Optimal Control Strategies for Seasonal Thermal Energy Storage Systems With Market Interaction

灵活性(工程) 盈利能力指数 强化学习 模型预测控制 电力市场 计算机科学 控制(管理) 利润(经济学) 热能储存 可再生能源 环境经济学 运筹学 微观经济学 业务 经济 工程类 财务 人工智能 管理 生物 电气工程 生态学
作者
Jesus Lago,Gowri Suryanarayana,Ecem Sogancioglu,Bart De Schutter
出处
期刊:IEEE Transactions on Control Systems and Technology [Institute of Electrical and Electronics Engineers]
卷期号:29 (5): 1891-1906 被引量:27
标识
DOI:10.1109/tcst.2020.3016077
摘要

Seasonal thermal energy storage systems (STESSs) can shift the delivery of renewable energy sources and mitigate their uncertainty problems. However, to maximize the operational profit of STESSs and ensure their long-term profitability, control strategies that allow them to trade on wholesale electricity markets are required. While control strategies for STESSs have been proposed before, none of them addressed electricity market interaction and trading. In particular, due to the seasonal nature of STESSs, accounting for the long-term uncertainty in electricity prices has been very challenging. In this article, we develop the first control algorithms to control STESSs when interacting with different wholesale electricity markets. As different control solutions have different merits, we propose solutions based on model predictive control and solutions based on reinforcement learning. We show that this is critical since different markets require different control strategies: MPC strategies are better for day-ahead markets due to the flexibility of MPC, whereas reinforcement learning (RL) strategies are better for real-time markets because of fast computation times and better risk modeling. To study the proposed algorithms in a real-life setup, we consider a real STESS interacting with the day-ahead and imbalance markets in The Netherlands and Belgium. Based on the obtained results, we show that: 1) the developed controllers successfully maximize the profits of STESSs due to market trading and 2) the developed control strategies make STESSs important players in the energy transition: by optimally controlling STESSs and reacting to imbalances, STESSs help to reduce grid imbalances.
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