📄 idx_gen.m
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function [GEN_BUS, PG, QG, QMAX, QMIN, VG, MBASE, GEN_STATUS, PMAX, PMIN, ... MU_PMAX, MU_PMIN, MU_QMAX, MU_QMIN, PC1, PC2, QC1MIN, QC1MAX, ... QC2MIN, QC2MAX, RAMP_AGC, RAMP_10, RAMP_30, RAMP_Q, APF] = idx_gen%IDX_GEN Defines constants for named column indices to gen matrix.%% [GEN_BUS, PG, QG, QMAX, QMIN, VG, MBASE, GEN_STATUS, PMAX, PMIN, ...% MU_PMAX, MU_PMIN, MU_QMAX, MU_QMIN, PC1, PC2, QC1MIN, QC1MAX, ...% QC2MIN, QC2MAX, RAMP_AGC, RAMP_10, RAMP_30, RAMP_Q, APF] = idx_gen;%% Some examples of usage, after defining the constants using the line above,% are:%% Pg = gen(4, PG); % get the real power output of generator 4% gen(:, PMIN) = 0; % set to zero the minimum real power limit of all gens% % The index, name and meaning of each column of the gen matrix is given% below:%% columns 1-21 must be included in input matrix (in case file)% 1 GEN_BUS bus number% 2 PG Pg, real power output (MW)% 3 QG Qg, reactive power output (MVAr)% 4 QMAX Qmax, maximum reactive power output (MVAr)% 5 QMIN Qmin, minimum reactive power output (MVAr)% 6 VG Vg, voltage magnitude setpoint (p.u.)% 7 MBASE mBase, total MVA base of machine, defaults to baseMVA% 8 GEN_STATUS status, 1 - in service, 0 - out of service% 9 PMAX Pmax, maximum real power output (MW)% 10 PMIN Pmin, minimum real power output (MW)% 11 PC1 Pc1, lower real power output of PQ capability curve (MW)% 12 PC2 Pc2, upper real power output of PQ capability curve (MW)% 13 QC1MIN Qc1min, minimum reactive power output at Pc1 (MVAr)% 14 QC1MAX Qc1max, maximum reactive power output at Pc1 (MVAr)% 15 QC2MIN Qc2min, minimum reactive power output at Pc2 (MVAr)% 16 QC2MAX Qc2max, maximum reactive power output at Pc2 (MVAr)% 17 RAMP_AGC ramp rate for load following/AGC (MW/min)% 18 RAMP_10 ramp rate for 10 minute reserves (MW)% 19 RAMP_30 ramp rate for 30 minute reserves (MW)% 20 RAMP_Q ramp rate for reactive power (2 sec timescale) (MVAr/min)% 21 APF area participation factor% % columns 22-25 are added to matrix after OPF solution% they are typically not present in the input matrix% (assume OPF objective function has units, u)% 22 MU_PMAX Kuhn-Tucker multiplier on upper Pg limit (u/MW)% 23 MU_PMIN Kuhn-Tucker multiplier on lower Pg limit (u/MW)% 24 MU_QMAX Kuhn-Tucker multiplier on upper Qg limit (u/MVAr)% 25 MU_QMIN Kuhn-Tucker multiplier on lower Qg limit (u/MVAr)% MATPOWER% $Id: idx_gen.m,v 1.10 2006/02/13 19:26:28 ray Exp $% by Ray Zimmerman, PSERC Cornell% Copyright (c) 1996-2005 by Power System Engineering Research Center (PSERC)% See http://www.pserc.cornell.edu/matpower/ for more info.%% define the indicesGEN_BUS = 1; %% bus numberPG = 2; %% Pg, real power output (MW)QG = 3; %% Qg, reactive power output (MVAr)QMAX = 4; %% Qmax, maximum reactive power output at Pmin (MVAr)QMIN = 5; %% Qmin, minimum reactive power output at Pmin (MVAr)VG = 6; %% Vg, voltage magnitude setpoint (p.u.)MBASE = 7; %% mBase, total MVA base of this machine, defaults to baseMVAGEN_STATUS = 8; %% status, 1 - machine in service, 0 - machine out of servicePMAX = 9; %% Pmax, maximum real power output (MW)PMIN = 10; %% Pmin, minimum real power output (MW)PC1 = 11; %% Pc1, lower real power output of PQ capability curve (MW)PC2 = 12; %% Pc2, upper real power output of PQ capability curve (MW)QC1MIN = 13; %% Qc1min, minimum reactive power output at Pc1 (MVAr)QC1MAX = 14; %% Qc1max, maximum reactive power output at Pc1 (MVAr)QC2MIN = 15; %% Qc2min, minimum reactive power output at Pc2 (MVAr)QC2MAX = 16; %% Qc2max, maximum reactive power output at Pc2 (MVAr)RAMP_AGC = 17; %% ramp rate for load following/AGC (MW/min)RAMP_10 = 18; %% ramp rate for 10 minute reserves (MW)RAMP_30 = 19; %% ramp rate for 30 minute reserves (MW)RAMP_Q = 20; %% ramp rate for reactive power (2 sec timescale) (MVAr/min)APF = 21; %% area participation factor%% included in opf solution, not necessarily in input%% assume objective function has units, uMU_PMAX = 22; %% Kuhn-Tucker multiplier on upper Pg limit (u/MW)MU_PMIN = 23; %% Kuhn-Tucker multiplier on lower Pg limit (u/MW)MU_QMAX = 24; %% Kuhn-Tucker multiplier on upper Qg limit (u/MVAr)MU_QMIN = 25; %% Kuhn-Tucker multiplier on lower Qg limit (u/MVAr)%% Note: When a generator's PQ capability curve is not simply a box and the%% upper Qg limit is binding, the multiplier on this constraint is split into%% it's P and Q components and combined with the appropriate MU_Pxxx and%% MU_Qxxx values. Likewise for the lower Q limits.return;⌨️ 快捷键说明
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