Litcius/Paper detail

A novel fault location method for the active distribution network based on dynamic quantum genetic algorithm

Juan Wen, Xing Qu, Jie Liu, Siyu Lin, Qiankang Xiao

2024Electrical Engineering14 citationsDOIOpen Access PDF

Abstract

Abstract The fault location of an active distribution network is a vital analysis to prevent major outages in the power system. Considering the influence of renewable distributed generations on fault characteristics, this paper proposes a novel location method based on a dynamic quantum genetic algorithm to solve for fault locations in active distribution networks. In the method, the fault current code is measured based on feeder terminal units. A universal switching function is presented to convert the feeder switch status into an uploaded fault current code. The fault location model is defined as an optimization problem that presents the evaluation objective function with an anti-false-positive factor. The dynamic quantum genetic algorithm is developed to locate the fault feeder according to the uploaded fault current code of the feeder terminal unit. The algorithm adopts dynamic rotating gate strategy and adaptive quantum crossover strategy to satisfy the requirements of quickness and accuracy for fault location. Moreover, the method avoids easily falling into a local optimum by integrating the discrete quantum mutation. The proposed fault location technique is tested and compared to other existing techniques on a 33-bus active distribution network. The simulation results show that the proposed fault location method can locate fault feeders accurately with fast computational times under conditions of single or multiple faults and with an information distortion of the feeder terminal unit.

Topics & Concepts

Fault (geology)Genetic algorithmComputer scienceAlgorithmCrossoverStuck-at faultFault indicatorEngineeringReal-time computingFault detection and isolationArtificial intelligenceMachine learningSeismologyActuatorGeologyIslanding Detection in Power SystemsPower Systems Fault DetectionOptimal Power Flow Distribution