Assessment of Justified Distribution Factors Versus Bialek’s Methods for Transmission Usage Evaluation

  • Authors

    • N. H. Radzi
    • M. H. Ali
    • M. N. Abdullah
    • S. A. Jumaat
    • S. Salimin
    • R. Hamdan
    2019-01-18
    https://doi.org/10.14419/ijet.v8i1.7.25949
  • Bialek method, DC power flow, Distribution Factor method, restructuring electricity market, transmission usage evaluation

  • In restructuring electricity market, the electricity business has been separated to three major parts which are generation, transmission and distribution companies. For transmission, the most important component is the transmission line because transmission lines transmitting the power flow from generation to distribution. One of the issues of transmission utility is allocating the charges to the transmission user. The charges must be fair and accurate to all of the transmission users. In addition, an efficient transmission usage evaluation is important to be developed for determining the actual power usage of generators and loads to transmission line. Hence, this paper presents the assessment of Justified Distribution Factors versus Bialek’s methods for determine the efficient transmission usage scheme. The DC power flow method is used in this project as the transmission utilities prefer to choose this simple and easy method in determining the transmission service charges. A case study on 4 bus system was carried out in order to test the developed methodology. Power World Simulator also was used in order to identify the net power flow of each line. In conclusion, this paper focuses on to identify the best method of transmission usage evaluation for transmission service charge methodology.

     

     

  • References

    1. [1] M.Y.Hassan, M.S.Majid, F. Hussin, H.A. Rahman, K.L.Lo “Certain Considerations In Pricing Unbundled Transmission Servicesâ€, First International Power and Energy Conference PECon, November 28-29, 2006.

      [2] P. Jiuping, Y. Teklu, S. Rahman, and K. Jun, "Review of Usage-based Transmission Cost Allocation Methods Under Open Access," IEEE Transactions on Power Systems, vol. 15, pp. 1218-1224, 2000.

      [3] H. Shareef, M.W. Mustafa, S.N. Khalid, A.Khairuddin, A.Kalam, and A. Maungthan Oo. Real and Reactive Power Transfer Allocation Utilizing Modified Nodal Equations. International Journal of Emerging Electric Power Systems. 2008. 9(6): 1–14. Abs./Ind.: SCOPUS. Pages:14.

      [4] M.W. Mustafa, S.N. Khalid, H. Shareef, A.Khairuddin. Reactive Power Transfer Allocation Method with the Application of Artificial Neural Network. IET Proceedings Generation, Transmission & Distribution, 2008. 2(3): 402–413. Abs./Ind.: ISI/SCOPUS. impact factor: 1.152, Q2 (2007 JCR). Pages:12.

      [5] M. Shahidehpour, H. Yamin, Z. Li, “Market Operation in Electric Power Systems (Forecasting, Scheduling and Risk Management)â€, Wiley-Interscience, 2002.

      [6] Y.S.C. Yuen and a. K. L. Lo, "Simulation of bilateral energy markets using Matlabâ€, International Journal of Computation and Mathematics on Electrical and Electronic Engineering, vol. 22, no. 2, pp. 424-443, 2003.

      [7] N. H. Radzi, Z. Y. Dong, and R. C. Bansal, "Justified distribution factors approach for pool modelling," in Proc. 2010 International Power & Energy Conf. , pp. 1117-1122.

      [8] N. H. Radzi, Z. Y. Dong, and M. Y. Hassan, "A New Transmission Charging Methodology for Australian National Electricity Market," in IEEE PES Innovative Smart Grid Technologies, Perth, Australia, pp. 1-8, 13-16 November 2011.

      [9] D. Shirmohammadi et al., “Evaluation of transmission network capacity use for wheeling transactions,†IEEE Trans. on Power Systems, vol. 4, no. 4, pp. 1405–1413, Oct. 1989.

      [10] H. R. Rudnick, R. Palma, and J. E. Fernandez, “Marginal pricing and supplement cost allocation in transmission open access,†IEEE Trans.on Power Systems, vol. 10, no. 2, pp. 1125–1142, May 1995.

      [11] J. Pan, Y. Teklu, S. Rahman and K. Jun “Review of Usage-Based Transmission Cost Allocation Methods under Open Access†IEEE Transactions On Power Systems, Vol. 15, No. 4, November 2000.

      [12] J. Bialek’s, “Tracing the Flow of Electricityâ€. IEEE Proceedings on Generation, Transmission and Distribution, vol. 143, No4, July 1996, pp 313-320.

      [13] Simulator, Power World Corporation (History) 1997. Available: http://www.powerworld.com/company/history.

      [14] M. H. Ali, “Investigation on Distribution Factors Versus Bialek’s Methods for Transmission Usage Evaluation,†Degree Thesis, Faculty of Electrical and Electronic Engineering, Universiti Tun Hussein Onn Malaysia, 2016.

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  • How to Cite

    H. Radzi, N., H. Ali, M., N. Abdullah, M., A. Jumaat, S., Salimin, S., & Hamdan, R. (2019). Assessment of Justified Distribution Factors Versus Bialek’s Methods for Transmission Usage Evaluation. International Journal of Engineering & Technology, 8(1.7), 7-13. https://doi.org/10.14419/ijet.v8i1.7.25949