Research and economic evaluation on novel pulse superconducting magnet power supply topology with energy storage for fusion devices

IF 1.9 3区 工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Hang Su , Zhiquan Song , Hua Li , Meng Xu , Zhenhan Li
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引用次数: 0

Abstract

Large capacity fusion devices power supply poses a significant challenge to the stability of power grid, as it can lead to power outages and jeopardize the safety of fusion devices. And traditional distribution methods result in a significant waste of resources. This paper proposes novel topologies with integrated energy storage. In these topologies, high-amplitude pulsed power is supplied by the energy storage devices, while low-amplitude stable power is obtained from the grid. This decouples the pulsed power from power grid, and significantly reducing its impact. Moreover, it can reduce the design capacity of distribution equipment and lowers investment costs. To optimize the deployment of the energy storage device, a hybrid topology is proposed, which further reducing the cost of the novel power supply. Additionally, a cost model for the fusion power supply is developed and validated using simulation data from ITER. Through the case study shows that the HEPS topology saves more than 10 % of the investment cost and about 60 % of the annual operating cost compared to the traditional converter topology.

用于聚变设备的新型脉冲超导磁体储能电源拓扑研究与经济性评估
大容量聚变装置供电对电网的稳定性提出了巨大挑战,因为它可能导致停电,危及聚变装置的安全。而传统的配电方法会造成大量资源浪费。本文提出了集成储能的新型拓扑结构。在这些拓扑结构中,高振幅脉冲功率由储能设备提供,而低振幅稳定功率则从电网获取。这使脉冲功率与电网脱钩,大大降低了脉冲功率对电网的影响。此外,它还能减少配电设备的设计容量,降低投资成本。为了优化储能装置的部署,提出了一种混合拓扑结构,从而进一步降低了新型电源的成本。此外,还开发了聚变电源的成本模型,并利用国际热核聚变实验堆的模拟数据进行了验证。案例研究表明,与传统的转换器拓扑结构相比,HEPS 拓扑结构可节省 10% 以上的投资成本和 60% 左右的年运营成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Fusion Engineering and Design
Fusion Engineering and Design 工程技术-核科学技术
CiteScore
3.50
自引率
23.50%
发文量
275
审稿时长
3.8 months
期刊介绍: The journal accepts papers about experiments (both plasma and technology), theory, models, methods, and designs in areas relating to technology, engineering, and applied science aspects of magnetic and inertial fusion energy. Specific areas of interest include: MFE and IFE design studies for experiments and reactors; fusion nuclear technologies and materials, including blankets and shields; analysis of reactor plasmas; plasma heating, fuelling, and vacuum systems; drivers, targets, and special technologies for IFE, controls and diagnostics; fuel cycle analysis and tritium reprocessing and handling; operations and remote maintenance of reactors; safety, decommissioning, and waste management; economic and environmental analysis of components and systems.
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