Comparative analysis of accelerating power input and speed input robust power system stabilizers

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Published Dec 2, 2014
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Voumel 10, Issue 4, December 2014

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Javeed Kittur
B.V. Bhoomaraddi College of Engineering and Technology, Hubli – 580 031
H. V. Saikumar
The National Institute of Engineering, Mysore – 570 008
S. V. Sharath Raj
The National Institute of Engineering, Mysore – 570 008

Abstract

The power system stability improvement by a robust Power System Stabilizer (PSS) using accelerating power and speed as inputs is investigated independently in this paper. The objective of the work presented in this paper is to design an accelerating power input robust PSS and a speed input robust PSS to damp low frequency oscillations arising out of small and large disturbances. The robustness of the PSS is ensured by placing all the eigen values within a specified contour in the s-plane. A nonlinear constrained optimization technique has been applied for tuning the PSS parameters with the objective of damping oscillations over a wide range of operating conditions to make the PSS robust. The design of PSS is validated by performing nonlinear simulations for small and large disturbances.

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How to Cite
Kittur, J., Saikumar, H. V., & Sharath Raj, S. V. (2014). Comparative analysis of accelerating power input and speed input robust power system stabilizers. Power Research - A Journal of CPRI, 663–672. Retrieved from https://node6473.myfcloud.com/~geosocin/CPRI/index.php/pr/article/view/764

References

  1. I Ngamroo, W Kongprawechnon, “A robust controller design of SSSC for stabilization of frequency oscillations in interconnected power systems”, Electric Power Systems Research 67 (2003), pp. 161-/176.
  2. E V Larsen and D A Swann, “Applying Power System Stabilizers Part II: Performance Objectives and Tuning Concepts”, IEEE Transactions on Power Systems, pp. 3025, June 1981.
  3. E V Larsen and D A Swann, “Applying Power System Stabilizers Part III: Practical Considerations”, IEEE Transactions on Power Systems, pp. 3034,June 1981.
  4. F P de Mello, L N Hannett, J M Undrill, “Practical Approaches to Supplementary Stabilizing from Accelerating Power”, IEEE Transactions on Power Apparatus and Systems, Vol. PAS-97, No. 5, Sept/Oct 1978.
  5. Prabha Kundur, “Power system Stability and control”, EPRI,McGraw-hill Publication.
  6. P Shrikant Rao and Indraneel Sen, “A QFT Based Robust SVC Controller For Improving The Dynamic Stability Of Power Systems”, Proceedings of the 4th Intemational Conference on Advances in Power System Control, Operation and Management, APSCOM-97, Hong Kong, November 1997.
  7. P Shrikant Rao and Indraneel Sen, “Robust Tuning of Power System Stabilizers Using QFT”, IEEE Transactions on Control Systems Technology, vol. 7, no. 4, July 1999.
  8. K R Padiyar, “Power Sytem Dynamics – Stability and Control”, Second edition, BS Publications.
  9. Thomas Coleman, Mary Ann Branch and Andrew Grace, Optimization tool box. For use with Matlab, User’s guide Version 2, Jan 1999.