A comprehensive optimization mathematical model for wind solar energy
The research will focus on the construction of models and the analysis of practical application scenarios, exploring different types of DN configurations, and evaluating their
Figure 1 shows the structure of a wind-solar-hydro-thermal-storage multi-source complementary power system, which is composed of conventional units (thermal power units, hydropower units, etc.), new energy units (photovoltaic power plants, wind farms, etc.), energy storage systems, and loads.
After the configuration, the power abandonment rate of the combined power generation system is 12.16%, and the typical daily total wind abandonment rate of the wind-solar complementary power generation system is 1625MW, which is significantly reduced compared with the scenario 1 wind farm operating alone.
The simulation results show that the addition of a CSP station can effectively improve the absorption capacity of local wind power generation system and reduce the amount of wind abandonment.
Based on the traditional grasshopper optimization algorithm, the combined spiral motion strategy is added to improve the algorithm. In this paper, a wind-solar combined power generation system is proposed in order to solve the absorption problem of new energy power generation.
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