Network-Aware Value Stacking of Community Battery via Asynchronous Distributed Optimization

arXiv - CS - Systems and Control Pub Date : 2024-03-20 DOI:arxiv-2403.13255

Canchen Jiang, Hao Wang

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Abstract

Community battery systems have been widely deployed to provide services to the grid. Unlike a single battery storage system in the community, coordinating multiple community batteries can further unlock their value, enhancing the viability of community battery solutions. However, the centralized control of community batteries relies on the full information of the system, which is less practical and may even lead to privacy leakage. In this paper, we formulate a value-stacking optimization problem for community batteries to interact with local solar, buildings, and the grid, within distribution network constraints. We then propose a distributed algorithm using asynchronous distributed alternate direction method of multipliers (ADMM) to solve the problem. Our algorithm is robust to communication latency between community batteries and the grid while preserving the operational privacy. The simulation results demonstrate the convergence of our proposed asynchronous distributed ADMM algorithm. We also evaluate the electricity cost and the contribution of each value stream in the value-stacking problem for community batteries using real-world data.

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通过异步分布式优化实现社区电池的网络感知价值堆叠

社区电池系统已被广泛部署，为电网提供服务。与社区中的单个电池存储系统不同，协调多个社区电池可以进一步释放其价值，提高社区电池解决方案的可行性。然而，社区电池的集中控制依赖于系统的全部信息，这不太现实，甚至可能导致隐私泄露。在本文中，我们提出了社区电池的价值叠加优化问题，以便在配电网络约束条件下与本地太阳能、建筑物和电网互动。该算法对社区电池与电网之间的通信延迟具有鲁棒性，同时还能保护操作隐私。仿真结果证明了我们提出的异步分布式 ADMM 算法的收敛性。我们还利用现实世界的数据评估了社区电池价值堆叠问题中的电力成本和每个价值流的贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Systems and Control

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