A Combined Approach of Using an SDBR and a STATCOM to Enhance the Stability of a Wind Farm

Muyeen, S. M.

doi:10.1109/jsyst.2013.2297180

Cited by 56 publications

(34 citation statements)

References 31 publications

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“…A centralized control scheme of using a small SDBR and a STATCOM is introduced in Ref. [94] as shown in Fig. 19.…”

Section: Other Methodsmentioning

confidence: 99%

“…The two foremost types of LVRT capability enhancement methods are external devices based methods and modified controller based methods. Energy Storage Systems (ESSs) , Braking Chopper (BC) or active crowbar system [66][67][68][69][70], FACTS devices [71][72][73][74][75][76][77][78][79][80][81][82][83][84][85][86][87][88][89][90] and some other methods such as Series Dynamic Breaking Resistor (SDBR), electronic on Load Tap Changer (OLTC) [91][92][93][94][95] are popular methods for LVRT capability enhancement using external devices. Pitch Angle Control (PAC) [96][97][98][99] and modified back-to-back converter controllers [100][101][102][103][104][105][106][107][108] are modified controller based methods.…”

Section: Low Voltage Ride Through Capability Enhancementmentioning

confidence: 99%

See 1 more Smart Citation

A review of low-voltage ride-through enhancement methods for permanent magnet synchronous generator based wind turbines

Nasiri

Milimonfared

Fathi

2015

Renewable and Sustainable Energy Reviews

193

134

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“…A centralized control scheme of using a small SDBR and a STATCOM is introduced in Ref. [94] as shown in Fig. 19.…”

Section: Other Methodsmentioning

confidence: 99%

Section: Low Voltage Ride Through Capability Enhancementmentioning

confidence: 99%

A review of low-voltage ride-through enhancement methods for permanent magnet synchronous generator based wind turbines

Nasiri

Milimonfared

Fathi

2015

Renewable and Sustainable Energy Reviews

193

134

View full text Add to dashboard Cite

“…A DFIG with a crowbar circuit is a very common solution for LVRT [14,15], but this solution is confined to the rotor side, such as limiting DC capacitor voltage and rotor current. A STATCOM can improve the LVRT performance of a wind farm [16], and it is often used in collaboration with crowbar circuits. The SDBR in [17] could improve the LVRT capacity of a DFIG, and the bypass switching control mode uses the method introduced in [18].…”

Section: Introductionmentioning

confidence: 99%

Research on Double-Fed Induction Generator Low Voltage Ride Through Based on Double Braking Resistors Using Fuzzy Control

Dong

Pan

et al. 2018

Energies

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The stator side of a double-fed induction generator (DFIG) is directly connected to the grid, so the DFIG is sensitive to a voltage drop caused by power system faults. A double resistors braking method based on fuzzy control is proposed to improve the performance of low-voltage ride through (LVRT) in this paper. Based on the mathematical model of DFIG, it analyzes the function of a series dynamical braking resistor (SDBR) theoretically. The series impedance value of the SDBR is determined by the variation of the rotor's open circuit voltage, the voltage and current of the stator and the rotor, and also the heat capacity of the SDBR. In order to improve the LVRT capability of a DFIG under different fault grads, a double series resistors braking mode is presented. Through adopting a fuzzy control strategy, double series resistor switching is implemented. With the example system, the correctness and validity of the proposed method is verified.Energies 2018, 11, 1155 2 of 16 sequence current compensation strategy can smooth the electromagnetic torque and reactive power during steady-state faults [9,10]. And the optimization of the control strategy is complex in the period of unsymmetrical faults [11][12][13]. On the other hand, hardware solutions have also been proposed. A DFIG with a crowbar circuit is a very common solution for LVRT [14,15], but this solution is confined to the rotor side, such as limiting DC capacitor voltage and rotor current. A STATCOM can improve the LVRT performance of a wind farm [16], and it is often used in collaboration with crowbar circuits. The SDBR in [17] could improve the LVRT capacity of a DFIG, and the bypass switching control mode uses the method introduced in [18]. They realized the switching function of the SDBR when the fault occurred or removed, but it could not change the switching state according to the degree of failure. The switching strategy of different SDBRs and the effect under different power factors are current research topics [19]. The effective position of the SDBR in the DFIG structure was investigated using different types of switching signals in [20,21], but they have no specific research on the SBDR controller.In this paper, a double resistors braking method based on fuzzy control is proposed, which is based on the system characteristics of a DFIG at different voltage drop depths. The double resistance switching mode of an SDBR is also designed. The series resistance values are selected by the open circuit voltage and the resistor's heat capacity. In order to improve the LVRT performance of the DFIG, the fuzzy control mode is used to realize double resistance switching.Compared with existing LVRT devices, the contributions of the proposed method can be described as:(1) There are few studies on the value of series resistance. In addition to the stator and rotor voltage and current, the open circuit voltage and the heat capacity of the brake resistance are considered in this paper, and the range of the braking resistance is designed.(2) The proposed double resista...

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“…Series-braking resistors are very useful for stability enhancement, and unlike parallel-braking resistors, they can be used to act during fault to provide energy balance and enhance the machine's critical clearing time [16]- [18]. In this type, a resistor is put in parallel with a conventional mechanical switch that can be controlled by a fault-triggering scheme, but it has very slow response time.…”

mentioning

confidence: 99%

“…In this type, a resistor is put in parallel with a conventional mechanical switch that can be controlled by a fault-triggering scheme, but it has very slow response time. Further research shows that the seriesbraking resistor's performance can be significantly enhanced by the use of solid-state switches such as insulated-gate bipolar transistors [18].…”

mentioning

confidence: 99%

Hybrid HTS-FCL Configuration With Adaptive Voltage Compensation Capability

Alaraifi¹,

Moursi²

2014

IEEE Trans. Appl. Supercond.

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This paper introduces a new hybrid high-temperature superconducting (HTS) fault current limiter (FCL) for improving the transient response system recovery with minimum utilization of HTS material. The hybrid HTS-FCL comprises a reduced size of HTS material connected in series with multistep braking resistors. The presented hybrid HTS-FCL utilizes the fast quench phenomena of HTS materials to ensure fast current limiting action and the multistep braking resistors to provide an adaptive voltage compensation during voltage dips. This combination of HTS and braking resistors allows the HTS material to recover faster by lowering its operating time, mitigates the issue of slow response in conventional braking resistors, and keeps the system fault level below the maximum limit even during offline recovery of its HTS component. A dynamic model representing the hybrid HTS-FCL is developed in PSCAD/EMTDC using a current-dependent model for the HTS combined with dynamic braking resistors associated with a phase voltage control scheme and an HTS bypass scheme for each phase individually. The proposed configuration is tested in a single-machine-to-infinite-bus test system in response to symmetrical and asymmetrical fault conditions. A comprehensive simulation analysis demonstrated the effective performance of the hybrid HTS-FCL with capability of fast fault current limitation and voltage boosting.Index Terms-Angular stability, dynamic braking resistor hightemperature superconductor, hybrid fault current limiter (FCL), voltage recovery.

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A Combined Approach of Using an SDBR and a STATCOM to Enhance the Stability of a Wind Farm

Cited by 56 publications

References 31 publications

A review of low-voltage ride-through enhancement methods for permanent magnet synchronous generator based wind turbines

A review of low-voltage ride-through enhancement methods for permanent magnet synchronous generator based wind turbines

Research on Double-Fed Induction Generator Low Voltage Ride Through Based on Double Braking Resistors Using Fuzzy Control

Hybrid HTS-FCL Configuration With Adaptive Voltage Compensation Capability

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