Litcius/Paper detail

A Novel Method for Seamless Closed-Loop Load Transfer in Radial Distribution Networks

Junlin Li, Xiaocong Wang, Cong Xie, Jie Han, Chengxiong Mao, Xiao Liu, Dan Wang, Yanyu Zhang, Zhitao Guan, Xu Zhang

2022IEEE Transactions on Industry Applications12 citationsDOI

Abstract

Closed-loop load transfer is an effective measure to improve the power supply reliability of radial distribution networks. However, the traditional closed-loop load transfer mode is passive for operators: the loop closing operation relies on complex network models and calculation methods, which is feasible for the distribution network with many sensors, but it is not practical for the low-voltage distribution network with a complex structure. The field operation is still based on the experience of operators, resulting in uncertainty of the loop closing and large loop-closing current. Besides, the coordination of multiple power sources for guaranteeing power supply can not guarantee the power quality and the economic cost is high, in which the adopted closed-loop device is not movable and has poor reusability. This article presents an active loop-closing mode: a seamless closed-loop load transfer system (SLTS), which can not only realize uninterrupted load transfer but also eliminate loop closing surge current and expand the application range of closed-loop load transfer. In the proposed system configuration, a series compensation voltage source is connected to two substations. Therefore, closed-loop current can be controlled flexibly by regulating this voltage source. The proposed system can be applied to adjacent substations to carry out closed-loop load transfer operations during equipment maintenance. Besides, it can be installed between two radial feeders to achieve seamless fault seal-healing. The control strategy of seamless closed-loop load transfer and fault seamless self-healing are proposed, respectively. The effectiveness of the proposed SLTS and the designed control strategy are validated via MATLAB/Simulink.

Topics & Concepts

Maximum power transfer theoremFault (geology)Closing (real estate)Control theory (sociology)Closed-loop transfer functionLoop (graph theory)Current loopVoltagePower (physics)Compensation (psychology)Loop fissionComputer scienceEngineeringTransfer functionElectrical engineeringControl (management)PsychologyPhysicsPsychoanalysisLawProgramming languagePolitical scienceCombinatoricsMathematicsCompilerArtificial intelligenceSeismologyQuantum mechanicsGeologyPower System Optimization and StabilityOptimal Power Flow DistributionMicrogrid Control and Optimization