V. Ravikumar Pandi scite author profile

In this paper, a new optimization problem is proposed to determine the maximum distributed generation (DG) penetration level by optimally selecting types, locations and sizes of utility owned DG units. The DG penetration level could be limited by harmonic distortion because of the nonlinear current injected by inverter-based DG units and also protection coordination constraints because of the variation in fault current caused by synchronous-based DG units. Hence the objective of the proposed problem is to maximize DG penetration level from both types of DG units, taking into account power balance constraints, bus voltage limits, total and individual harmonic distortion limits specified by the IEEE-519 standard, over-current relay operating time limits, and protection coordination constraints. The DG penetration study is formulated as a nonlinear programming (NLP) problem and tested on the IEEE-30 bus looped distribution network with ten load and DG scenarios. Similarly, feasibility assessment of customer owned DG unit installations considering power quality and protection coordination is also studied. Simulation results show the effectiveness of the proposed approach, which can serve as an efficient planning tool for utility operators.

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Bacterial foraging optimisation: Nelder–Mead hybrid algorithm for economic load dispatch

Panigrahi

Pandi

2008

IET Gener. Transm. Distrib.

262

104

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Optimal feature selection for classification of power quality disturbances using wavelet packet-based fuzzy k-nearest neighbour algorithm

Panigrahi

Pandi

2009

170

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A Protection Coordination Index for Evaluating Distributed Generation Impacts on Protection for Meshed Distribution Systems

Zeineldin¹,

Mohamed

Khadkikar³

et al. 2013

IEEE Trans. Smart Grid

138

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