Abstract
This paper presents an improved instantaneous reactive power theory control technique for successful operation of hybrid filter to improve power quality. Power quality issues due to different types of nonlinear loads are analyzed and accordingly a hybrid filter is designed. The performance of the hybrid filter is enhanced with the proposed control technique, in this technique loss component of the shunt active filter is incorporated with the power to generate the reference signal. Then the actual power is compared with instantaneous power of load. The obtained error passes to the next level for successful switching action of shunt active filter. The effectiveness of the developed controller is verified through simulation and experimentation.
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References
Akagi H (1996) A new trends in active filters for power conditioning. IEEE Trans Indus Appl 32:1312–1322
Mohan N (1993) A novel appr. to minimize line current harmonics in the interfacing power electronics equipment with 3-phase utility systems. IEEE Trans Power Deliv 8:1395–1401
Akagi H, Knaawaza Y, Nabae A (1984) Insta. reactive power compensators comprising switching devices without energy storage components. IEEE Trans Indus Appl 20:625–630
Mohan LA, Dixon JW, Wallace R (1995) A three phase active power filter operating with fixed switching frequency for reactive power and current harmonic compensation. IEEE Trans Indus Electron 42:402–408
Singh B, Jain C, Goel G (2016) A sustainable solar photovoltaic energy system interfaced with grid-tied voltage source converter for power quality improvement. Electr Power Compon Syst 45:171–183
Ibrahim WR, Morcos M (2002) Artificial intelligence and advanced mathematical tools for power quality applications. A Surv IEEE Trans Power Deliv 7:668–673
Puhan PS, Ray P, Panda G (2016) Development of real time implementation of 5/5 rule based fuzzy logic SAF for power quality improvement, 17(6):607–617
Singh B, Sahani DT, Verma A (2014) IRPT based control of a 50 kw grid interfaced solar photovoltaic power generating system with power quality improvement. In: 4th IEEE international symposium on power electronics for distributed generation systems (PEDG), pp 1–8
Tey LH, So PL, Chu YC (2002) Neural controlled unified power quality conditioner for system harmonics compensation. In: Proceedings of IEEE/PES transmission and distribution conference and exhibition, Asia Pacific, vol 2, pp 1038–1043
Puhan PS, Ray P, Panda G (2015) A comp. analysis of shunt active power filter and hybrid active power filter with different control technique applied for harmonic elimination in a single phase system. Int J Model Identif Control 24:19–28
Puhan PS, Ray P, Panda G (2018) A comp. analysis of artificial neural network and syn. detection controller to improve power quality in single phase system. Int J Power Electron 9:385–401
Dash S, Ray P (2018) Desi. and model. of single-phase PV-UPQC scheme for power quality improvement utilizing a novel notch filter-based control algorithm: an experimental approach. Arab J Sci Eng 43:3083–3102
Mishra S, Dash S, Ray P, Puhan S (2021) Analysis and experimental evaluation of novel hybrid fuzzy-based sliding mode control strategy for performance enhancement of PV fed DSTATCOM. Int Trans Electr Energ Syst 1–21
Czameccki S (2006) Instant. Reactive power p-q theory and power properties of three-phase systems. IEEE Tran Power Electron 21:362–367
Gupta N, Dubey SP, Singh SP (2010) Neural network based active filter for power quality improvement. In: IEEE PES general meeting, Providence, RI,USA, 1–8
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Puhan, P.S., Dash, S.K., Ray, P.K., Panda, G., Pothauri, M. (2022). Instantaneous Reactive Combined Loss Componenet Power Theory-Based Hybrid Filter for Power Quality Improvement in Distribution System. In: Panda, G., Naayagi, R.T., Mishra, S. (eds) Sustainable Energy and Technological Advancements. Advances in Sustainability Science and Technology. Springer, Singapore. https://doi.org/10.1007/978-981-16-9033-4_15
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DOI: https://doi.org/10.1007/978-981-16-9033-4_15
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