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Research on the Cooperative and Optimal Scheduling Strategy of Multi-energy Demand Response Based on Cloud-Edge Communication

机译:基于云边沿通信的多能量需求响应合作与优化调度策略研究

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摘要

The demand response under multi-energy interaction is no longer limited to load shedding or shifting, but should also include demand transformation between multiple energy types. The interaction is also no longer limited to the traditional two-way interaction between power companies and customers, but all entities that can provide or use other forms of energy become "third parties" in the interaction system of the integrated energy system. To address the problem of insufficient interaction between energy supply and demand in an integrated energy scenario, this paper establishes an optimal operation model that takes into account energy storage devices, energy coupling devices, and distributed renewable energy generation in the context of demand response by multiple energy aggregators, and solves for an optimal economic dispatch strategy. The simulation results of the algorithm prove that the strategy has good advantages in reducing the dispatching cost.
机译:多能量交互下的需求响应不再限于加载脱落或转移,但还应包括多种能量类型之间的需求转换。 互动也不再限于电力公司和客户之间的传统双向互动,而是可以在综合能源系统的相互作用系统中提供或使用其他形式的能量成为“第三方”的所有实体。 为了解决集成能源场景中能源供应与需求之间的相互作用不足的问题,本文建立了在需求响应的上下文中考虑了能量存储设备,能量耦合装置和分布式可再生能源的最佳运行模型 能量聚合器,解决了最佳的经济派遣策略。 算法的仿真结果证明,该策略在降低调度成本方面具有良好的优势。

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