Design of PIDD controller for Hybrid Distributed Generation System using Social Spider Optimization Algorithm

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Authors

  • Santu Giri
     Department of Electrical Engineering, Kalyani Government Engineering College, Kalyani-741235 ,IN
  • Arnab Kumar Mondal
     Department of Electrical Engineering, Kalyani Government Engineering College, Kalyani-741235 ,IN
  • Parthasarathi Bera
     Department of Electrical Engineering, Kalyani Government Engineering College, Kalyani-741235 ,IN

DOI:

https://doi.org/10.24906/isc/2019/v33/i3/185420

Keywords:

Frequency Regulation, Hybrid System, Social Spider Optimization Algorithm (SSOA), P-I-DD Controller.

Abstract

In the present work, Proportional Integral Double Derivative (P-I-DD) controller has been proposed for damping the oscillation of system frequency of distributed energy generation. Solar photo-voltaic (PV), wind turbine generator (WTG), diesel engine generator (DEG), fuel-cell (FC), aqua electrolyzer (AE), flywheel energy storage system (FESS) and battery energy storage system (BESS) are employed in the distributed energy generation.

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Published

2019-05-01

How to Cite

Giri, S., Mondal, A. K., & Bera, P. (2019). Design of PIDD controller for Hybrid Distributed Generation System using Social Spider Optimization Algorithm. Indian Science Cruiser, 33(3), 27–36. https://doi.org/10.24906/isc/2019/v33/i3/185420

Issue

Volume 33, Issue 3, May 2019

Section

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References

J. Driesen and F. Katiraei, ‘Design for distributed energy resources’, IEEE Power Energy Magazine, vol. 6, no. 3, pp. 30–40, May-Jun. 2008.

SK Aditya, D. Das, ‘Battery energy storage for load frequency control of an interconnected power system’, Electric Power System Research 2001;58(3):179–85.

S. Mishra, G. Mallesham, and A. N. Jha, ‘Design of controller and communication for frequency regulation of a smart microgrid’, IET Renewable Power Generation, vol. 6, no. 4, pp. 248–258, July 2012.

Weissbach RS, Karady GG, Farmer RG., ‘Dynamic voltage compensation on distribution feeders using flywheel energy storage’, IEEE Trans Power Delivery 1999;14(2):465–71.

Ngamroo I., ‘Robust frequency control of wind– diesel hybrid power system using superconducting magnetic energy storage’, International Journal of Emerging Electric Power System 2009;10(2).

Bhatti TS, Al-Ademi AAF, Bansal NK., ‘Load-frequency control of isolated wind diesel hybrid power systems’, Energy Conversion Management 1997;38(3):829–37.

Z. Wang and L. Wang, ‘Adaptive negotiation agent for facilitating bi-directional energy trading between smart building and utility grid’, IEEE Transaction on Smart Grid, vol. 4, no. 2, pp. 702– 710, Jun. 2013.

Abe Koji, Ohba Satoshi, Iwamoto S., ‘New load frequency control method suitable for large penetration of wind power generations’, IEEE Conference Proceedings, 2006:1–6.

T. Senjyu, T. Nakaji, K. Uezato, and T. Funabashi, ‘A hybrid power system using alternative energy facilities in isolated island’, IEEE Trans. Energy Conversion, vol. 20, no. 2, pp. 406–414, Jun. 2005

D.-J. Lee and L. Wang, ‘Small-signal stability analysis of an autonomous hybrid renewable energy power generation/energy storage system, part I: Time-domain simulations’, IEEE Trans. Energy Conversion, vol. 23, no. 1, pp. 311–320, Mar. 2008.

P. K. Ray, S. R. Mohanty, and N. Kishor, ‘Proportional–integral controller based small-signal analysis of hybrid distributed generation systems’, Energy Conversion Manage., vol. 52, no.4, pp. 1943–1954, Apr. 2011.

I. Pan, S. Das, ‘Fractional order AGC for distributed energy resources using robust optimization’, IEEE Transaction on Smart Grid, vol. 7, no. 5, pp. 2175-2186, Sept. 2016.

Lalit Chandra Saikia, J. Nanda and S. Mishra, ‘Performance comparison of several classical controllers in AGC for multi-area interconnected thermal system’, Electric power energy systems, Vol. 33, 2011, pp. 394-401.

E Cuevas, M Cienfuegos, D Zaldívar, M Pérez-Cisneros, ‘A swarm optimization algorithm inspired in the behaviour of the social-spider’, Expert Systems with Applications., vol. 40, pp. 6374–6384, 2013.

C. E. Klein, E. H. V. Segundo, V. C. Mariani, L. S. Coelho, ‘Modified social-spider optimization algorithm applied to electromagnetic optimization’, IEEE Transactions on Magnetics, vol. 52, no. 3, Mar. 2016.

Schultz, W.C., Rideout, V.C., ‘Control system performance measures: past, present and future’, IRE Transactions on Automatic Control, AC- 6,22, pp. 22-35, 1961.

Ogata, K., ‘Modern Control Engineering’, A book, Prentice-Hall, Englewood cliffs, NJ, pp. 293-313, 1970.