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气囊式压缩超临界二氧化碳储能动态建模
Dynamic Modeling of Gasbag-Structured Compressed Supercritical Carbon Dioxide Energy Storage
| 作者 | Xiaoming Liu · Jun Liu · Yu Zhao · Kezheng Ren · Fu Ping · Tao Ding |
| 期刊 | IEEE Transactions on Sustainable Energy |
| 出版日期 | 2024年12月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 调峰调频 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 大规模长时储能系统 气囊式压缩超临界二氧化碳储能 动态模型 频率调节 电力系统 |
语言:
中文摘要
为缓解高渗透率可再生能源带来的不利影响,大规模长时储能系统(LSLD-ESSs)受到广泛关注。现有技术如抽水蓄能和压缩空气储能受限于地理条件。为此,气囊式压缩超临界二氧化碳储能(G-CSCES)被提出,但当前研究多集中于㶲经济性优化,且传统洞穴式模型不适用于G-CSCES,限制了其在辅助服务中的应用。本文提出包含热力学与功率动态的G-CSCES综合动态模型,以提升其在电力系统频率调节中的适用性,并在实际系统上验证了模型有效性。
English Abstract
To mitigate the adverse effects of high-penetration renewable energy, large-scale, long-duration energy storage systems (LSLD-ESSs) have gained significant attention. Currently, feasible LSLD-ESSs, such as pumped hydro energy storage (PHES) and compressed air energy storage (CAES), face limitations due to specific terrestrial constraints. To address these challenges, gasbag-structured compressed supercritical carbon dioxide energy storage (G-CSCES) has been developed. However, existing studies primarily focus on exergoeconomic optimization, and current cavern-structured CAES models are not applicable to G-CSCES, hindering its use for ancillary services. This letter proposes a comprehensive dynamic model for G-CSCES, encompassing thermodynamic and power dynamic, to enhance its application for frequency regulation in power systems. The proposed model is tested on a real G-CSCES.
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SunView 深度解读
该G-CSCES动态建模技术对阳光电源PowerTitan储能系统和ST系列储能变流器具有重要参考价值。研究提出的热力学与功率动态综合模型可为阳光电源储能系统的频率调节功能提供新思路,特别是在构网型GFM控制和虚拟同步机VSG技术中,可借鉴其动态响应建模方法优化控制算法。该技术突破传统地理限制的长时储能方案,与阳光电源ESS集成方案形成互补,可拓展公司在大规模储能领域的技术储备。此外,其㶲经济性分析方法可应用于iSolarCloud平台的储能系统优化调度和预测性维护功能,提升系统整体经济性。