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Investigation of Nigerian 330 Kv Electrical Network with Distributed Generation Penetration – Part I: Basic Analyses.

Published: 30 December 2012
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Abstract

The first part of this paper presents the basic analyses carried out on Nigerian 330 kV electrical network with distributed generation (DG) penetration. The analyses include load flow, short circuit, transient stability, modal/eigenvalues calculation and harmonics. The proposed network is an expanded network of the present network incorporating wind, solar and small-hydro sources. The choice of some locations of distributed generation has been proposed by energy commission of Nigeria (ECN). The conventional sources and distributed generation were modeled using a calculation program called Po-werFactory, written by digsilent. Short-circuit analysis is used in determining the expected maximum currents, while transients stability and modal analyses are considered during the planning, design and in determining the best economical operation for the proposed network. One common application of harmonic analysis is providing solution to series resonance problems. Also, they are very valuable for setting the proper protection devices to ensure the security of the system.

Published in International Journal of Energy and Power Engineering (Volume 1, Issue 1)
DOI 10.11648/j.ijepe.20120101.11
Page(s) 1-19
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2012. Published by Science Publishing Group

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Keywords

Distributed Generation, Load Flow, Short-Circuit, Transient Stability, Modal Analysis, Eigenvalues Calculation, Harmonics Analysis, Powerfactory, Digsilent

References
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[9] Garba, B and Bashir, A. M (2002). Managing Energy Re-sources in Nigeria: Studies on Energy Consumption Pattern in Selected Areas in Sokoto State. Nigerian Journal of Renewable Energy, Vol. 10 Nos. 1&2, pp. 97-107.
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[11] Gonzalez-Longatt F. M. , Impact of Distributed generation over Power Losses on Distributed System, 9th International Conference, Electrical Power Quality and Utilization, Bar-celona, 9-11 October, 2007.
[12] M. Begovi?, A. Pregelj, and A. Rohatgi, Impact of Renewable Distributed Generation on Power Systems, Proceedings of the 34th Hawaii International Conference on System Sciences, 2001.
[13] Mohamed El Chehaly Power System Stability Analysis with a High Penetration of Distributed Generation, Unpublished M.Sc. Thesis, McGill University, Montréal, Québec, Canada, February 2010.
[14] DIgSILENT PowerFactory Version 14.1 Tutorial, DIgSI-LENT GmbH Heinrich-Hertz-StraBe 9, 72810 Gomaringen, Germany, May, 2011.
[15] Saadat H. , Power System Analysis, McGraw- Hill Inter-national Editions, 1999.
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[17] Serrican A. C. , Ozdemir A., Kaypmaz A. , Short Circuit Analyzes Of Power System of PETKIM Petrochemical Aliaga Complex, The Online Journal on Electronics and Electrical Engineering (OJEEE), Vol. (2) C No. (4), pp 336-340, Reference Number: W10-0037.
[18] Patel J. S. and Sinha M. N. Power System Transient Stability Analysis using ETAP Software, National Conference on Recent Trends in Engineering & Technology, 13-14 May 2011.
[19] Iyambo P. K. , Tzonova R. , Transient Stability Analysis of the IEEE 14-Bus Electrical Power System, IEEE Conf. 2007.
[20] Dashti R. and Ranjbar B, Transient Analysis of Induction Generator Jointed to Network at Balanced and Unbalanced Short Circuit Faults, ARPN Journal of Engineering and Applied Sciences, Vol. 3, No. 3, June 2008.
[21] Kundur P. Power System Stability and Contrl, The EPRI Power System Engineering Series, McGraw-Hill, 1994.
[22] IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems, IEEE Std. 519-1992, 1993.
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Cite This Article
  • APA Style

    F. K. Ariyo, M. O. Omoigui. (2012). Investigation of Nigerian 330 Kv Electrical Network with Distributed Generation Penetration – Part I: Basic Analyses.. International Journal of Energy and Power Engineering, 1(1), 1-19. https://doi.org/10.11648/j.ijepe.20120101.11

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    ACS Style

    F. K. Ariyo; M. O. Omoigui. Investigation of Nigerian 330 Kv Electrical Network with Distributed Generation Penetration – Part I: Basic Analyses.. Int. J. Energy Power Eng. 2012, 1(1), 1-19. doi: 10.11648/j.ijepe.20120101.11

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    AMA Style

    F. K. Ariyo, M. O. Omoigui. Investigation of Nigerian 330 Kv Electrical Network with Distributed Generation Penetration – Part I: Basic Analyses.. Int J Energy Power Eng. 2012;1(1):1-19. doi: 10.11648/j.ijepe.20120101.11

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  • @article{10.11648/j.ijepe.20120101.11,
      author = {F. K. Ariyo and M. O. Omoigui},
      title = {Investigation of Nigerian 330 Kv Electrical Network with Distributed Generation Penetration – Part I: Basic Analyses.},
      journal = {International Journal of Energy and Power Engineering},
      volume = {1},
      number = {1},
      pages = {1-19},
      doi = {10.11648/j.ijepe.20120101.11},
      url = {https://doi.org/10.11648/j.ijepe.20120101.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijepe.20120101.11},
      abstract = {The first part of this paper presents the basic analyses carried out on Nigerian 330 kV electrical network with distributed generation (DG) penetration. The analyses include load flow, short circuit, transient stability, modal/eigenvalues calculation and harmonics. The proposed network is an expanded network of the present network incorporating wind, solar and small-hydro sources. The choice of some locations of distributed generation has been proposed by energy commission of Nigeria (ECN). The conventional sources and distributed generation were modeled using a calculation program called Po-werFactory, written by digsilent. Short-circuit analysis is used in determining the expected maximum currents, while transients stability and modal analyses are considered during the planning, design and in determining the best economical operation for the proposed network. One common application of harmonic analysis is providing solution to series resonance problems. Also, they are very valuable for setting the proper protection devices to ensure the security of the system.},
     year = {2012}
    }
    

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    T2  - International Journal of Energy and Power Engineering
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    AB  - The first part of this paper presents the basic analyses carried out on Nigerian 330 kV electrical network with distributed generation (DG) penetration. The analyses include load flow, short circuit, transient stability, modal/eigenvalues calculation and harmonics. The proposed network is an expanded network of the present network incorporating wind, solar and small-hydro sources. The choice of some locations of distributed generation has been proposed by energy commission of Nigeria (ECN). The conventional sources and distributed generation were modeled using a calculation program called Po-werFactory, written by digsilent. Short-circuit analysis is used in determining the expected maximum currents, while transients stability and modal analyses are considered during the planning, design and in determining the best economical operation for the proposed network. One common application of harmonic analysis is providing solution to series resonance problems. Also, they are very valuable for setting the proper protection devices to ensure the security of the system.
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Author Information
  • Department of Electronic and Electrical Engineering, Ile-Ife, Nigeria

  • Obafemi Awolowo University, Ile-Ife, Nigeria

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