pglib_opf_case39_epri.m

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%%%%    IEEE PES Power Grid Library - Optimal Power Flow - v20.07     %%%%%
%%%%          (https://github.com/power-grid-lib/pglib-opf)           %%%%%
%%%%               Benchmark Group - Typical Operations               %%%%%
%%%%                         12 - July - 2020                         %%%%%
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%
%   CASE39 Power flow data for 39 bus New England system.
%
%   Data taken from [1] with the following modifications/additions:
%
%       - renumbered gen buses consecutively (as in [2] and [4])
%       - added Pmin = 0 for all gens
%       - added Qmin, Qmax for gens at 31 & 39 (copied from gen at 35)
%       - added Vg based on V in bus data (missing for bus 39)
%       - added Vg, Pg, Pd, Qd at bus 39 from [2] (same in [4])
%       - added Pmax at bus 39: Pmax = Pg + 100
%       - added line flow limits and area data from [4]
%       - added voltage limits, Vmax = 1.06, Vmin = 0.94
%       - added identical quadratic generator costs
%       - increased Pmax for gen at bus 34 from 308 to 508
%         (assumed typo in [1], makes initial solved case feasible)
%       - re-solved power flow
% 
%   Notes:
%       - Bus 39, its generator and 2 connecting lines were added
%         (by authors of [1]) to represent the interconnection with
%         the rest of the eastern interconnect, and did not include
%         Vg, Pg, Qg, Pd, Qd, Pmin, Pmax, Qmin or Qmax.
%       - As the swing bus, bus 31 did not include and Q limits.
%       - The voltages, etc in [1] appear to be quite close to the
%         power flow solution of the case before adding bus 39 with
%         it's generator and connecting branches, though the solution
%         is not exact.
%       - Explicit voltage setpoints for gen buses are not given, so
%         they are taken from the bus data, however this results in two
%         binding Q limits at buses 34 & 37, so the corresponding
%         voltages have probably deviated from their original setpoints.
%       - The generator locations and types are as follows:
%           1   30      hydro
%           2   31      nuke01
%           3   32      nuke02
%           4   33      fossil02
%           5   34      fossil01
%           6   35      nuke03
%           7   36      fossil04
%           8   37      nuke04
%           9   38      nuke05
%           10  39      interconnection to rest of US/Canada
%
%   This is a solved power flow case, but it includes the following
%   violations:
%       - Pmax violated at bus 31: Pg = 677.87, Pmax = 646
%       - Qmin violated at bus 37: Qg = -1.37,  Qmin = 0
%
%   References:
%   [1] G. W. Bills, et.al., "On-Line Stability Analysis Study"
%       RP90-1 Report for the Edison Electric Institute, October 12, 1970,
%       pp. 1-20 - 1-35.
%       prepared by E. M. Gulachenski - New England Electric System
%                   J. M. Undrill     - General Electric Co.
%       "generally representative of the New England 345 KV system, but is
%        not an exact or complete model of any past, present or projected
%        configuration of the actual New England 345 KV system.
%   [2] M. A. Pai, Energy Function Analysis for Power System Stability,
%       Kluwer Academic Publishers, Boston, 1989.
%       (references [3] as source of data)
%   [3] Athay, T.; Podmore, R.; Virmani, S., "A Practical Method for the
%       Direct Analysis of Transient Stability," IEEE Transactions on Power
%       Apparatus and Systems , vol.PAS-98, no.2, pp.573-584, March 1979.
%       URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=4113518&isnumber=4113486
%       (references [1] as source of data)
%   [4] Data included with TC Calculator at http://www.pserc.cornell.edu/tcc/
%       for 39-bus system.
%
%   Copyright (c) 1989 by The Institute of Electrical and Electronics Engineers (IEEE)
%   Licensed under the Creative Commons Attribution 4.0
%   International license, http://creativecommons.org/licenses/by/4.0/
%
%   Contact M.E. Brennan (me.brennan@ieee.org) for inquries on further reuse of
%   this dataset.
%
function mpc = pglib_opf_case39_epri
mpc.version = '2';
mpc.baseMVA = 100.0;

%% bus data
%	bus_i	type	Pd	Qd	Gs	Bs	area	Vm	Va	baseKV	zone	Vmax	Vmin
mpc.bus = [
	1	 1	 97.6	 44.2	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	2	 1	 0.0	 0.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	3	 1	 322.0	 2.4	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	4	 1	 500.0	 184.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	5	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	6	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	7	 1	 233.8	 84.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	8	 1	 522.0	 176.6	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	9	 1	 6.5	 -66.6	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	10	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	11	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	12	 1	 8.53	 88.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	13	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	14	 1	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	15	 1	 320.0	 153.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	16	 1	 329.0	 32.3	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	17	 1	 0.0	 0.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	18	 1	 158.0	 30.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	19	 1	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	20	 1	 680.0	 103.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	21	 1	 274.0	 115.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	22	 1	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	23	 1	 247.5	 84.6	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	24	 1	 308.6	 -92.2	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	25	 1	 224.0	 47.2	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	26	 1	 139.0	 17.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	27	 1	 281.0	 75.5	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	28	 1	 206.0	 27.6	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	29	 1	 283.5	 26.9	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	30	 2	 0.0	 0.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	31	 3	 9.2	 4.6	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	32	 2	 0.0	 0.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	33	 2	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	34	 2	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	35	 2	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	36	 2	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	37	 2	 0.0	 0.0	 0.0	 0.0	 2	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	38	 2	 0.0	 0.0	 0.0	 0.0	 3	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
	39	 2	 1104.0	 250.0	 0.0	 0.0	 1	    1.00000	    0.00000	 345.0	 1	    1.06000	    0.94000;
];

%% generator data
%	bus	Pg	Qg	Qmax	Qmin	Vg	mBase	status	Pmax	Pmin
mpc.gen = [
	30	 520.0	 270.0	 400.0	 140.0	 1.0	 100.0	 1	 1040.0	 0.0; % NUC
	31	 323.0	 100.0	 300.0	 -100.0	 1.0	 100.0	 1	 646.0	 0.0; % COW
	32	 362.5	 225.0	 300.0	 150.0	 1.0	 100.0	 1	 725.0	 0.0; % COW
	33	 326.0	 125.0	 250.0	 0.0	 1.0	 100.0	 1	 652.0	 0.0; % COW
	34	 254.0	 83.5	 167.0	 0.0	 1.0	 100.0	 1	 508.0	 0.0; % COW
	35	 343.5	 100.0	 300.0	 -100.0	 1.0	 100.0	 1	 687.0	 0.0; % COW
	36	 290.0	 120.0	 240.0	 0.0	 1.0	 100.0	 1	 580.0	 0.0; % COW
	37	 282.0	 125.0	 250.0	 0.0	 1.0	 100.0	 1	 564.0	 0.0; % COW
	38	 432.5	 75.0	 300.0	 -150.0	 1.0	 100.0	 1	 865.0	 0.0; % COW
	39	 550.0	 100.0	 300.0	 -100.0	 1.0	 100.0	 1	 1100.0	 0.0; % COW
];

%% generator cost data
%	2	startup	shutdown	n	c(n-1)	...	c0
mpc.gencost = [
	2	 0.0	 0.0	 3	   0.000000	   6.724778	   0.000000; % NUC
	2	 0.0	 0.0	 3	   0.000000	  14.707625	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  24.804734	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  34.844643	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  24.652994	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  32.306483	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  18.157477	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  31.550181	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  22.503168	   0.000000; % COW
	2	 0.0	 0.0	 3	   0.000000	  27.434444	   0.000000; % COW
];

%% branch data
%	fbus	tbus	r	x	b	rateA	rateB	rateC	ratio	angle	status	angmin	angmax
mpc.branch = [
	1	 2	 0.0035	 0.0411	 0.6987	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	1	 39	 0.001	 0.025	 0.75	 1000.0	 1000.0	 1000.0	 0.0	 0.0	 1	 -30.0	 30.0;
	2	 3	 0.0013	 0.0151	 0.2572	 500.0	 500.0	 500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	2	 25	 0.007	 0.0086	 0.146	 500.0	 500.0	 500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	2	 30	 0.0	 0.0181	 0.0	 900.0	 900.0	 2500.0	 1.025	 0.0	 1	 -30.0	 30.0;
	3	 4	 0.0013	 0.0213	 0.2214	 500.0	 500.0	 500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	3	 18	 0.0011	 0.0133	 0.2138	 500.0	 500.0	 500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	4	 5	 0.0008	 0.0128	 0.1342	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	4	 14	 0.0008	 0.0129	 0.1382	 500.0	 500.0	 500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	5	 6	 0.0002	 0.0026	 0.0434	 1200.0	 1200.0	 1200.0	 0.0	 0.0	 1	 -30.0	 30.0;
	5	 8	 0.0008	 0.0112	 0.1476	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	6	 7	 0.0006	 0.0092	 0.113	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	6	 11	 0.0007	 0.0082	 0.1389	 480.0	 480.0	 480.0	 0.0	 0.0	 1	 -30.0	 30.0;
	6	 31	 0.0	 0.025	 0.0	 1800.0	 1800.0	 1800.0	 1.07	 0.0	 1	 -30.0	 30.0;
	7	 8	 0.0004	 0.0046	 0.078	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	8	 9	 0.0023	 0.0363	 0.3804	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	9	 39	 0.001	 0.025	 1.2	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	10	 11	 0.0004	 0.0043	 0.0729	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	10	 13	 0.0004	 0.0043	 0.0729	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	10	 32	 0.0	 0.02	 0.0	 900.0	 900.0	 2500.0	 1.07	 0.0	 1	 -30.0	 30.0;
	12	 11	 0.0016	 0.0435	 0.0	 500.0	 500.0	 500.0	 1.006	 0.0	 1	 -30.0	 30.0;
	12	 13	 0.0016	 0.0435	 0.0	 500.0	 500.0	 500.0	 1.006	 0.0	 1	 -30.0	 30.0;
	13	 14	 0.0009	 0.0101	 0.1723	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	14	 15	 0.0018	 0.0217	 0.366	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	15	 16	 0.0009	 0.0094	 0.171	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	16	 17	 0.0007	 0.0089	 0.1342	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	16	 19	 0.0016	 0.0195	 0.304	 600.0	 600.0	 2500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	16	 21	 0.0008	 0.0135	 0.2548	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	16	 24	 0.0003	 0.0059	 0.068	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	17	 18	 0.0007	 0.0082	 0.1319	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	17	 27	 0.0013	 0.0173	 0.3216	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	19	 20	 0.0007	 0.0138	 0.0	 900.0	 900.0	 2500.0	 1.06	 0.0	 1	 -30.0	 30.0;
	19	 33	 0.0007	 0.0142	 0.0	 900.0	 900.0	 2500.0	 1.07	 0.0	 1	 -30.0	 30.0;
	20	 34	 0.0009	 0.018	 0.0	 900.0	 900.0	 2500.0	 1.009	 0.0	 1	 -30.0	 30.0;
	21	 22	 0.0008	 0.014	 0.2565	 900.0	 900.0	 900.0	 0.0	 0.0	 1	 -30.0	 30.0;
	22	 23	 0.0006	 0.0096	 0.1846	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	22	 35	 0.0	 0.0143	 0.0	 900.0	 900.0	 2500.0	 1.025	 0.0	 1	 -30.0	 30.0;
	23	 24	 0.0022	 0.035	 0.361	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	23	 36	 0.0005	 0.0272	 0.0	 900.0	 900.0	 2500.0	 0.0	 0.0	 1	 -30.0	 30.0;
	25	 26	 0.0032	 0.0323	 0.531	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	25	 37	 0.0006	 0.0232	 0.0	 900.0	 900.0	 2500.0	 1.025	 0.0	 1	 -30.0	 30.0;
	26	 27	 0.0014	 0.0147	 0.2396	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	26	 28	 0.0043	 0.0474	 0.7802	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	26	 29	 0.0057	 0.0625	 1.029	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	28	 29	 0.0014	 0.0151	 0.249	 600.0	 600.0	 600.0	 0.0	 0.0	 1	 -30.0	 30.0;
	29	 38	 0.0008	 0.0156	 0.0	 1200.0	 1200.0	 2500.0	 1.025	 0.0	 1	 -30.0	 30.0;
];

% INFO    : === Translation Options ===
% INFO    : Phase Angle Bound:           30.0 (deg.)
% INFO    : Gen Active Cost Model:       stat
% INFO    : Setting Flat Start
% INFO    : 
% INFO    : === Generator Classification Notes ===
% INFO    : NUC    1   -     3.97
% INFO    : COW    9   -    96.03
% INFO    : 
% INFO    : === Generator Active Cost Stat Model Notes ===
% INFO    : Updated Generator Cost: NUC - 0.2 0.3 0.01 -> 0 6.72477811338 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 14.7076252515 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 24.8047338223 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 34.84464286 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 24.6529938713 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 32.306483114 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 18.1574766212 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 31.5501806971 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 22.5031675377 0
% INFO    : Updated Generator Cost: COW - 0.2 0.3 0.01 -> 0 27.4344440931 0
% INFO    : 
% INFO    : === Generator Bounds Update Notes ===
% INFO    : 
% INFO    : === Base KV Replacement Notes ===
% INFO    : 
% INFO    : === Transformer Setting Replacement Notes ===
% WARNING : Transformer 23-36 connects the same voltage levels (345.0, 345.0) and has no phase shift, changing tap ratio 1.0 => 0.0
% INFO    : 
% INFO    : === Line Capacity Monotonicity Notes ===
% INFO    : 
% INFO    : === Voltage Setpoint Replacement Notes ===
% INFO    : Bus 1	: V=1.0393836, theta=-13.536602 -> V=1.0, theta=0.0
% INFO    : Bus 2	: V=1.0484941, theta=-9.7852666 -> V=1.0, theta=0.0
% INFO    : Bus 3	: V=1.0307077, theta=-12.276384 -> V=1.0, theta=0.0
% INFO    : Bus 4	: V=1.00446, theta=-12.626734 -> V=1.0, theta=0.0
% INFO    : Bus 5	: V=1.0060063, theta=-11.192339 -> V=1.0, theta=0.0
% INFO    : Bus 6	: V=1.0082256, theta=-10.40833 -> V=1.0, theta=0.0
% INFO    : Bus 7	: V=0.99839728, theta=-12.755626 -> V=1.0, theta=0.0
% INFO    : Bus 8	: V=0.99787232, theta=-13.335844 -> V=1.0, theta=0.0
% INFO    : Bus 9	: V=1.038332, theta=-14.178442 -> V=1.0, theta=0.0
% INFO    : Bus 10	: V=1.0178431, theta=-8.170875 -> V=1.0, theta=0.0
% INFO    : Bus 11	: V=1.0133858, theta=-8.9369663 -> V=1.0, theta=0.0
% INFO    : Bus 12	: V=1.000815, theta=-8.9988236 -> V=1.0, theta=0.0
% INFO    : Bus 13	: V=1.014923, theta=-8.9299272 -> V=1.0, theta=0.0
% INFO    : Bus 14	: V=1.012319, theta=-10.715295 -> V=1.0, theta=0.0
% INFO    : Bus 15	: V=1.0161854, theta=-11.345399 -> V=1.0, theta=0.0
% INFO    : Bus 16	: V=1.0325203, theta=-10.033348 -> V=1.0, theta=0.0
% INFO    : Bus 17	: V=1.0342365, theta=-11.116436 -> V=1.0, theta=0.0
% INFO    : Bus 18	: V=1.0315726, theta=-11.986168 -> V=1.0, theta=0.0
% INFO    : Bus 19	: V=1.0501068, theta=-5.4100729 -> V=1.0, theta=0.0
% INFO    : Bus 20	: V=0.99101054, theta=-6.8211783 -> V=1.0, theta=0.0
% INFO    : Bus 21	: V=1.0323192, theta=-7.6287461 -> V=1.0, theta=0.0
% INFO    : Bus 22	: V=1.0501427, theta=-3.1831199 -> V=1.0, theta=0.0
% INFO    : Bus 23	: V=1.0451451, theta=-3.3812763 -> V=1.0, theta=0.0
% INFO    : Bus 24	: V=1.038001, theta=-9.9137585 -> V=1.0, theta=0.0
% INFO    : Bus 25	: V=1.0576827, theta=-8.3692354 -> V=1.0, theta=0.0
% INFO    : Bus 26	: V=1.0525613, theta=-9.4387696 -> V=1.0, theta=0.0
% INFO    : Bus 27	: V=1.0383449, theta=-11.362152 -> V=1.0, theta=0.0
% INFO    : Bus 28	: V=1.0503737, theta=-5.9283592 -> V=1.0, theta=0.0
% INFO    : Bus 29	: V=1.0501149, theta=-3.1698741 -> V=1.0, theta=0.0
% INFO    : Bus 30	: V=1.0499, theta=-7.3704746 -> V=1.0, theta=0.0
% INFO    : Bus 31	: V=0.982, theta=0.0 -> V=1.0, theta=0.0
% INFO    : Bus 32	: V=0.9841, theta=-0.1884374 -> V=1.0, theta=0.0
% INFO    : Bus 33	: V=0.9972, theta=-0.19317445 -> V=1.0, theta=0.0
% INFO    : Bus 34	: V=1.0123, theta=-1.631119 -> V=1.0, theta=0.0
% INFO    : Bus 35	: V=1.0494, theta=1.7765069 -> V=1.0, theta=0.0
% INFO    : Bus 36	: V=1.0636, theta=4.4684374 -> V=1.0, theta=0.0
% INFO    : Bus 37	: V=1.0275, theta=-1.5828988 -> V=1.0, theta=0.0
% INFO    : Bus 38	: V=1.0265, theta=3.8928177 -> V=1.0, theta=0.0
% INFO    : Bus 39	: V=1.03, theta=-14.535256 -> V=1.0, theta=0.0
% INFO    : 
% INFO    : === Generator Setpoint Replacement Notes ===
% INFO    : Gen at bus 30	: Pg=250.0, Qg=161.762 -> Pg=520.0, Qg=270.0
% INFO    : Gen at bus 30	: Vg=1.0499 -> Vg=1.0
% INFO    : Gen at bus 31	: Pg=677.871, Qg=221.574 -> Pg=323.0, Qg=100.0
% INFO    : Gen at bus 31	: Vg=0.982 -> Vg=1.0
% INFO    : Gen at bus 32	: Pg=650.0, Qg=206.965 -> Pg=362.5, Qg=225.0
% INFO    : Gen at bus 32	: Vg=0.9841 -> Vg=1.0
% INFO    : Gen at bus 33	: Pg=632.0, Qg=108.293 -> Pg=326.0, Qg=125.0
% INFO    : Gen at bus 33	: Vg=0.9972 -> Vg=1.0
% INFO    : Gen at bus 34	: Pg=508.0, Qg=166.688 -> Pg=254.0, Qg=83.5
% INFO    : Gen at bus 34	: Vg=1.0123 -> Vg=1.0
% INFO    : Gen at bus 35	: Pg=650.0, Qg=210.661 -> Pg=343.5, Qg=100.0
% INFO    : Gen at bus 35	: Vg=1.0494 -> Vg=1.0
% INFO    : Gen at bus 36	: Pg=560.0, Qg=100.165 -> Pg=290.0, Qg=120.0
% INFO    : Gen at bus 36	: Vg=1.0636 -> Vg=1.0
% INFO    : Gen at bus 37	: Pg=540.0, Qg=-1.36945 -> Pg=282.0, Qg=125.0
% INFO    : Gen at bus 37	: Vg=1.0275 -> Vg=1.0
% INFO    : Gen at bus 38	: Pg=830.0, Qg=21.7327 -> Pg=432.5, Qg=75.0
% INFO    : Gen at bus 38	: Vg=1.0265 -> Vg=1.0
% INFO    : Gen at bus 39	: Pg=1000.0, Qg=78.4674 -> Pg=550.0, Qg=100.0
% INFO    : Gen at bus 39	: Vg=1.03 -> Vg=1.0
% INFO    : 
% INFO    : === Writing Matpower Case File Notes ===