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Impact analysis of time‐varying voltage‐dependent load models on hybrid DG planning in a radial distribution system using analytical approach

Merlin Sajini M.L., S. Suja, S. Merlin Gilbert Raj

2021IET Renewable Power Generation18 citationsDOIOpen Access PDF

Abstract

Abstract This paper investigates the impact of time‐varying voltage‐dependent load models on hybrid distributed generation planning studies. Firstly, a multi‐objective index is constructed with indices namely real and reactive power loss index, voltage deviation index, and mega‐volt‐ampere capacity index with an objective of reduction of real and reactive power loss, voltage profile improvement, and decreased line loading. The multi‐objective index derived is minimised to locate the distributed generation. Secondly, the analytical expression is obtained to size the distributed generation units with the time‐varying voltage‐dependent load models and probabilistic nature of solar and wind generation. Finally, the impact of load models with the generation effects is separately analysed for PV/wind (hybrid) distributed generation planning. The proposed perspective was validated on the IEEE 33‐bus, IEEE 69‐bus radial distribution network, and a real 16‐bus distribution substation for its effectiveness because the distributed generators are placed in the distribution side of an electrical network. The outcomes reveal that the distributed generation allocation for time‐varying voltage‐dependent load model and probabilistic nature of solar and wind has significant impacts on the distribution system by reducing real and reactive power loss, improving voltage deviation and reduced mega‐volt‐ampere intake.

Topics & Concepts

VoltageComputer scienceControl theory (sociology)Reliability engineeringEngineeringElectrical engineeringControl (management)Artificial intelligenceOptimal Power Flow DistributionPower System Optimization and StabilityPower System Reliability and Maintenance