Journal of Engineering and Applied Sciences
Year:
2020
Volume:
15
Issue:
6
Page No.
1311 - 1321
References
Abdelaal, M.A.M., M.A. Sayed, E.E.M. Mohamed and M.M. Hamada, 2017. Comparison of shunt active power filter control strategies for harmonic compensation in a paper industrial factory. Am. J. Manage. Sci. Eng., 2: 41-51.
CrossRef | Direct Link | Afonso, J.L., M. Aredes, E. Watanabe and J.S. Martins, 2001. Shunt active filter for power quality improvement. Proceedings of the International Conference on UIE Electricity for a Sustainable Urban Development, November 1, 2001, Lisboa, Portugal, pp: 683-691.
Bayındır, K.C., M.U. Cuma and M. Tumay, 2006. Hierarchical neuro-fuzzy current control for a shunt active power filter. Neural Comput. Appl., 15: 223-238.
CrossRef | Direct Link | Belaidi, R., A. Haddouche and H. Guendouz, 2012. Fuzzy logic controller based three-phase shunt active power filter for compensating harmonics and reactive power under unbalanced mains voltages. Energy Procedia, 18: 560-570.
CrossRef | Direct Link | Bhadra, D. and R.K. Meena, 2015. Power quality improvement by harmonic reduction using three phase shunt active power filter with p-q & d-q current control strategy. B.Tech Thesis, National Institute of Technology, Rourkela, Rourkela, India.
Blooming, T.M. and D.J. Carnovale, 2006. Application of IEEE Std 519-1992 harmonic limits. Proceedings of the Conference Record of 2006 on Annual Pulp and Paper Industry Technical, June 18-23, 2006, IEEE, Appleton, Wisconsin, USA., pp: 1-9.
Boukadoum, A. and T. Bahi, 2014. Fuzzy logic controlled shunt active power filter for harmonic compensation and power quality improvement. J. Eng. Sci. Technol. Rev., 7: 143-149.
CrossRef | Direct Link | Dubey, S. and A. Singh, 2014. Implementation of matlab-simulink approach in shunt active power filters to minimize the harmonics. Int. J. Adv. Eng. Res. Stud., 2014: 28-35.
Dugan, R.C., S. Santoso, M.F. McGranaghan and H.W. Beaty, 2002. Electrical Power Systems Quality. 2nd Edn., McGraw-Hill Professional, Pennsylvania Plaza, ISBN-13: 978-0071386227, Pages: 528.
Jacob, A., B.T. Abraham, N. Prakash and R. Philip, 2014. A review of active power filters in power system applications. Int. J. Adv. Res. Electr. Electron. Instrum. Eng., 3: 10253-10261.
Direct Link | Jarupula, S., V.G.R. Mannam and N.R. Vutlapalli, 2015. Power quality improvement in distribution system using ANN based shunt active power filter. Int. J. Power Electron. Drive Syst., 5: 568-575.
Jarupula, S., V.G.R. Mannam and R. Matta, 2012. Power quality improvement in distribution systems using fuzzy based hybrid active power filter. Int. J. Adv. Sci. Res. Technol., 3: 637-648.
Kiran, C.N., S.S. Dash and S.P. Latha, 2011. A few aspects of power quality improvement using shunt active power filter. Int. J. Sci. Eng. Res., 2: 23-31.
Direct Link | Kmail, M., 2012. Investigation of shunt active power filter for power quality improvment. M.Sc. Thesis, Near East University, Nicosia.
Kumar, B.S., K.R. Reddy and V. Lalitha, 2011. Pi, fuzzy logic controlled shunt active power filter for three-phase four-wire systems with balanced, unbalanced and variable loads. J. Theoret. Applied Inf. Technol., 23: 1466-1470.
Kumari, N. and I. Awashthi, 2013. Harmonic compensation using shunt active power filter in power system using matlab. Int. J. Sci. Eng. Res. (IJSER), 1: 47-51.
Direct Link | Mazari, B. and F. Mekri, 2005. Fuzzy hysteresis control and parameter optimization of a shunt active power filter. J. Inf. Sci. Eng., 21: 1139-1156.
Direct Link | Msigwa, C.J., B.J. Kundy and B.M. Mwinyiwiwa, 2009. Improving the shunt active power filter performance using synchronous reference frame PI based controller with anti-windup scheme. World Acad. Sci. Eng. Technol., 33: 413-418.
Direct Link | PFL., 2019. 29-761-5-Switch accessory, locking ring, 15/32 bushing mounted toggle switches. Premier Farnell Limited, Leeds, UK. https://www.newark.com/eaton/29-761-5/locking-ring/dp/27K3506
Patel, K.V. and P.R. Bhavsar, 2015. Simulation & analysis of shunt active filter for power quality improvement. Int. J. Curr. Eng. Sci. Res. (IJCESR), 2: 84-90.
Direct Link | RFWW., 2012. Active filter vs passive filter-difference between active filter and passive filter. RF Wireless-World.Com, Bangalore, India. https://www.rfwireless-world.com/Terminology/Active-Filter-vs-Passive-Filter.html
Rani, R.S., C.S. Rao and M.V. Kumar, 2017. PSPWM based five-level shunt active filter for power quality improvement in power system network. Energy Procedia, 117: 794-801.
CrossRef | Direct Link | Routhu, B. and N. Arun, 2013. PI, FUZZY and ANFIS control of 3-phase shunt active power filter. Int. J. Eng. Technol. (IJET), 5: 2163-2171.
Direct Link | Sakthivel, A., P. Vijayakumar, L. Lakshminarasimman and D. Gnanaprakasam, 2013. Simulation and design of SRF based control algorithm for three phase shunt active power filter. Proceedings of International Conference on Advances in Control System and Electricals Engineering, September 2013, ACEEE, Washington, D.C., USA., pp: 39-42.
Shah, A. and N. Vaghela, 2014. Shunt active power filter for power quality improvement in distribution systems. Int. J. Eng. Dev. Res., 1: 22-26.
Direct Link | Sreenubabu, K. and M.B. Ranganaik, 2013. A novel fuzzy logic controller based shunt active power filter for power system harmonic mitigation. Int. J. Res. Advent Technol., 1: 100-114.
Direct Link | Srinath, S., S. Prabakaran, K. Mohan and M.P. Selvan, 2010. Implementation of single phase shunt active filter for low voltage distribution system. Proceedings of the 16th International Power Systems Conference (NPSC’10), December, 15-17, 2010, Hyderabad, India, pp: 295-300.
WWG., 2019. How to check for harmonics in electrical power systems. W.W. Grainger, Inc., Lake Forest, Illinois, USA. https://www.grainger.com/content/safety-electrical-power-system-harmonics