Commutation Failure Mitigation Method Based on Imaginary Commutation Process
TL;DR: In this paper , the authors proposed an imaginary commutation process to simulate the actual execution of a commutation failure and calculated the imaginary extinction angle (EA) by comparing the imaginary supply voltage-time area and the imaginary demand voltage time area.
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Abstract: The commutation failure (CF) mitigation effectiveness is normally restricted by the delay of extinction angle (EA) measurement or the errors of existing prediction methods for EA or firing angle (FA). For this purpose, this paper proposes a CF mitigation method based on the imaginary commutation process. For each sample point, an imaginary commutation process is constructed to simulate the actual commutation process. Then, the imaginary EA is calculated by comparing the imaginary supply voltage-time area and the imaginary demand voltage-time area, which can update the imaginary EA earlier than the measured EA. In addition, the proposed method considers the impacts of commutation voltage variation, DC current vari-ation, and phase angle shift of commutation voltage on the commutation process, which can ensure a more accurate EA calculation. Moreover, the DC current prediction is proposed to improve the CF mitigation performance under the single-phase AC faults. Finally, the simulation results based on CIGRE model prove that the proposed method has a good performance in CF mitigation.
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Citations
Improved Identification Method and Fault Current Limiting Strategy for Commutation Failure in LCC-HVDC
TL;DR: In this article , the authors analyzed the normal commutation process and CF feature based on the evolution topology of converter valve conduction in detail, and proposed a CF identification method utilizing the leakage inductance energy.
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An improved prediction method of subsequent commutation failure of an LCC-HVDC considering sequential control response
Jinxin Ouyang,Xinyu Pan,Junjun Ye,Chao Xiao,Yanbo Diao,Qingwu Zhang +5 more
TL;DR: A new prediction method for subsequent commutation failure (SCF) in LCC-HVDC systems is proposed, considering sequential control response, and accurately predicts SCF through a physical principle-based approach, improving safe and stable power system operation.
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Adaptive Advancement Angle Compensation for Suppressing Commutation Failures During Rectifier- and Inverter-Fault Recovery
Zhixuan Li,Yinglin Xue,Yu Tang,Nan Chen,Conghuan Yang +4 more
TL;DR: The root cause of commutation failures (CFs) during fault recovery in High-Voltage Direct Current (HVDC) systems based on Line-Commutated Converter (LCC) is the long duration of CC control at both ends and the inability of CEA control to maintain commutation margin after control mode switching. An adaptive advancement (beta) angle (ABA) control is proposed to mitigate CFs under both fault scenarios.
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DC Current Order Optimization Based Strategy for Recovery Performance Improvement of LCC-HVDC Transmission Systems
TL;DR: In this paper , a DC current order optimization based strategy is proposed for the safe and fast recovery of line commutated converter based high-voltage direct current (LCC-HVDC) transmission systems after faults.
Impact Mechanisms of Commutation Failure Caused by a Sending-End AC Fault and Its Recovery Speed on Transient Stability
TL;DR: This study investigates the impact of commutation failure caused by a sending-end AC fault on transient stability in LCC-HVDC systems, analyzing recovery speed and its effects on power system stability, validated by Kundur's two-area system and IEEE 68-bus test systems.
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