考虑碳排放成本的多能互补微能源网储能装置优化运行

冯 奕<sup>1</sup>; 应展烽<sup>2</sup>; 颜建虎<sup>3</sup>

引用本文:	冯奕,应展烽,颜建虎.考虑碳排放成本的多能互补微能源网储能装置优化运行[J].电力系统保护与控制,2021,49(8):92-99.[点击复制]
	FENG Yi,YING Zhanfeng,YAN Jianhu.Optimized operation of energy storage in a multi-energy complementary micro-energy network considering carbon emission cost[J].Power System Protection and Control,2021,49(8):92-99[点击复制]

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考虑碳排放成本的多能互补微能源网储能装置优化运行
冯奕¹,应展烽²,颜建虎³
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(1.南京工程学院经济与管理学院，江苏南京 211167;2.南京理工大学能源与动力工程学院，江苏南京 210094; 3.南京理工大学自动化学院，江苏南京 210094)

摘要:

随着综合能源管理技术的成熟，建立含大比例可再生能源和储能装置的多能互补微能源网成为发展趋势。近年来，我国在进行能源结构调整，碳排放控制力度逐步提升。因此在考虑碳排放成本的基础上，以微能源网日运行成本最低为目标建立经济运行模型，对储能的充放电策略进行调整，并采用商业软件CPLEX进行求解。以某一实际微能源网为例验证所提模型的有效性，分析了两种储能容量和功率配置对微能源网运行成本的影响。算例结果表明，所建模型纳入了碳排放成本的影响，在保障可再生能源消纳的前提下，对微能源网内的多种能源和储能装置充放电策略进行了优化，实现微能源网运行成本最低的同时达到多能互补的效果。

关键词: 多能互补储能可再生能源微能源网碳排放

DOI：DOI: 10.19783/j.cnki.pspc.200766

投稿时间：2020-07-01修订日期：2020-09-17

基金项目:国家自然科学基金项目资助(51607091)；江苏省教育厅高校哲学社会科学基金项目资助(2017SJB0400)；南京工程学院创新基金面上项目资助(CKJB201908)

Optimized operation of energy storage in a multi-energy complementary micro-energy network considering carbon emission cost

FENG Yi¹,YING Zhanfeng²,YAN Jianhu³

(1. School of Economics and Management, Nanjing Institute of Technology, Nanjing 211167, China; 2. School of Energy and Power Engineering, Nanjing University of Science and Technology, Nanjing 210094, China; 3. School of Automation, Nanjing University of Science and Technology, Nanjing 210094, China)

Abstract:

With the maturity of integrated energy management technology, the establishment of a multi-energy complementary micro-energy network containing a high proportion of renewable energy and energy storage devices has become a development trend. In recent years, the control of carbon emissions is strengthened gradually in China with structural energy adjustment. Therefore, considering the cost of carbon emissions, the economic operation model of a micro-energy network is established with the target of the lowest daily operating cost to adjust the charging/discharging strategies of the energy storage devices, using the commercial software CPLEX. Taking an actual micro-energy network as an example, the effectiveness of the proposed model is verified, and the impact of two different energy storage capacity and charging/discharging power strategies on daily operating cost is analyzed. The results show that the proposed model can consider the impact of carbon emissions, and the operating strategy for multiple energy sources and energy storage devices is optimized to ensure the consumption of renewable energy. It achieves the lowest daily operating cost of the micro-energy network while realizing the multi-energy complement. This work is supported by the National Natural Science Foundation of China (No. 51607091), the University Philosophy and Social Science Research Fund Project of Jiangsu Provincial Department of Education (No. 2017SJB0400), and the Innovation Fund Project of Nanjing Institute of Technology (No. CKJB201908).

Key words: multi-energy complement energy storage renewable energy micro-energy network carbon emission

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