Development and Field Test of Movable Conduction-Cooled High Temperature SMES

2010 IEEE Industry Applications Society Annual Meeting Pub Date : 2010-11-01 DOI:10.1109/IAS.2010.5614527

Jiakun Fang, Haishun Sun, L. Ren, J. Wen, Weijen Lee, Youping Xu, Xiaotao Peng

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引用次数: 1

Abstract

With the large scale renewable energy being put into utility power system, the active power imbalance becomes one of the major problems. The novel power system stabilizer (PSS) based on energy storage system (ESS) seems to be a potential solution to mitigate fluctuation of both power generation and consumption. Superconducting magnetic energy storage system (SMES) is getting increasing acceptance in various applications of power system for higher efficiency and faster response than other ES devices. This paper introduces the development of a movable conduction-cooled high temperature SMES module as potential energy storage system. For utility power system use, the developed SMES system is with the feature of movable, high temperature superconducting (HTS) and conduction cool. Laboratory experiments including operational characteristics and improvement of power system stability have been carried out. Field experiments have also been carried out in Laohukou hydro power plant in Hubei province of China. Results of both laboratorial and field tests demonstrate the well design and manufacture of the developed movable SMES module.

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可移动导冷式高温SMES的研制与现场试验

随着可再生能源大规模投入公用电力系统，有功功率失衡问题日益突出。基于储能系统(ESS)的新型电力系统稳定器(PSS)似乎是缓解发电和用电波动的潜在解决方案。超导磁储能系统由于具有比其他ES器件更高的效率和更快的响应速度，在电力系统的各种应用中得到越来越多的认可。本文介绍了一种可移动的电导冷却高温SMES模块作为潜在储能系统的研制。在公用电力系统中，开发的中小企业系统具有可移动、高温超导和传导冷却的特点。进行了运行特性和提高电力系统稳定性的室内实验。在中国湖北省老壶口水电站也进行了田间试验。实验和现场试验结果表明，所开发的可移动SMES模块的设计和制造效果良好。

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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2010 IEEE Industry Applications Society Annual Meeting

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