Smart Over Speed Protection of Zafarana Grid-connected Wind Farm during Wind Gust Conditions

Q2 Engineering
M. Mahfouz, Mohamed El Sayed Ah
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引用次数: 0

Abstract

The increasing share of renewable energy in electricity generation requires an effective operation and protection scheme using Smart Grid (SG) technologies. Smart meters of SG allow the transfer of the measured signals in the wind farm to the operation and protection centre of the SG. Such signals transmission can improve the farm performance and reduce system cost. The secure operation of wind farms requires an efficient over speed protection of the turbines under wind gust conditions. Therefore, this paper is concerned with integration of a new over speed protection algorithm with the existing protection centre in SG. The main objective of the proposed algorithm is the dynamic updating of Critical Clearing Time (CCT) for over speed protective relays against severe wind gusts to minimize loss of life and component damage. In this respect, long-term data of wind speed of Zafarana farm have been collected and processed to define gust intensity and its distribution Moreover, the geographical farm area is classified to different rows according to the recorded gust values. A smart relay setting will be formulated by developing heuristic algorithm, which relates CCT with the gust intensity, and its row along the geographical area of Zafarana farm. Accordingly, general two variables second order function will propose to identify the dynamic CCT based on wind speed measured by smart meters installed on each wind farm row. The digital relay settings are updated according to the determined CCT using the communication facilities existing in the SG. The simulation results indicate that the proposed over speed protection improves significantly the performance of the grid connected wind farm under wind gust conditions.
Zafarana并网风电场阵风条件下的智能超速保护
随着可再生能源在发电中所占份额的不断增加,需要采用智能电网技术的有效运行和保护方案。SG的智能电表允许将风电场的测量信号传输到SG的操作和保护中心。这样的信号传输可以提高农场性能,降低系统成本。风力发电场的安全运行需要在阵风条件下对涡轮机进行有效的超速保护。因此,本文研究了一种新的超速保护算法与SG现有保护中心的集成。该算法的主要目标是动态更新超速保护继电器在强阵风下的临界清除时间(CCT),以最大限度地减少人员伤亡和元器件损坏。为此,收集并处理了Zafarana农场的长期风速数据,定义了阵风强度及其分布,并根据记录的阵风值将农场地理区域划分为不同的行。通过开发启发式算法,将CCT与阵风强度及其沿Zafarana农场地理区域的排列联系起来,形成智能中继设置。据此,提出一般的两变量二阶函数,根据安装在各风电场排上的智能电表测量的风速来识别动态CCT。使用SG中现有的通信设施,根据确定的CCT更新数字中继设置。仿真结果表明,所提出的超速保护方法显著提高了阵风条件下并网风电场的性能。
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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CiteScore
2.10
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0.00%
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