DOI QR코드

DOI QR Code

Probabilistic Reliability Based Grid Expansion Planning of Power System Including Wind Turbine Generators

  • Received : 2011.03.14
  • Accepted : 2012.08.16
  • Published : 2012.09.01

Abstract

This paper proposes a new methodology for evaluating the probabilistic reliability based grid expansion planning of composite power system including the Wind Turbine Generators. The proposed model includes capacity limitations and uncertainties of the generators and transmission lines. It proposes to handle the uncertainties of system elements (generators, lines, transformers and wind resources of WTG, etc.) by a Composite power system Equivalent Load Duration Curve (CMELDC)-based model considering wind turbine generators (WTG). The model is derived from a nodal equivalent load duration curve based on an effective nodal load model including WTGs. Several scenarios are used to choose the optimal solution among various scenarios featuring new candidate lines. The characteristics and effectiveness of this simulation model are illustrated by case study using Jeju power system in South Korea.

Keywords

References

  1. N. Jenkins, R. Allan, P. Crossley, D. Kirschen and G. Strbac, Embedded Generation, p.31-38, 2000.
  2. D. Divan, G.A. Luckjiff, J.W. Freeborg, W. Brumsickle, D. Bielinski and T. Grant, "$I-Grid^{TM}$: A New Paradigm in Distribution Grid Power Quality And Reliability Monitoring," in Proceedings of EPRI PQA North America Conference. Portland, OR, 2002.
  3. T. E. Dy-Liacco, "Enabling Technologies for Operation and Real-Time Control in a Liberalized Environment," EPRI second European conference, 1999.
  4. Roy Billinton and L. Gan, "Wind Power Modeling and Application in Generating Adequacy Assessment," in Proceedings of the 14th Power Systems Computation Conference, Sevilla, Spain, 2000.
  5. Roy Billinton and Y. Gao, "Multi-state Wind Energy Conversion System Models for Adequacy Assessment of Generating Systems Incorporating Wind Energy," IEEE Transactions on Energy Conversion, Vol.23, No.2, pp.163-170, 2008. https://doi.org/10.1109/TEC.2006.882415
  6. Jeongje Park, Liang Wu, Jaeseok Choi, A. A. El-Keib and Junzo Watada, "Probabilistic Production Cost Credit Evaluation of Wind Turbine Generators" IJICIC(International Journal of Innovative Computing, Information and Control), Vol.5, No.11(A), pp.3637-3646, November, 2009.
  7. Roy Billinton and Dange Huang, "Aleatory and Epistemic Uncertainty Considerations in Power System Reliability Evaluation", PMAPS'08, Puerto Rico, May 25-29, 2008.
  8. Rajesh Karki, P. Hu and Roy Billinton, "A Simplified Wind Power Generation Model for Reliability Evaluation", IEEE Trans. on Energy Conversion, 21(2), 2006.
  9. Jaeseok Choi, Hongsik Kim, Junmin Cha and Roy Billinton, "Nodal Probabilistic Congestion and Reliability Evaluation of a Transmission System under Deregulated Electricity Market," IEEE, PES, GM2001, Vancouver, Canada, 2001.
  10. Jaeseok Choi, Roy Billinton and M. Futuhi-Firuzabed "Development of[ a New Nodal Effective Load Model Considering of Transmission System Element Unavailabilities" IEE Proc. on G,T&D, Vol. 152, No.1, pp.79-89, Feb. 2005.
  11. Jaeseok Choi, Timothy Mount, Robert Thomas and Roy Billinton, "Probabilistic Reliability Criterion for Planning Transmission System Expansions," IEE G,T&D, Vol.153, No.6, pp.719-727, 2006.
  12. Liang. Wu, Jeongje Park, Jaeseok Choi and A.A. El-Keib, "Probabilistic Reliability Evaluation of Power Systems Including Wind Turbine Generators Considering Wind Speed Correlation, KIEE, Journal of Electrical Engineering & Technology, Vol. 4, No. 4, pp. 514-519, Dec. 2009.
  13. Liang Wu, Jungjae Park, Jaeseok Choi, A.A. El-Keib, M. Shahidehpour and Roy Billinton, "Probabilistic Reliability Evaluation of Power Systems Including Wind Turbine Generators Using a Simplified Multi-State Model: A Case Study," IEEE PES GM, Calgary, 2009.
  14. Jaeseok Choi, Jeongje Park, Kyeonghee Cho, Taegon Oh and Mohammad Shahidehpour, "Probabilistic Reliability Evaluation of Composite Power Systems Including Wind Turbine Generators", PMAPS2010, Grand Copthorne Waterfront Hotel, Singapore, June 14-17, 2010.
  15. Jeongje Park, Kyeonghee Cho, Taegon Oh, Jaeseok Choi and A.A. El-Keib, "Evaluation of Economic impacts of Wind Turbine and Solar Cell Generators on Power system Considering $CO_2$ Emission", PMAPS2010, Grand Copthorne Waterfront Hotel, Singapore, June 14-17, 2010.
  16. Roy Billinton and Wenyuan Li, Reliability Assessment of Electric Power Systems Using Monte Carlo Methods, p. 24-30, 1994.

Cited by

  1. Reliability Evaluation with Wind Turbine Generators and an Energy Storage System for the Jeju Island Power System vol.64, pp.1, 2015, https://doi.org/10.5370/KIEE.2015.64.1.001
  2. Development of Reliability Contribution Function of Power System including Wind Turbine Generators combined with Battery Energy Storage System vol.65, pp.3, 2016, https://doi.org/10.5370/KIEE.2016.65.3.371
  3. Reliability Contribution Function considering Wind Turbine Generators and Battery Energy Storage System in Power System vol.49, pp.27, 2016, https://doi.org/10.1016/j.ifacol.2016.10.708
  4. Capacity Credit and Reasonable ESS Evaluation of Power System Including WTG combined with Battery Energy Storage System vol.65, pp.6, 2016, https://doi.org/10.5370/KIEE.2016.65.6.923
  5. DSM Considered Probabilistic Reliability Evaluation and an Information System for Power Systems Including Wind Turbine Generators vol.4, pp.1, 2013, https://doi.org/10.1109/TSG.2012.2234150