKT OF GARRISON-HS LINE +-114AA 15AA BEGINA1A +-214BB 15BB +-314CC 15CC +-115AA 16AA BEGINA1A +-215BB 16BB +-315CC 16CC +-116AA 17AA BEGINA1A +-216BB 17BB +-316CC 17CC +-117AA 18AA BEGINA1A +-217BB 18BB +-317CC 18CC +-118AA HSA BEGINA1A +-218BB HSB +-318CC HSC +C LINE SHUNTS + 0BVA 5AA .001 1 + 0BVB 5BB .001 1 + 0BVC 5CC .001 1 +C 1 CKT GAR-HS LINE OUT + 0SA 5A 600. + 0SB 5B 600. + 0SC 5C 600. + 0SA S1A .001 + 0SB S1B .001 + 0SC S1C .001 + 0S2A 14A 600. + 0S2B 14B 600. + 0S2C 14C 600. + 0S2A S3A .001 + 0S2B S3B .001 + 0S2C S3C .001 + 0G2A G4A 600. + 0G2B G4B 600. + 0G2C G4C 600. + 0G2A G3A .001 + 0G2B G3B .001 + 0G2C G3C .001 + 0G6A G8A 600. + 0G6B G8B 600. + 0G6C G8C 600. + 0G6A G7A .001 + 0G6B G7B .001 + 0G6C G7C .001 + TRANSFORMER 2.0 1140. T1A 1.E5 +.188 912. +.6 1026. +1.5 1106. +3.0 1163. +6.0 1208. +11.4 1244. +21. 1277. +50. 1300. +250. 1350. + 9999 + 1BVA .1 35.6 429. + 2BVS2A .1 .001 188. + 3TER1A TER1B .1 .071 13.8 + TRANSFORMER T1A T1B + 1BVB + 2BVS2B + 3TER1B TER1C + TRANSFORMER T1A T1C + 1BVC + 2BVS2C + 3TER1C TER1A + TRANSFORMER T1A T2A + 1GAA + 2GAS2A + 3TER2A TER2B + TRANSFORMER T1A T2B + 1GAB + 2GAS2B + 3TER2B TER2C + TRANSFORMER T1A T2C + 1GAC + 2GAS2C + 3TER2C TER2A +C *****GENERATOR TRANSFORMER********************* + TRANSFORMER 236.9 97.5T3A 1.E+5 + 67.8 87.8 +236.9 97.5 +504.5 107.3 + 9999 + 1CSIA CSIB .0001 .001 26. + 2SOA .0001 34.57 317. + TRANSFORMER T3A T3B + 1CSIB CSIC + 2SOB + TRANSFORMER T3A T3C + 1CSIC CSIA + 2SOC + TRANSFORMER T3A T3D + 1CSGN1ACSGN1B + 2SOA + TRANSFORMER T3A T3E + 1CSGN1BCSGN1C + 2SOB + TRANSFORMER T3A T3F + 1CSGN1CCSGN1A + 2SOC +C *********************************************** + 0CSIA .1 + 0CSIB .1 + 0CSIC .1 + 0CSGN1A .1 + 0CSGN1B .1 + 0CSGN1C .1 +C *********************************************** + 0 BVS2A 529. + 0 BVS2B 529. + 0 BVS2C 529. + 0TER1A 9500. + 0TER1B 9500. + 0TER1C 9500. + 0 GAS2A 400. + 0 GAS2B 400. + 0 GAS2C 400. + 0TER2A 9500. + 0TER2B 9500. + 0TER2C 9500. +BLANK card ending branch cards + BVA SA -1. 1. + BVB SB -1. 1. + BVC SC -1. 1. + S1A 5A -1. 1. + S1B 5B -1. 1. + S1C 5C -1. 1. + GA S2A -1. 1.0 + GB S2B -1. 1.0 + GC S2C -1. 1.0 + S3A 14A -1. .085 + S3B 14B -1. .085 + S3C 14C -1. .085 + G1A G2A -1. 1.30 + G1B G2B -1. 1.030 + G1C G2C -1. 1.030 + G3A G4A -1. 1.010 + G3B G4B -1. 1.010 + G3C G4C -1. 1.010 + G5A G6A -1. 1.34 + G5B G6B -1. 1.034 + G5C G6C -1. 1.034 + G7A G8A -1. 1.014 + G7B G8B -1. 1.014 + G7C G8C -1. 1.014 + C3A .01695 1. +C *******MEASURING COALSTRIP GENERATOR ARMATURE CURRENT******* + CSGENACSIA MEASURING 1 + CSGENBCSIB MEASURING 1 + CSGENCCSIC MEASURING 1 +C ************************************************************ +BLANK card ending switch cards +C * +C * +14V2A 452000. 60. -10. -1. +14V2B 452000. 60. -130. -1. +14V2C 452000. 60. 110. -1. +59CSGENA 21229. 60. .0 + CSGENB + CSGENC +TOLERANCES 20 +PARAMETER FITTING 2.+00 + 1 1 2 819.0 26.0 1600. +BLANK CARD INDICATING NO SATURATION OF Q-AXIS OF MACHINE + .0013 .1284 1.236 1.222 .2197 .3482 .1776 .1742 + 4.78 .53 .041 .067 .0861 + 1 1.0 1.070 0.0 0.0 +BLANK card + 51 + 1 1 2 3 4 11 14 + 1 8 9 10 + 21 + 31 +BLANK CARD +71EFDPP +72FACTOR 1 +74VEL1 2 + FINISH +59CSGN1A 21229. 60. 0.0 + CSGN1B + CSGN1C +PARAMETER FITTING 2.+00 + 1 1 2 819.0 26.0 1600. +BLANK CARD INDICATING NO SATURATION OF Q-AXIS OF MACHINE + .0013 .1284 1.236 1.222 .2197 .3482 .1776 .1742 + 4.78 .53 .041 .067 .0861 + 1 1.0 1.070 0.0 0.0 +BLANK + 51 + 1 1 2 3 4 11 14 + 1 8 9 10 + 21 + 31 +BLANK CARD +71EFDPP +72FACTOR 1 +C BECAUSE THE TWO GENERATORS HAVE THE SAME SPEED IT IS NOT +C NECESSARY TO USE THE SPEED OF THE SECOND GENERATOR AS TACS SOURC + FINISH +C --------------+------------------------------ +C From bus name | Names of all adjacent busses. +C --------------+------------------------------ +C SOA |TERRA *TERRA *BEGINA* +C BEGINA |TERRA *TERRA *SOA *1A *1AA * +C SOB |TERRA *TERRA *BEGINB* +C BEGINB |TERRA *TERRA *SOB *1B *1BB * +C SOC |TERRA *TERRA *BEGINC* +C BEGINC |TERRA *TERRA *SOC *1C *1CC * +C V2A |HSA * +C .... Etc. (many more rows) +BLANK card ending source cards +C Total network loss P-loss by summing injections = 1.435490932846E+08 +C MACH 1 Data parameters and initial conditions of next machine ..... +C "CSGENA" Unit 1 +C Id Iq Io +C -2.09832081140E+04 1.82690972572E+04 8.06549008735E-10 +C Field current of the generator in units ... Total dc component +C 2.4585598153E+03 2.4539876356E+03 +C Electromechanical torque of the generator ... total dc component +C 1.9154270026E+00 1.8933493498E+00 +C ---- Initial flux of coil "T1A " to " " = 3.74851587E+02 +C ---- Initial flux of coil "T1B " to " " = -1.16312212E+03 +C Warning. Preceding flux exceeds the 1st segment. This means that the stead +C ---- Initial flux of coil "T1C " to " " = 7.91924375E+02 +C ---- Initial flux of coil "T3A " to "CSIB " = 4.87345928E+01 +C ---- Initial flux of coil "T3B " to "CSIC " = -9.75282819E+01 +C Warning. Preceding flux exceeds the 1st segment. This means that the stead +C ---- Initial flux of coil "T3C " to "CSIA " = 4.87941256E+01 +C ---- Initial flux of coil "T3D " to "CSGN1B" = 4.87345928E+01 +C ---- Initial flux of coil "T3E " to "CSGN1C" = -9.75282819E+01 +C Warning. Preceding flux exceeds the 1st segment. This means that the stead +C ---- Initial flux of coil "T3F " to "CSGN1A" = 4.87941256E+01 + BEGINABEGINBBEGINC + BVA BVB BVC GA GB GC + G4A G4B G4C G8A G8B G8C + C2A C2B C2C 10A 10B 10C 6A 6B 6C + C5A C5B C5C 10AA 10BB 10CC 6AA 6BB 6CC + CSIA CSIB CSIC CSGN1ACSGN1BCSGN1CSOA SOB SOC +C Step Time BEGINA BEGINB BEGINC BVA BVB +C +C +C GC G4A G4B G4C G8A +C +C +C C2B C2C 10A 10B 10C +C +C +C C5A C5B C5C 10AA 10BB +C +C +C 6CC CSIA CSIB CSIC CSGN1A +C +C +C SOB SOC CSGENA CSGENB CSGENC +C CSIA CSIB CSIC +C +C V2A V2B V2C BVA BVB +C HSA HSB HSC 5AA 5BB +C +C MACH 1 MACH 1 MACH 1 MACH 1 MACH 1 +C I0 IF IA IB IC +C +C MACH 1 MACH 2 MACH 2 MACH 2 MACH 2 +C VEL 1 ID IQ I0 IF +C +C MACH 2 MACH 2 MACH 2 MACH 2 TACS +C EFD TQ GEN ANG 1 VEL 1 EFO +C +C TACS TACS TACS TACS TACS +C EFFBL UNITY EF1 DIFOME PGV +C +C TACS TACS +C TACOME KDIFOM +C *** Phasor I(0) = 9.3141980E+02 Switch "BVA " to "SA " closed +C *** Phasor I(0) = -2.1484379E+02 Switch "BVB " to "SB " closed +C *** Phasor I(0) = -7.3079055E+02 Switch "BVC " to "SC " closed +C *** Phasor I(0) = 9.3142027E+02 Switch "S1A " to "5A " closed +C *** Phasor I(0) = -2.1484535E+02 Switch "S1B " to "5B " closed +C *** Phasor I(0) = -7.3078946E+02 Switch "S1C " to "5C " closed +C *** Phasor I(0) = 1.8917593E+03 Switch "GA " to "S2A " closed +C *** Phasor I(0) = -7.0729311E+02 Switch "GB " to "S2B " closed +C *** Phasor I(0) = -1.1803057E+03 Switch "GC " to "S2C " closed +C *** Phasor I(0) = 1.8917596E+03 Switch "S3A " to "14A " closed +C *** Phasor I(0) = -7.0729599E+02 Switch "S3B " to "14B " closed +C *** Phasor I(0) = -1.1803032E+03 Switch "S3C " to "14C " closed +C *** Phasor I(0) = -9.4587964E+02 Switch "G1A " to "G2A " closed +C *** Phasor I(0) = 3.5364656E+02 Switch "G1B " to "G2B " closed +C *** Phasor I(0) = 5.9015285E+02 Switch "G1C " to "G2C " closed +C *** Phasor I(0) = -9.4587982E+02 Switch "G3A " to "G4A " closed +C *** Phasor I(0) = 3.5364800E+02 Switch "G3B " to "G4B " closed +C *** Phasor I(0) = 5.9015160E+02 Switch "G3C " to "G4C " closed +C *** Phasor I(0) = -9.4587964E+02 Switch "G5A " to "G6A " closed +C *** Phasor I(0) = 3.5364656E+02 Switch "G5B " to "G6B " closed +C *** Phasor I(0) = 5.9015285E+02 Switch "G5C " to "G6C " closed +C *** Phasor I(0) = -9.4587982E+02 Switch "G7A " to "G8A " closed +C *** Phasor I(0) = 3.5364800E+02 Switch "G7B " to "G8B " closed +C *** Phasor I(0) = 5.9015160E+02 Switch "G7C " to "G8C " closed +C *** Phasor I(0) = 2.2639721E+04 Switch "CSGENA" to "CSIA " closed +C *** Phasor I(0) = -1.2935334E+04 Switch "CSGENB" to "CSIB " closed +C *** Phasor I(0) = -9.7043863E+03 Switch "CSGENC" to "CSIC " closed +C 0 0.0 404269.4395 -36345.7247 -367765.459 424359.4611 -84333.1188 +C -289436.093 451772.5587 -159713.498 -289437.588 451772.5587 +C -187973.815 -252930.485 447042.9429 -145948.56 -298112.48 +C 443329.9408 -187973.815 -252930.485 447042.9429 -145948.56 +C -331794.91 21229. -10614.5 -10614.5 21229. +C -36343.631 -367766.638 22639.72062 -12935.3343 -9704.38629 +C -1927.84839 998.3131661 907.993979 931.4197995 -214.843795 +C .806549E-9 2458.559762 22639.72062 -12935.3343 -9704.38629 +C -.002099483 -20983.2062 18269.09946 -.134425E-8 2458.559762 +C -428.682116 1.91542705 134.2452118 -.002099483 1.473 +C 0.0 1.0 1.473 0.0 1.0 +C 1.0 0.0 +C 1 .1E-3 397129.7612 -20133.32 -376846.599 418465.6003 -67710.5661 +C -302506.957 448484.4919 -143505.185 -302508.399 448484.4919 +C -172703.477 -266495.267 443279.2437 -129655.083 -310805.237 +C 441481.0763 -172703.477 -266495.267 443279.2437 -129655.083 +C -343039.501 21237.96722 -10136.0111 -11101.9561 21237.96722 +C -20131.4818 -376847.601 22692.68415 -12202.5948 -10490.0893 +C -1930.51013 937.527959 970.8510997 920.1216638 -179.573848 +C -.31225E-10 2458.019684 22692.68415 -12202.5948 -10490.0893 +C -.006347691 -20963.4593 18287.60729 -.45505E-10 2458.019684 +C -428.682116 1.915678723 134.2451876 -.006347691 1.472999717 +C -.463451E-7 1.0 1.472886675 -.613373E-3 1.0 +C .9993866272 -.012267455 +BLANK card ending program output variables (just node voltages, here) +C *** Open switch "S3B " to "14B " after 9.23000000E-02 sec. +C 1000 0.1 456587.9539 72810.69446 -528451.693 518738.6488 36108.45381 +C -580084.928 558077.5006 -89099.3773 -580088.607 558077.5006 +C -82089.0245 -595679.834 559039.9578 -24740.4007 -590969.55 +C 554457.9176 -82089.0245 -595679.834 559039.9578 -24740.4007 +C -563417.016 24790.5224 -9299.2942 -15491.2282 24790.5224 +C 72810.84876 -528449.542 4177.258464 9977.667495 -14154.926 +C -899.895095 -123.78439 364.4939864 -20.5855009 671.1300102 +C -.325876E-9 1692.849684 4177.258464 9977.667495 -14154.926 +C .5571416296 8388.658546 15716.096 -.325264E-9 1692.849684 +C -541.656604 .5784421055 135.2190602 .5571416296 1.862272185 +C .0620160273 1.0 1.931667198 .8804374E-3 1.000154281 +C 1.000880437 .0176087484 + PRINTER PLOT + 194 4. 12. 50. MACH 1TQ GEN { Axis limits: (-0.316, 3.238) + 194 4. 12. 50. MACH 2VEL 1 { Axis limits: (-0.835, 2.206) +BLANK card ending plot cards +BEGIN NEW DATA CASE +BLANK -- cgit v1.2.3