Zero Carbon Optimization Scheduling Technology for Electric Hydrogen Thermal Coupling Microgrid Regions Considering Load Operation Risks
In the zero carbon microgrid system based on hydrogen energy storage,there are problems such as low heat utilization efficiency of electrolytic cells and fuel cells,as well as ignoring the subjective intention of users to generate load changes.We propose a zero carbon optimization scheduling technology for an electric hydrogen thermal coupled microgrid region that takes into account load operation risks.Firstly,establishing a zero-carbon microgrid model includes models of electrolytic cells,fuel cells,hydrogen storage tanks,and batteries.Secondly,a load operation risk and economic compensation model should be established.Finally,combining the zero carbon microgrid model and the load operation risk model,a zero carbon optimization Scheduling technology model for the electric hydrogen thermal coupling microgrid region is constructed that takes into account the load operation risk.The simulation results show that compared with scheduling techniques that do not introduce the heating system and load operation risks,this method can effectively reduce system operation risks,improve system operation stability,and improve the utilization rate of green and renewable energy.
regional zero carbonmicrogridhydrogen energy storageoptimize control
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维普
