A novel method for determination of maximum penetration of distributed generation in radial distribution network

The several benefits of distributed generation (DG) have encouraged the utility companies for the integration of different DG technologies in the radial distribution network. The large penetration of DG units has significantly influenced the voltage stability of the radial distribution network. In t...

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Bibliographic Details
Published in:Australian journal of electrical & electronics engineering 2021-04, Vol.18 (2), p.80-90
Main Authors: Rawat, Mahiraj Singh, Vadhera, Shelly
Format: Article
Language:English
Subjects:
distributed generation
Modal analysis
P-V curves
voltage stability index
voltage stability margin
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Summary:The several benefits of distributed generation (DG) have encouraged the utility companies for the integration of different DG technologies in the radial distribution network. The large penetration of DG units has significantly influenced the voltage stability of the radial distribution network. In this paper, in order to determine the penetration level of DGs in the radial distribution network, a static voltage stability index (VSI)-based method has been explored for the identification of optimal locations at various penetration levels. The proposed method is compared with modal analysis-based optimal placement method at the various penetration levels of DGs. For the identification of the maximum penetration level (PL) of DGs in the radial distribution network, the IEEE 33 and 69 node radial distribution network with various DG penetration levels, i.e. 20%, 40% and 60% have been utilised in this study. The results show that the placement of DGs at nodes sensitive to voltage collapse has increased the voltage stability margins (VSM). It is also observed that the DGs penetration level beyond a certain limit have an adverse effect on static voltage stability margin and power losses of the network.
ISSN:1448-837X
2205-362X
DOI:10.1080/1448837X.2021.1935412