参考文档:
《ATwo-layer Energy Management System for Microgrids with Hybrid Energy Storageconsidering Degradation Costs》完全复现
主要内容:
代码主要做的是一个微网双层优化调度模型,微网聚合单元包括风电、光伏、储能以及超级电容器,在微网的运行成本层面考虑了电池的退化成本,对其全寿命周期进行建模,并转换为实时相关的短期成本,采用双层调度模型,上层为EMS系统最小化总运行成本,下层为EMS消除预测误差引起的波动最小,更加创新,而且求解的效果更好,出图效果非常好,代码质量非常高!
部分代码:
%% Do not modify this part
tol_opt = 1e-8;
opt_option = 1;
iprint = 5;
[tol_opt, opt_option, iprint, printClosedloopDataFunc]...
= fcnChooseAlgorithm(tol_opt, opt_option, iprint, @printClosedloopData);
%Do not modify this part END
%% Initialization
global fst_output_data ;
global snd_output_data ;
fst_output_data = [];
snd_output_data = [];
fst = fcnSetStageParam('fst');
snd = fcnSetStageParam('snd');
%import datasets
fprintf('Import data....');
importDataTic = tic;
mpcdata = fcnImportData('data/data_all.csv','data/price_seq_RT.csv');
pv_5m_data_all = xlsread('data/pv_5m_5percent.xlsx');
wind_5m_data_all = xlsread('data/wind_5m_5percent.xlsx');
importDataTic = toc(importDataTic);
fprintf('Finish. Time: %4fs\n', importDataTic);
clearvars importDataTic;
% Step (2) of the Nonlinear MPC algorithm:
options = fcnChooseOption(opt_option, tol_opt, fst.u0);
输出结果:
