Multi-Stage Provincial Power Expansion Planning and Multi-Market Trading Equilibrium

IF 5.7 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Guangsheng Pan;Zhongfan Gu;Yuanyuan Sun;Kaiqi Sun;Wei Gu
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Abstract

Decarbonization in the power sector is one of the critical factors in achieving carbon neutrality, and the top-level design needs to be carried out from the perspective of power planning. A multi-stage provincial power expansion planning (PPEP) model is proposed to simulate the power expansion planning at different stages of the power systems rich in renewable energy generation. This model covers 16 types of power supply, considering macro-policy demands and micro-operation constraints. The stand-alone capacity aggregation model for coal-based units within the PPEP model allows for accurate construction and retirement with different stand-alone capacities. Moreover, the soft dynamic time warping (soft-DTW) based $K-\text{medoids}$ technique is adopted to generate typical scenarios for balancing the model accuracy and solution efficiency. Additionally, a multi-market trading equilibrium (MMTE) mechanism is proposed to address the differences in the levelized cost of energy between the coal-based and renewable-based units by participating in energy and ancillary service markets. Since the coal-based units take on the task of providing ancillary services from renewable-based units in the ancillary service market, the MMTE mechanism can effectively equalize the profits of both by having renewable-based units purchase ancillary services from coal-based units and pay for them, thus improving the motivation of coal-based units. A case study in Xinjiang province, China, verifies the effectiveness of the planning results of the PPEP model and the profit equilibrium realization of the MMTE mechanism.
多阶段省级电力扩张规划与多市场交易平衡
电力行业的去碳化是实现碳中和的关键因素之一,需要从电力规划的角度进行顶层设计。本文提出了一种多阶段省级电力扩容规划(PPEP)模型,用于模拟富含可再生能源发电的电力系统在不同阶段的电力扩容规划。该模型考虑了宏观政策需求和微观运行约束,涵盖了 16 种供电类型。PPEP 模型中的煤电机组单机容量聚合模型可以精确地实现不同单机容量机组的建设和退役。此外,还采用了基于 $K-text{medoids}$ 技术的软动态时间扭曲(soft-DTW)来生成典型情景,以平衡模型精度和求解效率。此外,还提出了一种多市场交易平衡(MMTE)机制,通过参与能源和辅助服务市场来解决煤电机组和可再生能源机组之间的平准化能源成本差异。由于在辅助服务市场中,煤电机组承担了可再生能源机组提供辅助服务的任务,因此 MMTE 机制可以通过可再生能源机组向煤电机组购买辅助服务并支付费用的方式,有效均衡两者的利润,从而提高煤电机组的积极性。中国新疆的案例研究验证了 PPEP 模型规划结果和 MMTE 机制利润均衡实现的有效性。
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来源期刊
Journal of Modern Power Systems and Clean Energy
Journal of Modern Power Systems and Clean Energy ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
12.30
自引率
14.30%
发文量
97
审稿时长
13 weeks
期刊介绍: Journal of Modern Power Systems and Clean Energy (MPCE), commencing from June, 2013, is a newly established, peer-reviewed and quarterly published journal in English. It is the first international power engineering journal originated in mainland China. MPCE publishes original papers, short letters and review articles in the field of modern power systems with focus on smart grid technology and renewable energy integration, etc.
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