Economical management of virtual power plant source-network-load-storage in the context of electricity-carbon market
Panhong Zhang, Yilu Zheng, Muhammad Zakarya, Muhammad Zakarya, Baogui Xin, Baogui Xin

TL;DR
This paper introduces a two-layer management system for virtual power plants to improve grid stability and economic efficiency in the electricity-carbon market.
Contribution
A novel cloud-edge-end-based multi-time scale economical management framework for virtual power plant source-network-load-storage is proposed.
Findings
The proposed two-layer optimization approach reduces system operating costs by 2.35%.
The method enhances electricity market flexibility and economic performance.
Mixed-integer linear programming reformulation ensures efficient solutions.
Abstract
Under the imperative of achieving dual-carbon goals, the number of distributed energy resources are gradually increasing, thereby amplifying the challenges to grid stability and power balance. Consequently, there is an urgent need to leverage the potential of source-network-load-storage for enhanced power regulation and control. This paper proposes a cloud-edge-end-based multi-time scale economical management of virtual power plant (VPP) source-network-load-storage in the context of electricity-carbon market. In the first layer, a cloud-edge scheduling approach is used to optimize the source-network-load-storage system of the VPP over a long time horizon, aiming to maximize economic benefits. In the second layer, a novel real-time pricing mechanism is employed to effectively manage and regulate the electric vehicle (EV) storage and charging stations. After obtaining the economic…
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Taxonomy
TopicsSmart Grid Energy Management · Integrated Energy Systems Optimization · Electric Vehicles and Infrastructure
