Automatic generation control by SMES-SMES controllers of two-area hydro-hydro system

2014 1st International Conference on Non Conventional Energy (ICONCE 2014) Pub Date : 2014-05-01 DOI:10.1109/ICONCE.2014.6808731

Adhit Roy, S. Dutta, P. Roy

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引用次数: 8

Abstract

In this paper, oppositional biogeography based optimization (OBBO) algorithm for load frequency control with interconnected two-area hydro-hydro power system have been investigated. As a consequence of continually load variation, the frequency of the power system changes over time. To stabilize the system frequency oscillations, the active power can be controlled via superconducting magnetic energy storage device (SMES). The significant improvement of optimal transient performance is observed with the addition of SMES unit fitted in both areas. Analysis reveals that SMES unit fitted in either of the areas is as effective as SMES units fitted in both the areas and improves the dynamic performances to a considerable extent following a load disturbance in either of the areas. Gains of the integral controller in LFC loop and parameters of SMES are optimized with the help of OBBO technique. The performance of the proposed OBBO based controller is better as compared with BBO, CRPSO and RGO controller in the presence of SMES. The simulation results indicate the superiority of the proposed OBBO based controller with SMES in terms of system oscillations, settling time and frequency deviation.

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双区水力发电系统中小企业控制器的自动发电控制

本文研究了基于对立生物地理的两区互联水电系统负荷频率优化算法。由于负荷不断变化，电力系统的频率随时间而变化。为了稳定系统的频率振荡，可以通过超导磁储能装置(SMES)来控制有功功率。在两区均安装了SMES装置后，优化暂态性能得到了显著改善。分析表明，安装在任何一个区域的中小企业单元与安装在两个区域的中小企业单元一样有效，并且在相当程度上改善了任何一个区域的负载扰动后的动态性能。利用OBBO技术对LFC环积分控制器的增益和SMES参数进行了优化。与BBO、CRPSO和RGO控制器相比，本文提出的基于OBBO的控制器在中小企业存在下的性能更好。仿真结果表明，基于OBBO的SMES控制器在系统振荡、稳定时间和频率偏差方面具有优越性。

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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2014 1st International Conference on Non Conventional Energy (ICONCE 2014)

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