Wei Huang scite author profile

An algorithm based on a nonlinear interior-point method and discretization penalties is proposed in this paper for the solution of the mixed-integer nonlinear programming (MINLP) problem associated with reactive power and voltage control in distribution systems to minimize daily energy losses, with time-related constraints being considered. Some of these constraints represent limits on the number of switching operations of transformer load tap changers (LTCs) and capacitors, which are modeled as discrete control variables. The discrete variables are treated here as continuous variables during the solution process, thus transforming the MINLP problem into an NLP problem that can be more efficiently solved exploiting its highly sparse matrix structure; a strategy is developed to round these variables off to their nearest discrete values, so that daily switching operation limits are properly met. The proposed method is compared with respect to other well-known MINLP solution methods, namely, a genetic algorithm and the popular GAMS MINLP solvers BARON and DICOPT. The effectiveness of the proposed method is demonstrated in the well-known PG&E 69-bus distribution network and a real distribution system in the city of Guangzhou, China, where the proposed technique has been in operation since 2003.Index Terms-Distribution systems, genetic algorithms, interiorpoint methods, mixed-integer nonlinear programming, nonlinear programming, optimal switching operations, optimization solvers, reactive power control, voltage control.

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Research on the Performance Evaluation of Chongqing Electric Power Supply Bureaus Based on TOPSIS

Huang

2012

Energy Procedia

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A Data Mining Approach for Transformer Failure Rate Modeling Based on Daily Oil Chromatographic Data

Huang

et al. 2020

IEEE Access

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Modeling the Aging-dependent Reliability of Transformers Considering the Individualized Aging Threshold and Lifetime

Huang

Shao

Dong

et al. 2022

IEEE Trans. Power Delivery

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Scheduling Post-Disaster Power System Repair With Incomplete Failure Information: A Learning-to-Rank Approach

Yan

Shao

et al. 2022

IEEE Trans. Power Syst.

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Wei Huang

Reactive Power and Voltage Control in Distribution Systems With Limited Switching Operations

Research on the Performance Evaluation of Chongqing Electric Power Supply Bureaus Based on TOPSIS

A Data Mining Approach for Transformer Failure Rate Modeling Based on Daily Oil Chromatographic Data

Modeling the Aging-dependent Reliability of Transformers Considering the Individualized Aging Threshold and Lifetime

Scheduling Post-Disaster Power System Repair With Incomplete Failure Information: A Learning-to-Rank Approach

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