B. Tech (BPUT)

M. Tech (NIT Rourkela)

PhD (NIT Rourkela)

PMEC – Since 05.08.2016

HVDC Transmission

Network Theory

Power Electronics

Soft Computing

Best paper award in the conference paper at International Conference on Computational Intelligence for Smart Power System and Sustainable Energy (CISPSSE), 2020

[1] S. S. Patnaik and A. K. Panda, “Power quality enhancement using a novel SAPF control scheme employing high selectivity filter,” International Journal of Emerging Electric Power Systems (IJEEPS), 2023.

[2] S. S. Patnaik, A. Khillo, and S. Naresh, “A d-q-0 frame based deadbeat controller for voltage source converter-high voltage direct current systems and its performance under line-line AC fault condition,” in Proc. IEEE Int. Conf. Innovations in Power and Advanced Computing Technologies, 2021.

[3] S. S. Patnaik, A. Khillo, and S. Naresh, “Performance analysis of 6-pulse 2-level HVDC-VSC using particle swarm optimization (PSO) based controller in dq reference frame under AC fault conditions,” in Proc. IEEE 17th India Council Int. Conf. (INDICON), pp. 1–6, 2020.

[4] A. Khillo, S. S. Patnaik, and S. Naresh, “Performance analysis of 6-pulse HVDC-VSC using deadbeat controller in d-q reference frame under AC fault conditions,” in Proc. IEEE 17th India Council Int. Conf. (INDICON), pp. 1–6, 2020.

[5] A. Khillo and S. S. Patnaik, “Performance analysis of 6-pulse HVDC-VSC using particle swarm optimization (PSO) based controller in dq reference frame under transient AC fault conditions,” in Proc. IEEE Int. Conf. Recent Advances and Innovations in Engineering, 2020.

[6] A. Khillo, S. S. Patnaik, and S. Naresh, “Performance analysis of 6-pulse HVDC-VSC using deadbeat controller in dq reference frame under DC fault condition,” in Proc. Int. Conf. Computational Intelligence for Smart Power System, 2020.

[7] A. K. Panda and S. S. Patnaik, “Analysis of cascaded multilevel inverters for active harmonic filtering in distribution networks,” Int. J. Electrical Power & Energy Systems, vol. 66, pp. 216–226, 2015.

[8] S. S. Patnaik, “Performance enhancement of shunt APFs using various topologies, control schemes and optimization techniques,” 2015.

[9] S. S. Patnaik and A. K. Panda, “Optimizing current harmonics compensation in three-phase power systems with an enhanced bacterial foraging approach,” Int. J. Electrical Power & Energy Systems, vol. 61, pp. 386–398, 2014.

[10] S. S. Patnaik and A. K. Panda, “Cascaded three-level inverter based shunt active filter for power conditioning application,” in Proc. IEEE India Conf. (INDICON), pp. 1–5, 2013.

[11] S. S. Patnaik and A. K. Panda, “Real-time performance analysis and comparison of various control schemes for particle swarm optimization-based shunt active power filters,” Int. J. Electrical Power & Energy Systems, vol. 52, pp. 185–197, 2013.

[12] S. S. Patnaik and A. K. Panda, “Three-level H-bridge and three H-bridges-based three-phase four-wire shunt active power filter topologies for high voltage applications,” Int. J. Electrical Power & Energy Systems, vol. 51, pp. 298–306, 2013.

[13] A. K. Panda and S. S. Patnaik, “Optimal harmonic compensation in three-phase power system employing voltage source inverter based active power filter and particle swarm optimization,” Journal of Electrical Engineering, vol. 12, no. 1, 2012.

[14] S. S. Patnaik and A. K. Panda, “Particle swarm optimization and bacterial foraging optimization techniques for optimal current harmonic mitigation by employing active power filter,” Applied Computational Intelligence and Soft Computing, 2012.

[15] S. S. Patnaik and A. K. Panda, “Optimal load compensation by 3-phase 4-wire shunt active power filter under distorted mains supply employing bacterial foraging optimization,” in Proc. IEEE India Conf., pp. 1–6, 2011.

[16] S. S. Patnaik and A. K. Panda, “Comparison of current harmonic compensation capability of APF with two control strategies in 3-phase 4-wire system employing bacterial foraging optimization,” in Proc. IEEE India Conf., pp. 1–6, 2011.

[17] S. S. Patnaik and A. K. Panda, “Comparative evaluation of harmonic compensation capability of active power filter with conventional and bacterial foraging based control,” in Proc. IEEE Int. Conf. Power Electronics and Drive Systems, 2011.

[18] S. S. Patnaik and A. K. Panda, “Performance improvement of id-iq method based active filter using particle swarm optimization,” in Proc. Int. Conf. Sustainable Energy and Intelligent Systems, 2011.

[19] S. Mikkili, A. K. Panda, S. S. Patnaik, and Y. Suresh, “Comparison of two compensation control strategies for SHAF in 3-phase 4-wire system by using PI controller,” in Proc. India Int. Conf. Power Electronics (IICPE), pp. 1–7, 2010.

[20] M. Suresh, S. S. Patnaik, Y. Suresh, and A. K. Panda, “Comparison of two compensation control strategies for shunt active power filter in three-phase four-wire system,” in Proc. IEEE Innovative Smart Grid Technologies (ISGT), pp. 1–6, 2011.

Department of Electrical Engineering

PMEC, Sitalapalli, Berhampur,  Odisha, 761003