A Study on Fault Current Limiter Installation in Power System Network

Yang, Chien-Chih

10 September 2007

Due to the difficulty of reinforcement in power network and the interconnection of more distributed generators, fault current level has become a serious problem in transmission and distribution system operations. The utilization of fault current limiters (FCLs) in power system provides an effective way to suppress the fault currents. In this thesis the sensitivity of impedance matrix due to changes in the branch parameters is derived and used to choose the candidates for FCL installation in a complex power system. The proposed method also considers the effect on power system transient stability due to the installation of FCL. The Extended Equal Area Criterion (EEAC) is used to simplify the multi-machine transient stability problem to a simple equivalent modal and to simplify the transient stability evaluation. A fuzzy logic approach considering impedance of FCL, transient stability and voltage sag effects is used to choose good FCL installation locations in loop transmission systems.

fault current limiter

sensitivity analysis

transient stability

MITIGATION OF SYNCHRONOUS MACHINE BASED DISTRIBUTED GENERATION INFLUENCES ON FUSE-RECLOSER PROTECTION SYSTEMS IN RADIAL DISTRIBUTION NETWORKS USING SUPERCONDUCTING FAULT CURRENT LIMITERS

2015 February 1900

Distributed generation (DG) is increasingly employed in modern utility grids to address the growing complexity and size of consumer energy demands. The obstacles associated with DG integration are related to the additive effect the DG has on the short circuit current characteristics of power systems during short circuit conditions. This thesis proposes a novel mitigation technique for synchronous machine based DG integration effects on existing radial fuse-recloser protection infrastructure. The mitigation method provides a comparative analysis of the utilization of resistive (R), inductive (L) and resonant (LC) type superconducting fault current limiters (FCLs) for prevention of excessive fault current contribution from DG sources. Within the frame of reference of this thesis is an interrogation into the effects of synchronous machine based DG sources, in conjunction with mitigation capabilities of FCL integration in the context of fuse-recloser coordination, recloser sensitivity and recloser directionality behavior during radial distribution short circuit conditions. For validation purposes, the proposed methods are demonstrated on a suburban test benchmark using the PSCAD/EMTDC program.

Non-inductive solenoid coils based on second generation high-temperature superconductors and their application in fault current limiters

Liang, Fei

January 2017

The gradual increase in global warming and environmental pollution has made low-carbon technologies an urgent need for the whole world. Superconducting technology, which is known for its extremely high conductivity and high power density, is capable enough to provide novel solutions, contributing to the future smart grid, thus aiding the power industry towards the realisation of a low-carbon and green planet. In recent decades, several industrial applications using superconducting technology have been developed. Of them, particularly in the power industry, a range of superconducting applications including superconducting magnetic energy storage (SMES), superconducting motors/generators, superconducting cables and superconducting fault current limiters (SFCLs) have been developed. Among them, SFCLs are one of the most promising and are successfully being implemented in power distribution networks. SFCLs exhibit low impedance during normal operation and gain considerable impedance under a fault condition, providing a new solution to the increasingly high fault current levels. However, most of the SFCL projects are limited to low-voltage and medium-voltage levels, there are very few successful operational trials of high voltage SFCLs. This thesis, for the first time, studies the comprehensive characteristics of solenoid type SFCLs based on second generation (2G) high temperature superconductors (HTS), which may be successfully implemented in power grids with high voltage levels. The main contributions of this work include three aspects: 1) proposing an innovative method for simulating the AC losses of the solenoid coils and an electro-magneto-thermal model for simulating the SFCL’s current limiting property; 2) comprehensive and in-depth comparison study concerning the application of the two types of non-inductive solenoid coils (braid type and non-intersecting type) in SFCLs both experimentally and numerically; and 3) the first and thorough discussion of the impact of different parameters such as pitch and radius of coils to the overall performance of braid type SFCLs and the validation of the braid type SFCL concept with a 220 V/300 A SFCL prototype. Based on these experimental and simulation works, the thesis provide strong guidance for the development of future non-inductive solenoid type SFCLs based on 2G HTS, which are promising for high voltage level power grid applications.

537.6

Reduction Effect of Semiconductor Type Fault Current Limiter on Interrupting Duty of a Circuit Breaker

Calixte, Evenson, Yokomizu, Yasunobu, Shimizu, Hirotaka, Matsumura, Toshiro, Fujita, Hideki

04 1900

No description available.

Fault current limiter

circuit breaker

transient recovery voltage

interrupting duty

Design guideline of flux-lock type HTS fault current limiter for power system application

Matsumura, T., Shimizu, H., Yokomizu, Y.

03 1900

No description available.

fault current limiter

high Tc superconducting element

magnetic field

resistance

Proposal of flux flow resistance type fault current limiter using Bi2223 high T/sub c/ superconducting bulk

Shimizu, H., Yokomizu, Y., Matsumura, T., Murayama, N.

03 1900

No description available.

Bi2223 bulk

fault current limiter

flux flow resistance

joule heat

Fundamental performance of flux-lock type fault current limiter with two air-core coils

Matsumura, T., Kimura, A., Shimizu, H., Yokomizu, Y., Goto, M.

06 1900

No description available.

Bi2223 bulk

fault current limiter

flux-lock

magnetic field

A study on required volume of superconducting element for flux flow resistance type fault current limiter

Shimizu, H., Yokomizu, Y., Goto, M., Matsumura, T., Murayama, N.

06 1900

No description available.

Critical current

element volume

fault current limiter

flux flow resistance

Current Limiting Characteristics of Parallel-Connected Coated Conductors for High-Tc Superconducting Fault Current Limiting Transformer (HTc-SFCLT)

Omura, Koki, Kojima, Hiroki, Hayakawa, Naoki, Endo, Fumihiro, Noe, Mathias, Okubo, Hitoshi

06 1900

No description available.

Superconducting fault current limiter

YBCO coated conductor

superconducting transformer

Development of high temperature superconducting fault current limiting transformer (HT/sub c/-SFCLT) with Bi2212 bulk coil

Kurupakorn, C., Hayakawa, N., Kashima, N., Nagaya, S., Noe, M., Juengst, K.-P., Okubo, H.

06 1900

No description available.

MCP-BSCCO2212

recovery

superconducting fault current limiter

superconducting transformer