Distributionally robust optimal dispatching of integrated energy system considering line pack effect of gas network

The IES(Integrated Energy System) integrated with renewable energy has the feature of uncertainty, while the solution methods such as stochastic programming and robust optimization suffer from insufficient robustness or high conservation. As the important flexible resources for IES, the line pack of gas network is effective in alleviating the influence of uncertainty. For that, the distributionally robust optimal dispatching method of IES considering the line pack of gas network is proposed. The consumption of renewable energy is promoted and the safe and stable operation of system is realized by making full use of the flexible resour-ces of system. On the basis of analyzing gas flow characteristics in natural gas pipeline and line pack effect, the optimal dispatching model of IES considering the line pack effect of gas network is proposed to minimize the integrated cost. In view of the different characteristics of uncertainty for wind power output and electric load, the probability distribution set and trapezoidal fuzzy function are employed respectively to depict these two kinds of uncertainty factors. On this basis, the distributionally robust optimal dispatching model of IES is established and solved by the column-and-constraint generation algorithm. Finally, the case analysis verifies the accuracy and effectiveness of the proposed method, and the results show that the proposed method has stronger regulation ability and excellent economy under uncertain scenarios. © 2022, Electric Power Automation Equipment Press. All right reserved.