Low-carbon economic operation strategy for a multi-microgrid system considering internal carbon pricing and emission monitoring

IF 3.3 2区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS Journal of Process Control Pub Date : 2024-09-06 DOI:10.1016/j.jprocont.2024.103313

Ying Wang , Junxiang Li , Deqiang Qu , Xi Wang

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Abstract

With gradual deepening of a low-carbon transition of energy, the application of the multi-microgrid system (MMS) is becoming more and more popular. The internal carbon pricing mechanism is a key issue in realizing low carbon of the MMS. In order to fully utilize the advantages of energy mutual benefit and collaborative optimization, a real-time carbon trading model with cost minimization is established in the day-ahead market, in which the shadow price is taken as the optimal internal carbon price and the proposed distributed algorithm protects microgrids’ privacy. Furthermore, for the purpose of amending the deviation of carbon emission between the actual and target values, we design an automated process control (APC) strategy to adjust the real-time carbon price. And then a dual-objective problem is portrayed that balances cost and carbon emission deviation minimization in the intra-day market, and it is transformed into a single-objective constrained problem to be solved. Total cost and carbon emission decrease by 4.03% and 6.17% respectively in the solution. The results show that the proposed models have great performance of cost savings and carbon reduction for the MMS.

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考虑内部碳定价和排放监测的多微网系统低碳经济运行策略

随着能源低碳转型的逐步深入，多微网系统（MMS）的应用越来越普及。内部碳定价机制是多微网系统实现低碳的关键问题。为了充分发挥能源互利和协同优化的优势，本文在日前市场建立了成本最小化的实时碳交易模型，将影子价格作为最优内部碳价格，并提出了保护微电网隐私的分布式算法。此外，为了修正碳排放实际值与目标值之间的偏差，我们设计了一种自动过程控制（APC）策略来调整实时碳价。然后，在日内市场中平衡成本和碳排放偏差最小化的双目标问题被刻画出来，并转化为单目标约束问题加以解决。在求解过程中，总成本和碳排放量分别降低了 4.03% 和 6.17%。结果表明，所提出的模型在为 MMS 节省成本和减少碳排放方面表现出色。

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来源期刊

Journal of Process Control 工程技术-工程：化工

CiteScore

7.00

自引率

11.90%

发文量

159

审稿时长

74 days

期刊介绍： This international journal covers the application of control theory, operations research, computer science and engineering principles to the solution of process control problems. In addition to the traditional chemical processing and manufacturing applications, the scope of process control problems involves a wide range of applications that includes energy processes, nano-technology, systems biology, bio-medical engineering, pharmaceutical processing technology, energy storage and conversion, smart grid, and data analytics among others. Papers on the theory in these areas will also be accepted provided the theoretical contribution is aimed at the application and the development of process control techniques. Topics covered include: • Control applications• Process monitoring• Plant-wide control• Process control systems• Control techniques and algorithms• Process modelling and simulation• Design methods Advanced design methods exclude well established and widely studied traditional design techniques such as PID tuning and its many variants. Applications in fields such as control of automotive engines, machinery and robotics are not deemed suitable unless a clear motivation for the relevance to process control is provided.