《电力自动化设备》

引用本文:	李生虎,安锐,许志峰,董王朝.混合风电场中PMSG协助感应发电机低电压穿越[J].电力自动化设备,2015,35(2):
	LI Shenghu,AN Rui,XU Zhifeng,DONG Wangchao.Coordinated LVRT of IG and PMSG in hybrid wind farm[J].Electric Power Automation Equipment,2015,35(2):

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混合风电场中PMSG协助感应发电机低电压穿越
李生虎¹, 安锐¹, 许志峰², 董王朝¹
1.合肥工业大学电气与自动化工程学院，安徽合肥 230009;2.国家电网江西省电力公司检修分公司，江西南昌 330029

摘要:

针对直驱永磁同步机组（PMSG）协同感应风电机组（IG）低电压穿越（LVRT）问题，提出PMSG最少台数的定量算法。根据转矩平衡关系，计算IG滑差失稳的临界转差率。根据临界转差率和故障持续时间，对转矩平衡方程积分，得到IG不失稳时公共连接点临界电压。根据并网导则的最严重电压跌落，推导协助IG LVRT所需无功和PMSG最少台数。给出动态仿真结果以验证协同LVRT效果，量化了理论推导误差。发现IG惯性时间常数或转子电阻越大，机械转矩或定子电抗越小，故障时间越短，临界电压越低，PMSG越容易协助IG LVRT；对临界电压影响从大到小依次为IG机械转矩、故障时间、IG转子电阻、IG惯性时间常数和定子电抗。

关键词: 风电场低电压穿越感应发电机直驱永磁同步发电机临界电压

DOI：

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基金项目:国家自然科学基金资助项目（51277049）

Coordinated LVRT of IG and PMSG in hybrid wind farm

LI Shenghu¹, AN Rui¹, XU Zhifeng², DONG Wangchao¹

1.School of Electrical Engineering and Automation，Hefei University of Technology，Hefei 230009，China;2.Maintenance Department，Jiangxi Electric Power Company，Nanchang 330029，China

Abstract:

An algorithm is proposed to figure out the minimum sets of direct-driven PMSG（Permanent-Magnet Synchronous Generator） required for the coordinated LVRT（Low-Voltage Ride-Through） of IG（Induction Generator） and PMSG. The critical slip for yielding IG instability is calculated according to the torque balance relation and the integration of the torque balance equation according to the critical slip and the fault duration is carried out to obtain the critical voltage of PCC（Point of Common Coupling） for maintaining IG stability. According to the severest voltage drop stipulated in the grid code，the required reactive power and the minimum sets of PMSG for the coordinated LVRT of IG and PMSG are derived. The dynamic simulation is performed to validate the effect of coordinated LVRT and quantify the error of theoretical derivation. It is found that，larger IG inertia time constant，larger IG rotor resistance，less IG mechanical torque，less IG stator reactance or shorter fault duration yields lower critical voltage，resulting in easier coordinated LVRT of IG and PMSG. The influence of following factors on the critical voltage is sorted from bigger to smaller：IG mechanical torque，fault duration，IG rotor resistance，IG inertia time constant，IG stator reactance.

Key words: wind farms low-voltage ride-through induction generator direct-driven permanent-magnet synchronous generator critical voltage

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