新能源常规直流岛式输电建设模式研究

2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2) Pub Date : 2022-11-11 DOI:10.1109/EI256261.2022.10117051

Hailei He, Jian Zhang, Xiaohui Qin, Shanshan Zhao, Guo Qiang, Yantao Zhang

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引用次数: 0

摘要

为了解决高渗透可再生能源电网惯性和系统安全性下降的问题，提出了一种能够实现大型可再生能源电网与传统电网电解耦的传统直流岛式输电纯可再生能源。基于可再生能源有效容量系数，提出了纯可再生能源装机容量的计算方法。采用动态补偿装置解决了电压和惯性支撑问题。以新能源功率波动最小为目标，研究了风电与光伏的最优混合比例。研究了风电与光伏混合运输最优配比下的储能分配。以西北电网为例进行了实证分析。利用PSD-PEBL程序对功率平衡进行校验，验证了所提出传输模式的可行性。案例分析证明了所提出的输电模式的可行性，为未来大规模新能源输电提供了一种新的输电模式。

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Research on the Construction Mode of Conventional DC Island Transmission of New Energy

In order to solve the problem that the inertia and system security of high penetration renewable energy grid decreases, conventional DC island transmission pure renewable energy which can electrically decoupling between large-scale renewable energy power grid and traditional power grid was proposed. Based on the effective capacity coefficient of renewable energy, calculation method of pure renewable energy installed capacity was proposed. Voltage and inertia support problems were solved by dynamic compensation equipment. Based on the minimum power fluctuation of new energy, the optimal hybrid ratio of wind and PV power was studied. Energy storage allocation under optimal ratio of wind and PV power hybrid transportation was also researched. Empirical analysis was carried out in Northwest Power grid. PSD-PEBL program was used to check the power balance which proves the feasibility of the proposed transmission mode. Case analysis proved the feasibility of the proposed transmission mode and provided a new transmission mode for large-scale new energy transmission in the future.

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来源期刊

2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2)

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