[논문]System-Level Vulnerability Analysis for Commutation Failure Mitigation in Multi-infeed HVDC Systems

Yoon, Minhan; Jang, Gilsoo

doi:10.5370/jeet.2018.13.3.1052

System-Level Vulnerability Analysis for Commutation Failure Mitigation in Multi-infeed HVDC Systems 원문보기

Journal of electrical engineering & technology, v.13 no.3, 2018년, pp.1052 - 1059

Yoon, Minhan (Department of Electrical Engineering, Tongmyong University) , Jang, Gilsoo (School of Electrical Engineering, Korea University)

Abstract ▼ AI-Helper

This paper deals with commutation failure of the line-commutated converter high voltage direct current (LCC HVDC) system caused by a three phase fault in the ac power system. An analytic calculation method is proposed to estimate the maximum permissible voltage drop at the LCC HVDC station on various operating point and to assess the area of vulnerability for commutation failure (AOV-CF) in the power system based on the residual phase voltage equation. The concept is extended to multi-infeed HVDC power system as the area of severity for simultaneous commutation failure (AOS-CF). In addition, this paper presents the implementation of a shunt compensator applying to the proposed method. An analysis and simulation have been performed with the IEEE 57 bus sample power system and the Jeju island power system in Korea.

주제어

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문제 정의

This paper presented a method to analyze the area of vulnerability for commutation failure by the three-phase fault based on an analytical approach. Sequentially, the area of severity for simultaneous commutation failure is analyzed for multi-infeed HVDC systems.

제안 방법

The effect of the shunt compensator on the prevention of commutation failure was recently presented [15]. In this paper, an equivalent modeling method presented to apply the shunt compensator for the assessment of the area of severity (AOS). The proposed methods were case studied on the IEEE 57 bus test system and the Jeju island power system in Korea, where the real multi-infeed HVDC systems exist.
Furthermore, the analytic model can be easily applied and expanded to other fields of power system analysis. The proposed method looks forward to be usefully utilized in real-time monitoring system, control strategy establishment for preventing undesired damage, and long-term power system planning.
To ensure a stable multi-infeed system operation from simultaneous commutation failure, this paper proposes analyzing the critical voltage drop or severity of the fault leading to commutation failure using analytic method and estimating the area vulnerable to simultaneous commutation failure in multi-infeed system. In this paper, a method to estimate vulnerable areas for simultaneous commutation failure in multi-infeed systems for the threephase fault, most severe disturbance for voltage depression, is proposed.

이론/모형

In this paper, the analytic calculation method is utilized to determine the critical voltage drop limit for commutation failure analysis. It is possible to identify the critical conditions for commutation failure at inverter stations regarding the amount of critical voltage drop required to induce the commutation failure analytic calculation [19].

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