case30

CASE30    Power flow data for 30 bus, 6 generator case.
   Please see CASEFORMAT for details on the case file format.

   Based on data from ...
     Alsac, O. & Stott, B., "Optimal Load Flow with Steady State Security",
     IEEE Transactions on Power Apparatus and Systems, Vol. PAS 93, No. 3,
     1974, pp. 745-751.
   ... with branch parameters rounded to nearest 0.01, shunt values divided
   by 100 and shunt on bus 10 moved to bus 5, load at bus 5 zeroed out.
   Generator locations, costs and limits and bus areas were taken from ...
     Ferrero, R.W., Shahidehpour, S.M., Ramesh, V.C., "Transaction analysis
     in deregulated power systems using game theory", IEEE Transactions on
     Power Systems, Vol. 12, No. 3, Aug 1997, pp. 1340-1347.
   Generator Q limits were derived from Alsac & Stott, using their Pmax
   capacities. V limits and line |S| limits taken from Alsac & Stott.

0001 function mpc = case30
0002 %CASE30    Power flow data for 30 bus, 6 generator case.
0003 %   Please see CASEFORMAT for details on the case file format.
0004 %
0005 %   Based on data from ...
0006 %     Alsac, O. & Stott, B., "Optimal Load Flow with Steady State Security",
0007 %     IEEE Transactions on Power Apparatus and Systems, Vol. PAS 93, No. 3,
0008 %     1974, pp. 745-751.
0009 %   ... with branch parameters rounded to nearest 0.01, shunt values divided
0010 %   by 100 and shunt on bus 10 moved to bus 5, load at bus 5 zeroed out.
0011 %   Generator locations, costs and limits and bus areas were taken from ...
0012 %     Ferrero, R.W., Shahidehpour, S.M., Ramesh, V.C., "Transaction analysis
0013 %     in deregulated power systems using game theory", IEEE Transactions on
0014 %     Power Systems, Vol. 12, No. 3, Aug 1997, pp. 1340-1347.
0015 %   Generator Q limits were derived from Alsac & Stott, using their Pmax
0016 %   capacities. V limits and line |S| limits taken from Alsac & Stott.
0017 
0018 %   MATPOWER
0019 %   $Id: case30.m 2408 2014-10-22 20:41:33Z ray $
0020 
0021 %% MATPOWER Case Format : Version 2
0022 mpc.version = '2';
0023 
0024 %%-----  Power Flow Data  -----%%
0025 %% system MVA base
0026 mpc.baseMVA = 100;
0027 
0028 %% bus data
0029 %    bus_i    type    Pd    Qd    Gs    Bs    area    Vm    Va    baseKV    zone    Vmax    Vmin
0030 mpc.bus = [
0031     1    3    0    0    0    0    1    1    0    135    1    1.05    0.95;
0032     2    2    21.7    12.7    0    0    1    1    0    135    1    1.1    0.95;
0033     3    1    2.4    1.2    0    0    1    1    0    135    1    1.05    0.95;
0034     4    1    7.6    1.6    0    0    1    1    0    135    1    1.05    0.95;
0035     5    1    0    0    0    0.19    1    1    0    135    1    1.05    0.95;
0036     6    1    0    0    0    0    1    1    0    135    1    1.05    0.95;
0037     7    1    22.8    10.9    0    0    1    1    0    135    1    1.05    0.95;
0038     8    1    30    30    0    0    1    1    0    135    1    1.05    0.95;
0039     9    1    0    0    0    0    1    1    0    135    1    1.05    0.95;
0040     10    1    5.8    2    0    0    3    1    0    135    1    1.05    0.95;
0041     11    1    0    0    0    0    1    1    0    135    1    1.05    0.95;
0042     12    1    11.2    7.5    0    0    2    1    0    135    1    1.05    0.95;
0043     13    2    0    0    0    0    2    1    0    135    1    1.1    0.95;
0044     14    1    6.2    1.6    0    0    2    1    0    135    1    1.05    0.95;
0045     15    1    8.2    2.5    0    0    2    1    0    135    1    1.05    0.95;
0046     16    1    3.5    1.8    0    0    2    1    0    135    1    1.05    0.95;
0047     17    1    9    5.8    0    0    2    1    0    135    1    1.05    0.95;
0048     18    1    3.2    0.9    0    0    2    1    0    135    1    1.05    0.95;
0049     19    1    9.5    3.4    0    0    2    1    0    135    1    1.05    0.95;
0050     20    1    2.2    0.7    0    0    2    1    0    135    1    1.05    0.95;
0051     21    1    17.5    11.2    0    0    3    1    0    135    1    1.05    0.95;
0052     22    2    0    0    0    0    3    1    0    135    1    1.1    0.95;
0053     23    2    3.2    1.6    0    0    2    1    0    135    1    1.1    0.95;
0054     24    1    8.7    6.7    0    0.04    3    1    0    135    1    1.05    0.95;
0055     25    1    0    0    0    0    3    1    0    135    1    1.05    0.95;
0056     26    1    3.5    2.3    0    0    3    1    0    135    1    1.05    0.95;
0057     27    2    0    0    0    0    3    1    0    135    1    1.1    0.95;
0058     28    1    0    0    0    0    1    1    0    135    1    1.05    0.95;
0059     29    1    2.4    0.9    0    0    3    1    0    135    1    1.05    0.95;
0060     30    1    10.6    1.9    0    0    3    1    0    135    1    1.05    0.95;
0061 ];
0062 
0063 %% generator data
0064 %    bus    Pg    Qg    Qmax    Qmin    Vg    mBase    status    Pmax    Pmin    Pc1    Pc2    Qc1min    Qc1max    Qc2min    Qc2max    ramp_agc    ramp_10    ramp_30    ramp_q    apf
0065 mpc.gen = [
0066     1    23.54    0    150    -20    1    100    1    80    0    0    0    0    0    0    0    0    0    0    0    0;
0067     2    60.97    0    60    -20    1    100    1    80    0    0    0    0    0    0    0    0    0    0    0    0;
0068     22    21.59    0    62.5    -15    1    100    1    50    0    0    0    0    0    0    0    0    0    0    0    0;
0069     27    26.91    0    48.7    -15    1    100    1    55    0    0    0    0    0    0    0    0    0    0    0    0;
0070     23    19.2    0    40    -10    1    100    1    30    0    0    0    0    0    0    0    0    0    0    0    0;
0071     13    37    0    44.7    -15    1    100    1    40    0    0    0    0    0    0    0    0    0    0    0    0;
0072 ];
0073 
0074 %% branch data
0075 %    fbus    tbus    r    x    b    rateA    rateB    rateC    ratio    angle    status    angmin    angmax
0076 mpc.branch = [
0077     1    2    0.02    0.06    0.03    130    130    130    0    0    1    -360    360;
0078     1    3    0.05    0.19    0.02    130    130    130    0    0    1    -360    360;
0079     2    4    0.06    0.17    0.02    65    65    65    0    0    1    -360    360;
0080     3    4    0.01    0.04    0    130    130    130    0    0    1    -360    360;
0081     2    5    0.05    0.2    0.02    130    130    130    0    0    1    -360    360;
0082     2    6    0.06    0.18    0.02    65    65    65    0    0    1    -360    360;
0083     4    6    0.01    0.04    0    90    90    90    0    0    1    -360    360;
0084     5    7    0.05    0.12    0.01    70    70    70    0    0    1    -360    360;
0085     6    7    0.03    0.08    0.01    130    130    130    0    0    1    -360    360;
0086     6    8    0.01    0.04    0    32    32    32    0    0    1    -360    360;
0087     6    9    0    0.21    0    65    65    65    0    0    1    -360    360;
0088     6    10    0    0.56    0    32    32    32    0    0    1    -360    360;
0089     9    11    0    0.21    0    65    65    65    0    0    1    -360    360;
0090     9    10    0    0.11    0    65    65    65    0    0    1    -360    360;
0091     4    12    0    0.26    0    65    65    65    0    0    1    -360    360;
0092     12    13    0    0.14    0    65    65    65    0    0    1    -360    360;
0093     12    14    0.12    0.26    0    32    32    32    0    0    1    -360    360;
0094     12    15    0.07    0.13    0    32    32    32    0    0    1    -360    360;
0095     12    16    0.09    0.2    0    32    32    32    0    0    1    -360    360;
0096     14    15    0.22    0.2    0    16    16    16    0    0    1    -360    360;
0097     16    17    0.08    0.19    0    16    16    16    0    0    1    -360    360;
0098     15    18    0.11    0.22    0    16    16    16    0    0    1    -360    360;
0099     18    19    0.06    0.13    0    16    16    16    0    0    1    -360    360;
0100     19    20    0.03    0.07    0    32    32    32    0    0    1    -360    360;
0101     10    20    0.09    0.21    0    32    32    32    0    0    1    -360    360;
0102     10    17    0.03    0.08    0    32    32    32    0    0    1    -360    360;
0103     10    21    0.03    0.07    0    32    32    32    0    0    1    -360    360;
0104     10    22    0.07    0.15    0    32    32    32    0    0    1    -360    360;
0105     21    22    0.01    0.02    0    32    32    32    0    0    1    -360    360;
0106     15    23    0.1    0.2    0    16    16    16    0    0    1    -360    360;
0107     22    24    0.12    0.18    0    16    16    16    0    0    1    -360    360;
0108     23    24    0.13    0.27    0    16    16    16    0    0    1    -360    360;
0109     24    25    0.19    0.33    0    16    16    16    0    0    1    -360    360;
0110     25    26    0.25    0.38    0    16    16    16    0    0    1    -360    360;
0111     25    27    0.11    0.21    0    16    16    16    0    0    1    -360    360;
0112     28    27    0    0.4    0    65    65    65    0    0    1    -360    360;
0113     27    29    0.22    0.42    0    16    16    16    0    0    1    -360    360;
0114     27    30    0.32    0.6    0    16    16    16    0    0    1    -360    360;
0115     29    30    0.24    0.45    0    16    16    16    0    0    1    -360    360;
0116     8    28    0.06    0.2    0.02    32    32    32    0    0    1    -360    360;
0117     6    28    0.02    0.06    0.01    32    32    32    0    0    1    -360    360;
0118 ];
0119 
0120 %%-----  OPF Data  -----%%
0121 %% generator cost data
0122 %    1    startup    shutdown    n    x1    y1    ...    xn    yn
0123 %    2    startup    shutdown    n    c(n-1)    ...    c0
0124 mpc.gencost = [
0125     2    0    0    3    0.02    2    0;
0126     2    0    0    3    0.0175    1.75    0;
0127     2    0    0    3    0.0625    1    0;
0128     2    0    0    3    0.00834    3.25    0;
0129     2    0    0    3    0.025    3    0;
0130     2    0    0    3    0.025    3    0;
0131 ];