Participation of DFIG Based Wind Turbine Generator in Load Frequency Control with Linear Quadratic Regulator and SMES

  • Sandeep Bhongade S.G.S. Institute of Technology & Science, Indore (M.P)-03 INDIA
  • Gaurav Pandey Department of Electrical Engineering S.G.S. Institute of Technology & Science, Indore (M.P)-03

Abstract

For large scale power systems, it is important to keep the frequency and inter area tie line power near to the scheduled values. In current scenario the use of renewable energy sources are given higher priority for the energy generation due to environmental concerns. As the penetration of wind energy using doubly fed induction generator (DFIG) in power system is increasing, it results more disturbance in load frequency due to unbalance between load and demand. This paper presents a novel approach using Linear Quadratic Regulator (LQR) and Superconducting Magnetic Energy Storage (SMES) along with the DFIG to control the frequency and tie-line power deviation. The LQR is designed and the kinetic energy of DFIG is extracted to control the interconnected two area power system. SMES unit is introduced to realize the quick response on load frequency control. The improvement in response after participation of LQR, DFIG & SMES will be observed by the time domain simulation response in MATLAB.

Author Biographies

Sandeep Bhongade, S.G.S. Institute of Technology & Science, Indore (M.P)-03 INDIA

Assistant Professor Department of Electrical Engineering

 S.G.S. Institute of Technology & Science, Indore (M.P)-03

Gaurav Pandey, Department of Electrical Engineering S.G.S. Institute of Technology & Science, Indore (M.P)-03

 research scholar doing masters in engineering

Department of Electrical Engineering

 S.G.S. Institute of Technology & Science, Indore (M.P)-03

References

V. REFERENCES
[1] O. I. Elgard, Electric Energy System Theory: An Introduction, 2nd edn McGraw Hill, New York, 1982.
[2] Santhi., R., V., and Sudha., K., R., “Adaptive type-2 fuzzy controller for load frequency control of an interconnected hydro-thermal system including SMES unit”., International Journal of Fuzzy Systems (IJFLS), vol.4, no. 1, January 2014
[3] Miller., N., W., Sanchez-Gasca, J., J., Price, W., W., and Delmerico, R. W., “Dynamic modeling of GE1.5 and 3.6MW wind turbine generators for stability simulations”, in Proc. IEEE Power engg. Soc. General meeting, pp. 1977-1983, Jul 2003
[4] Chang-Chien., Lin W. T., and Yin., Y.,C., “Enhancing frequency response control by DFIGs in the high penetrated power system”., IEEE transaction on power system, vol. 26, no.2, pp. 710-718, May 2011.
[5] Kumar., A., Verma., Y., P., “ Dynamic contribution of variable speed wind energy conversion system in system frequency regulation”, Frontiers in energy, vol. 6, no. 2, pp. 184-192, 2012.
[6] Zhang, Z., S., Sun, Y. Z., Lin, J., Li., G., J., “Coordinated frequency regulation by double fed induction generator-based wind power plants” IET, renewable power generation; vol. 6, no. 1, pp. 38-47, January 2012.
[7] Thomas Ackermann, “Wind power in power systems”, John Wiley & Sons, Ltd, England, 2005.
[8] Brian D.O., Anderson and John B. Moore, “Optimal Control: linear quadratic methods”, Prentice-Hall International, Inc., Englewood Cliffs, NJ, 1989.
[9] M. Gopal, Modern control system theory, New age international (Wiley), New York, 1993.
[10] Mehrdad Saif, “Optimal linear regulator pole-placement by weight selection”, International Journal of Control, vol. 50, no. 1, pp. 399-414, July 1989.
[11] Pandey, R.K., “Analysis and design of multi-stage LQR UPFC”, IEEE Power, Control and Embedded Systems (ICPCES) conference, Allahabad, pp.1–6, 2010.
[12] Banerjee S, Chatterjee JK, Tripathy SC. Application of magnetic energy storage unit as continuos var controller” IEEE trans Energy Conver; vol. 5, no. 1, pp. 39-45, 1990.
[13] Banerjee S, Chatterjee JK, Tripathy SC. Application of magnetic energy storage unit as load frequency stabilizer” IEEE trans Energy Conver 1990; vol. 5 no. 1, 46-51, 1990.
[14] Rajesh Joseph Abraham, D. Das , Amit Patra, R.J. Abraham, “Automatic generation control of an interconnected hydrothermal power system considering SMES”, Electrical Power and Energy Systems, vol. 29, pp. 571–579, 2007.
[15] X. D. Xue1, K. W. E. Cheng2 , D. Sutanto, “Power System Applications of Superconducting Magnetic Energy Storage Systems”, IEEE Industry Applications Conference, Vol. 2, pp.1524 – 1529 ,2005.
[16] Yu.V. Sharov, V.A. Stroev, O.N. Kuznetsov, “New Approach to SMES Optimal Control in Power System Transients”, IEEE Power Tech, pp.311 – 315, 2007.
Published
2015-09-06
How to Cite
Bhongade, S., & Pandey, G. (2015). Participation of DFIG Based Wind Turbine Generator in Load Frequency Control with Linear Quadratic Regulator and SMES. Majlesi Journal of Energy Management, 4(3). Retrieved from http://journals.iaumajlesi.ac.ir/em/index/index.php/em/article/view/202
Section
Articles