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authorAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
committerAngelo Rossi <angelo.rossi.homelab@gmail.com>2023-06-21 12:04:16 +0000
commitb18347ffc9db9641e215995edea1c04c363b2bdf (patch)
treef3908dc911399f1a21e17d950355ee56dc0919ee /benchmarks/dcn13.dat
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+BEGIN NEW DATA CASE
+C BENCHMARK DCNEW-13
+C 1st of 6 test cases that generate data for Noda F-dependence of DCN-14
+C Like TAKU12, only here 200 miles long for DC-38 (not 180 as for DC-3).
+C Use only 1 phase of 3-phase, 500-kV line --- Phase 1, plus closest
+C ground wire. This gives Noda approximation for use with DC-37.
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's ARMA model fitter. No printout of F-scan
+DCN14A.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+C =============================================================================
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+C * This time, only "HOMOGENEOUS LINE" is available. This means
+C homogeneous, frequency-dependent transmission line.
+C * More options will be add in the future, for example, "CORONA LINE"
+C with nonlinear corona branches inside the line model, and
+C "CREAT LINE" with creat capacitances inside the line model.
+C == Fitting Parameters =======================================================
+ 50.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 2.0 { error constants: EpsA, EpsM1, EpsM2 in percent
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+NO SYMMETRY { pair(s) of phases having symmetry (here, none)
+C -----------------------------------------------------------------------------
+C * The fitting parameter part consists of 4 lines.
+C * ARMAfit will determin the best order for each phase in the range
+C specified in the above. The recommended values are :
+C 4, 12 for voltage deformation matrix [H]
+C 1, 6 for characteristic admittance matrix [Y0]
+C Too big order does not give accurate fitting and stability.
+C * The meaning of the error constants above is as follows :
+C EpsA : permitted error in the stage of Least-Square fitting
+C EpsM1 : error determining modal traveling timings
+C EpsM2 : error detecting dominant modes in each phase response
+C The recommended values are :
+C EpsA = 3.0 %, EpsM1 = 0.5 %, EpsM2 = 2.0 %
+C Too small value does not give accurate fitting, because the line
+C parameters given by CABLE PARAMETERS, CABLE CONSTANTS, or LINE
+C CONSTANTS include errors due to many approximations, assumptions,
+C and numerical calculations. An ARMA model does not reproduce
+C a frequency characteristic which cannot exist physically.
+C * If phase #1 and #3 have symmetry regarding to the center line of
+C the line configuration, we can specify as the above, and then
+C ARMAfit will take care of the symmetry to reduce the fitting time.
+C If more than 2 pairs of phases have symmetry, we can specify as
+C follows : 1, 4 2, 5 3, 6 { three pairs.
+C * The next part will be the frequency scan from CABLE PARAMETERS,
+C CABLE CONSTANTS, or LINE CONSTANTS.
+C =============================================================================
+NODA SETUP END { Bound of fitter data; begin CABLE PARAMETERS data
+LINE CONSTANTS
+BRANCH GEN-A 18-A GEN-B 18-B GEN-C 18-C
+C LINE CONSTANTS DATA FOR JOHN DAY TO LOWER MONUMENTAL 500-KV LINE.
+ 1.3636 .05215 4 1.602 -20.75 50. 50.
+ 1.3636 .05215 4 1.602 -19.25 50. 50.
+ 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+BLANK card ending conductor cards of imbedded "LINE CONSTANTS" data
+C 100. 5000. 180. 1 1
+C 100. 60.00 180. 1 1
+C 100. .01 180. 1 9 10 1
+100. 10. 200. 1 3 10 1
+100. 1.E6 200. 1 1
+BLANK card ending frequency cards of inbedded "LINE CONSTANTS" data
+C At this point, disk file DCN14A.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14A.DAT) for branch cards of DCN14.DAT
+BLANK card ending "LINE CONSTANTS" cases
+BEGIN NEW DATA CASE
+C 2nd of 6 subcases
+C 1994-1995, this was at end of DC-27. This is for a single-phase
+C cable (core and sheath). Cable data came from CESI (see DCNEW-6).
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's ARMA model fitter. No printout of F-scan
+DCN14B.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+C -1. { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 3.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 3.0 { error constants: EpsA, EpsM1, EpsM2 in percent --- out 3 Dec 95
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+NO SYMMETRY { pair(s) of phases having symmetry (here, none)
+NODA SETUP END { Bound of fitter data; begin CABLE PARAMETERS data
+CABLE CONSTANTS
+CABLE PARAMETERS { Transfer to new (August, 1994) cable constants code
+C MISCELLANEOUS DATA CARD
+ 2 -1 1 0 1 0 0 0
+C CARDS INDICATING NUMBER OF CONDUCTORS PER SC COAXIAL CABLE
+ 2
+C GEOMETRICAL AND PHYSICAL DATA CARDS
+ .0206 .02865 .06395 .0689 .0775
+ 1.775E-8 1. 1. 3.5 9.1E-8 1. 1. 2.25
+C CROSS-SECTION LOCATION CARD
+ 1.05 0.
+C EARTH RESISTIVITY AND FREQUENCY CARDS
+ 300. 1. 6 10 600.
+ 300. 1.E8 600.
+BLANK card ending frequency cards within CABLE PARAMETERS
+C At this point, disk file DCN14B.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14B.DAT) for branch cards of DCN14.DAT
+BLANK card ending "CABLE CONSTANTS" data cases
+BEGIN NEW DATA CASE
+C BENCHMARK DCNEW-13
+C 3rd of 6 subcases
+C Generate data to represent 180-miles of BPA 500-kV overhead line as studied
+C in DC-3. Output is used within DCNEW-14 which repeats the
+C simulation using Taku Noda's frequency dependence rather than 18 Pi-circuits
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's ARMA model fitter. No printout of F-scan
+DCN14C.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+C =============================================================================
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+ 50.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 2.0 { error constants: EpsA, EpsM1, EpsM2 in percent
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+ 1, 3 { pair(s) of phases having symmetry <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
+NODA SETUP END { Bound of fitter data; begin CABLE PARAMETERS data
+C --- 1st, look at the LINE CONSTANTS data for John Day to Lower Monumental
+C This is 500-kV, so use for DC-3 (close enough for government work):
+C 1.3636 .05215 4 1.602 -20.75 50. 50.
+C 1.3636 .05215 4 1.602 -19.25 50. 50.
+C 2.3636 .05215 4 1.602 -0.75 77.5 77.5
+C 2.3636 .05215 4 1.602 0.75 77.5 77.5
+C 3.3636 .05215 4 1.602 19.25 50. 50.
+C 3.3636 .05215 4 1.602 20.75 50. 50.
+C 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+C
+C 27. 60. 1 138.
+C 27. 6.0 1 138. 7 20
+CABLE CONSTANTS
+CABLE PARAMETERS { Use for overhead line because of LINE CONSTANTS trouble
+ 1 2 1 0 1 0 0 0 0 0 0 0 { transposed line
+ 3 2 2 1
+2.03454E-2 .5550E-2 .49022E-2 0.0 .4572 0.0
+ 3.90E-8 1.0 12.24E-8 1.0 { rho = cross-sec. area * Rdc / l
+ 15.24 15.24 -6.096 23.622 23.622 0.
+ 15.24 15.24 6.096 30.0228 30.0228 -3.93192
+ 30.0228 30.0228 3.93192
+C Next come 2 frequency cards. The first loops over meaningful frequencies for
+C the line length (here 1 Hz through 100 kHz: 10 points/decade for 5 decades)
+C The second is for a single nearly-infinite frequency (here 100 MHz):
+ 27. 1.0 5 10 289682. { 180 miles is about 290 Km
+ 27. 1.E8 289682. { 2nd of 2 is for high freq
+BLANK card ending frequency cards within CABLE PARAMETERS
+C At this point, disk file DCN14C.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14C.DAT) for branch cards used by DCN14.DAT
+BLANK card ending CABLE CONSTANTS data subcases
+BEGIN NEW DATA CASE
+C 4th of 6 subcases
+C Generate data to represent 138-miles of BPA 500-kV overhead line as studied
+C in DC-31 and DC-41. Output is used within DCNEW-14 which repeats the
+C simulation using Taku Noda's frequency dependence rather than Hauer (DC-41)
+C or Semlyen (DC-31).
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's ARMA model fitter. No printout of F-scan
+DCN14D.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+ 20.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 2.0 { error constants: EpsA, EpsM1, EpsM2 in percent
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+ 1, 3 { pair(s) of phases having symmetry <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
+NODA SETUP END { Bound of fitter data; begin CABLE PARAMETERS data
+C --- 1st, look at the LINE CONSTANTS data for John Day to Lower Monumental
+C 1.3636 .05215 4 1.602 -20.75 50. 50.
+C 1.3636 .05215 4 1.602 -19.25 50. 50.
+C 2.3636 .05215 4 1.602 -0.75 77.5 77.5
+C 2.3636 .05215 4 1.602 0.75 77.5 77.5
+C 3.3636 .05215 4 1.602 19.25 50. 50.
+C 3.3636 .05215 4 1.602 20.75 50. 50.
+C 0.5 2.61 4 0.386 -12.9 98.5 98.5
+C 0.5 2.61 4 0.386 12.9 98.5 98.5
+C
+C 27. 60. 1 138.
+C 27. 6.0 1 138. 7 20
+CABLE CONSTANTS
+CABLE PARAMETERS { Use for overhead line because of LINE CONSTANTS trouble
+ 1 2 1 0 1 0 0 0 0 0 0 0 { transposed line
+ 3 2 2 1
+2.03454E-2 .5550E-2 .49022E-2 0.0 .4572 0.0
+ 3.90E-8 1.0 12.24E-8 1.0 { rho = cross-sec. area * Rdc / l
+ 15.24 15.24 -6.096 23.622 23.622 0.00
+ 15.24 15.24 6.096 30.0228 30.0228 -3.93192
+ 30.0228 30.0228 3.93192
+C Next come 2 frequency cards. The first loops over meaningful frequencies for
+C the line length (here 1 Hz through 100 kHz: 10 points/decade for 5 decades)
+C The second is for a single nearly-infinite frequency (here 100 MHz):
+ 27. 1.0 5 10 222089. { 138 miles is about 222 Km
+ 27. 1.E8 222089. { 2nd of 2 is for high freq
+BLANK card ending frequency cards within CABLE PARAMETERS
+C At this point, disk file DCN14D.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14D.DAT) for branch cards used by DCN14.DAT
+BLANK card ending CABLE CONSTANTS data subcases
+BEGIN NEW DATA CASE
+C 5th of 6 subcases
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's fitter, for which data follows
+DCN14E.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+ 10.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 2.0 { error constants: EpsA, EpsM1, EpsM2 in percent
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+ 1, 6, 2, 5, 3, 4 { pair(s) of phases having symmetry <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
+NODA SETUP END { Bound of fitter data; begin CABLE PARAMETERS data
+C At this point, we have LINE CONSTANTS data, so would like to use this.
+C But, it is not smooth enough for Noda, so use CABLE PARAMETERS
+C approximate equivalent of the following:
+C COULEE-RAVER 500-KV
+C 1.3636 .05215 4 1.602 -17.1875 49.06
+C 1.3636 .05215 4 1.602 -18.25 48.0
+C 1.3636 .05215 4 1.602 -19.3125 49.06
+C 2.3636 .05215 4 1.602 -27.1875 85.06
+C 2.3636 .05215 4 1.602 -28.25 84.0
+C 2.3636 .05215 4 1.602 -29.3125 85.06
+C 3.3636 .05215 4 1.602 -17.1875 121.06
+C 3.3636 .05215 4 1.602 -18.25 120.0
+C 3.3636 .05215 4 1.602 -19.3125 121.06
+C 4.3636 .05215 4 1.602 17.1875 121.06
+C 4.3636 .05215 4 1.602 18.25 120.0
+C 4.3636 .05215 4 1.602 19.3125 121.06
+C 5.3636 .05215 4 1.602 27.1875 85.06
+C 5.3636 .05215 4 1.602 28.25 84.0
+C 5.3636 .05215 4 1.602 29.3125 85.06
+C 6.3636 .05215 4 1.602 17.1875 49.06
+C 6.3636 .05215 4 1.602 18.25 48.0
+C 6.3636 .05215 4 1.602 19.3125 49.06
+C 0.5 2.61 4 .386 -9.0 163.96
+C 0.5 2.61 4 .386 9.0 163.96
+CABLE CONSTANTS
+BRANCH A1 A2 B1 B2 C1 C2 A'1 A'2 B'1 B'2 C'1 C'2
+CABLE PARAMETERS
+ 1 0 1 0 1 0 0 0 0 0 0 0
+ 6 2 3 1
+2.03454E-2 .5550E-2 .49022E-2 0.0 .521 0.0
+C The data ".521 m" above is average separation of phase wires in the bundle
+C i.e., ( 1.501ft + 1.501ft + 2.125ft ) / 3 = 1.709 ft = .521 m
+C Data on the following card are resistivities and relative permeabilities
+C of phase wires and ground wires
+C 3.8995E-8 1.0 12.24E-8 1.0 { modified rho to match rho in double.dat
+ 2.92E-8 1.0 9.501E-8 1.0
+ 14.846 14.846 -5.563 25.819 25.819 -8.611
+ 36.791 36.791 -5.563 36.791 36.791 5.563
+ 25.818 25.819 8.611 14.846 14.846 5.563
+ 49.975 49.975 -2.743 49.975 49.975 2.743
+ 100. 1.0 6 10 80450. { 50 miles is about 80 Km
+ 100. 1.E8 80450. { 2nd of 2 is for high freq
+BLANK card ending frequency cards within CABLE PARAMETERS
+C At this point, disk file DCN14E.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14E.DAT) for branch cards used by DCN14.DAT
+BLANK card ending CABLE CONSTANTS data subcases
+BEGIN NEW DATA CASE
+C BENCHMARK DCNEW-13
+C 6th of 6 subcases
+C Generate data to represent 180-miles of BPA 500-kV overhead line as studied
+C in DC-3. Output is used within DCNEW-14 which repeats the
+C simulation using Taku Noda's frequency dependence rather than 18 Pi-circuits
+C NODA SETUP, 1, { Request Taku Noda's ARMA model fitter. 1 ==> F-scan printout
+NODA SETUP { Request Taku Noda's ARMA model fitter. No printout of F-scan
+DCN14F.CCC { Output file name (blank requests use of default TAKUNODA.CCC)
+C =============================================================================
+HOMOGENEOUS LINE { declares that this case is for a homogeneous line
+ 50.0E-6 { time step (if negative, optimum time step request) <<<<<<<<<<<<<
+ 4 12 { min and max orders for voltage deformation matrix [H]
+ 1 6 { min and max orders for characteristic admittance matrix [Y0]
+C 3.0 0.5 2.0 { error constants: EpsA, EpsM1, EpsM2 in percent
+ 1.0, 0.1, 3.0, 5 { error constants: EpsA, EpsM1, EpsM2 in %, MAX ITARATION <<<
+ 1, 3 { pair(s) of phases having symmetry <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
+NODA SETUP END { Bound of fitter data; begin LINE CONSTANTS data
+LINE CONSTANTS
+UNTRANSPOSED { Request conventional untransposed representation
+C --- 1st comes line geometry for John Day to Lower Monumental
+ 1.3636 .05215 4 1.602 -20.75 50. 50.
+ 1.3636 .05215 4 1.602 -19.25 50. 50.
+ 2.3636 .05215 4 1.602 -0.75 77.5 77.5
+ 2.3636 .05215 4 1.602 0.75 77.5 77.5
+ 3.3636 .05215 4 1.602 19.25 50. 50.
+ 3.3636 .05215 4 1.602 20.75 50. 50.
+ 0.5 2.61 4 0.386 -12.9 98.5 98.5
+ 0.5 2.61 4 0.386 12.9 98.5 98.5
+BLANK card ending conductor cards
+C Next come 2 frequency cards. The first loops over meaningful frequencies for
+C the line length (here 1 Hz through 100 kHz: 10 points/decade for 5 decades)
+C The second is for a single nearly-infinite frequency (here 100 MHz):
+ 27. 1.0 1 180. 5 10
+ 27. 1.E8 1 180.
+BLANK card ending frequency cards
+C At this point, disk file DCN14F.CCC has been created. This is input
+C to Taku Noda's fitter --- a separate Salford DBOS program that will
+C produce data (disk file DCN14F.DAT) for branch cards used by DCN14.DAT
+BLANK card ending LINE CONSTANTS data subcases
+
+
+
+