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design of non-interacting controllers for pv systems in distribution networks

Version 2 2024-05-30, 09:36
Version 1 2016-06-07, 18:26
journal contribution
posted on 2024-05-30, 09:36 authored by MJ Hossain, M Mahmud, HR Pota, N Mithulananthan
This paper makes two contributions. Firstly, it is shown that there may exist oscillations in distribution networks with physically close photovoltaic (PV) units due to their control interactions. The main reason for oscillations is changes in the dynamics of PV units with varying solar irradiance and the decentralized tuning of control parameters for the nominal operating condition. Eigenvalue analysis, nonlinear interaction index, and time-domain simulations are used to assess the degree and impacts of dynamic interactions. Secondly, a decentralized robust control design is proposed to ensure a non-interacting and well-damped response under varying operating conditions for physically close PV units. The control design process uses an estimate of changes in the model due to variations in solar irradiations, changing electric loads, and the dynamics of the physically close PV units. A minimally conservative method is used to capture the estimate as a norm-bounded uncertainty. Time-domain simulations on a test distribution system verify the predictions of the interaction analysis and demonstrate the performance of the proposed robust controller under different system contingencies.

History

Journal

IEEE Transactions on Power Systems

Volume

29

Pagination

2763-2774

Location

Piscataway, N.J.

ISSN

0885-8950

Language

eng

Publication classification

C Journal article, C1.1 Refereed article in a scholarly journal

Copyright notice

2014 IEEE

Issue

6

Publisher

Institute of Electrical and Electronics Engineers

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