Method for real-time scheduling of multi-energy complementary micro-grids based on rollout algorithm

Inventors

• Xianxu Huo · Tianjin, CN
• Ling Jiang · 红钢城街道, CN
• Honglei Zhao · Tianjin, CN
• Baoguo Zhao · Tianjin, CN
• Xudong Wang · Kirkland, US
• Guodong Li · Hornsby, AU
• Tianchun Xiang · Tianjin, CN
• Ke Xu · Santa Clara, US
• Yan Qi · Fremont, US
• Lei Wu · Pleasanton, US
• Shiqian Ma · Tianjin, CN
• Jingjing Yan · Tianjin, CN
• Kai Wang · Longbeilingcun, CN
• Qingshan Xu · 安丰镇, CN
• Lu Sun · Shanghai, CN
• Aidong Zeng · Nanjing, CN

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY04S40/20
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

The invention relates to a method for real-time scheduling of multi-energy complementary micro-grids based on a Rollout algorithm, which is technically characterized by comprising the following steps of: Step 1, setting up a moving-horizon Markov decision process model for the real-time scheduling of the multi-energy complementary micro-grids with random new-energy outputs, and establishing constraint conditions for the real-time scheduling; Step 2, establishing a target function of the real-time scheduling; Step 3, dividing a single complete scheduling cycle into a plurality of scheduling intervals, and finding one basic feasible solution meeting the constraint conditions for the real-time scheduling based on a greedy algorithm; and Step 4, finding a solution to the moving-horizon Markov decision process model for the real-time scheduling of the multi-energy complementary micro-grids by using the Rollout algorithm based on the basic feasible solution from Step 3. With the consideration of the fluctuations in the new-energy outputs, the present invention solves the problems of low speed and low efficiency of a traditional algorithm at the same time, enabling high-speed efficient mu…