Improving the Voltage Stability of the Nigeria 44- Bus 330KV Power Transmission Network using ANN Based Adaptive STATCOM Device

Authors

  • E.N. Aneke
  • E.N.C Okafor
  • Iyidobi J.C

Keywords:

ANN, Eigenvalue, Modal, participating factor, STATCOM, Voltage Stability

Abstract

This paper is targeted on the improvement of the Nigeria 330kV 44Bus network voltage stability using ANN based adaptive STATCOM. The three-phase version of the test network was modelled in MATLAB-SIMULINK for simulations. Using the data obtained from the Transmission Company of Nigeria (TCN), Oshogbo and simulation data; ANN based adaptive STATCOM was developed, trained and deployed to the Test network for compensation of the weak section of the network. Results and analysis of simulations shows that the test network is unstable as the modal analysis revealed the presence of eigenvalue with a negative real part. Yola bus was discovered to be the most vulnerable bus with the highest participating factor and a voltage profile (of 0.83pu) less than acceptable lower limit of 0.95pu. The connection of ANN based adaptive STATCOM improved the stability of the network by enhancing the voltage profile of the network’s weakest bus by 22.9%. It was concluded that ANN based adaptive STATCOM was effective in improving the stability of the Nigeria three phase transmission grid network.

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Published

2021-08-27

Issue

Section

Articles

How to Cite

Aneke, E., Okafor, E., & J.C, I. (2021). Improving the Voltage Stability of the Nigeria 44- Bus 330KV Power Transmission Network using ANN Based Adaptive STATCOM Device. International Journal of Advanced Engineering Research and Science, 8(8). https://journal-repository.com/index.php/ijaers/article/view/4025