A REVIEW ANALYSIS OF A SHUNT ACTIVE FILTER BASED ON SOLAR PV ENERGY SOURCE FOR SUPPLING TO ACTIVE FILTER

DEEPANSH BABBAR, A K JHALA, PRAMOD RATHORE

Abstract


ABSTRACT:
In this paper , review analysis of a shunt active filter based on solar PV energy source for suppling to active filter. Due to the occurrence of nonlinear load and the inverter connected to the photovoltaic system, harmonics appear in the current and voltage. Hence, to reduce the harmonics, a shunt active filter is connected between the three phase inverter and the nonlinear load based on semiconductor device at the point of common coupling. The power quality is improved by reducing the total harmonic distortion. The shunt active filter connected to solar PV system has been executed using MATLAB simulation model. From the obtained results, based on two case first only nonlinear load are connected and secondly load connected with shunt active power filter based on solar PV power supply. It is seen that the solar PV based system with shunt active filter provides reduced total harmonic distortion.


Keywords


SOLAR PV, INVERTER, FILTER, MATLAB, THD, LOAD FILTERS

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References


REFERENCES:- 1) Dr. S. Srinatha, Mrs. S. Poongothaib, T. Arunac “PV Integrated Shunt Active Filter for Harmonic Compensation” Energy Procedia 117 (2017) 1134–1144 2) George Adam, Alina Georgiana Stan (Baciu), Gheorghe Livinţ , “An Adaptive Hysteresis Band Current Control For Three Phase Shunt Active Power Filter Using Fuzzy Logic” ,IEEE EPE , pp.324-329 ,25-27 October,2012. 3) Hideaki Fujitaand Hirofumi Akagi, “The Unified Power Quality Conditioner: The Integration of Series- and Shunt-Active Filters,” IEEE Transaction on Power Electronics, vol.13, pp .315- 322, 1998. 4) Konstantin Borisov, Herbert L. Ginn III and Andrzej M. Trzynadlowski, “Attenuation of Electromagnetic Interference in a Shunt Active Power Filter”, IEEE TRANSACTIONS ON POWER ELECTRONICS,VOL. 22, NO 5, pp.1912-1918, SEPTEMBER 2007. 5) Victor Ciirdenas, Luis Moriin, Arturo Bahamonded, Juan Dion, “Comparative Analysis of Real Time Reference Generation Techniques for Four-Wire Shunt Active Power Filters,” IEEE, pp.791-796, 2003. 6) TingQian, Brad Lehman, Anindita Bhattacharya, Herb Ginn, Marshall Molen, “Parallel Operation of Shunt Active Power Filters for Damping of Harmonic Propagation in Electric

Shipboard Power Systems”, IEEE Electric Ship Technologies Symposium, pp. 248-254, 2005. 7) Koochaki ,S.H. Fathi, and M.Divandari, “Single Phase Application of Space Vector Pulse Width Modulation for Shunt Active Power Filter,” IEEE, pp. 611-616, 2007. 8) WanchakLenwari and MilijanaOdavic, “A Comparative Study of Two High Performance Current Control Techniques for Three-Phase Shunt Active Power Filters,” PEDS, pp.962-966, 2009. 9) Antonio Abellan, Gabriel Garcera, Jose M. Benavent, “ A New Control Method for Obtaining Reference Currents of Shunt Active Power Filters in Unbalanced and Non Sinusoidal Conditions,” IEEE ISIE’99 - Bled, Slovenia,pp.831-836,1999. 10) S. J. CHIANG and J. M. CHANG National Lien Ho Institute of Technology Taiwan, “Parallel Operation of Shunt Active Power Filters with Capacity Limitation Control” ,IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS,VOL. 37, NO. 4, pp.1312-1320, 2001. 11) Wang Jianze, PengFenghua, Wu Qitao, JiYanchao, Member, and Yaping Du, “ A Novel Control Method for Shunt Active Power Filters Using SVPW”, IAS,IEEE, pp.129-134, 2004. 12) Hongyu Li, Fang Zhuo, LonghuiWu,Wanjun Lei, Jinjun Liu, Zhaoan Wang, “ A Novel Current Detection Algorithm for Shunt Active Power Filters in Harmonic Elimination, Reactive Power Compensation and Three-phase Balancing”, IEEE Power Electronics Specinlisrs Conference ,pp.1017- 1023,2004. 13) AbdelazizZouidi , FarhatFnaiechand Kamal AL-Haddad, “Voltage source Inverter Based three- phase shunt active Power Filter Topology, Modeling and Control Strategies”, IEEE ISIE , Montreal, Quebec, Canada, PP.785-790,2006. 14) E. C. dos Santos Jr., C. B. Jacobina, A. M. Maciel , “ Parallel Connection of Two Shunt Active Power Filters with Losses Optimization” IEEE Trans. Power Electr , pp.1191 – 1196 , 2010. 15) P. García-González, A. García-Cerrada and O. Pinzón-Ardila, “Control of a shunt active power filter based on a three-leg four-wire electronic converte,”, Compatibility and PowerEelectronics , pp.292-297, 2009. 16) Parimala V1, Ganeshkumar D2, Benazir Hajira A3, “Harmonic Reduction Using Shunt Active Power Filter With Pi Controller”, International Journal of Scientific Engineering and Research , Volume 2 Issue 4, pp. 85- 90, April 2014. 17) Boukezata, A.Chaoui, J P. Gaubert and M. Hachemi, “Active Power Filter in a transformer-less Grid Connected Photovoltaic System” Balkan

Journal of electrical & computer engineering, 2014, vol.2, no.3. 18) T.Chaitanya, “Modeling and Simulation of PV Array and its Performance Enhancement Using MPPT (P&O) Technique” International Journal of Computer Science & Communication Networks, Vol 1(1), September-October 2011. 19) Jeevananthan K.S, “Designing of Single Phase Shunt Active Filter Using Instantaneous Power Theory” International Journal of Electrical and Electronics Research Vol. 2, Issue 2, pp: (1-10), Month: April - June 2014. 20) Remya A.V, “Grid interconnection of PV system for 3 phase 4 wire Distribution system with power-quality improvement” International Conf. on Electrical, Electronics, Mechanical & Computer Engineering, 06th July-2014, Cochin, India. 21) Ayman Blorfan, Patrice Wira, “A three-phase hybrid active power filter With photovoltaic generation and Hysteresis current control” 2011 IEEE. 22) Rachid Belaidi, “Shunt active power filter connected to a photovoltaic array for compensating harmonics and reactive power simultaneously” 4th International Conference on Power Engineering, Energy and Electrical Drives Istanbul, 13-17 May 2013 IEEE, Turkey.

Dell’Aquila, G. Delvino, M. Liserre, P. Zanchetta, A new fuzzy logic strategy for active power filter, in: Proc. Eighth Int. Conf. on Power Electronics and Variable Speed Drives, September 2000, pp. 392–397 (IEEConf. Publ. No. 475).

S. Fan, Y.Wang, Fuzzy model predictive control for active power filter, in:Proc. IEEE Int. Conf. on Electric Utility Deregulation, Restructuring and Power Technologies (DRPT 2004), vol. 1, April 2004, pp. 295–300.

S.K. Jain, P. Agrawal, H.O. Gupta, Fuzzy logic controlled shunt active power filter for power quality improvement, IEE Proc. Electr. Power Appl.149 (September (5)) (2002) 317–328.

Chen, S. Xie, Review of the control strategies applied to active power filters, in: Proc. IEEE Int. Conf. on Electric Utility Deregulation, Restructuring and Power Technologies (DRPT- 2004), Hong Kong, April, 2004,pp. 666–670.

A.M. Massoud, S.J. Finney, B.W.Williams, Practical issues of three-phase, three-wire, voltage source inverter-based shunt active power filters, in: Proc.11th Int. Conf. on Harmonics and Quality of Power, 2004, pp. 436–441. 28) R.M. Duke, S.D. Round, The steady state performance of a controlledcurrent active, IEEE Trans. Power Electr. 8 (April (3)) (1993) 140–146. 29) International Science Panel on Renewable Energies,” Research and Development of Renewable Energies-A Global Report on Photovoltaic and Wind Energy”,ISPRE Publication, December 2009,pp.1-32.

J.Stasiluionis, “Life cycle assessment perovskite solar cells and comparison to silicon solar cells”, Publication of Department of Energy and Environment, Sweden, 2015, pp.23-47. 31) P.N.Shukla and A.Khare,“Solar Photovoltaic Energy: the state of art”,International Journal of electrical electronics and computer engineering,vol.3(2),2014,pp.91-100. 32) E.A. Alsema and E. Nieuwlaar,“Energy viability of photovoltaic systems”,Energy Policy, 2000, pp.999-1010. 33) R. Abd Elgani, M. H. M. Hilo, M. D. Abd Allah, A. Al Hassan and R. AbdElhai, “Impact of the light intensity variation on the performance of solar cell constructed from (Muscovite/TiO2/Dye/Al)”, Natural Science,vol.5(10),2013, pp.1-9. 34) A.S. Bahaj and P.A.B. James, “Urban Energy Generation The added value of photovoltaics in social housing”, Renewable and Sustainable Energy Reviews,vol. 11,2007,pp.2121-2136. 35) B.H.Khan “Non-Conventional Energy Resources” 2nd Edition McGraw Hill Education (India) Private Limited, 2013. 36) M. G. Villalva, J. R. Gazoli,and E. Ruppert,“Modeling and Circuit-Based Simulation of Photovoltaic Arrays”, Brazilian Journal of Power Electronics,vol.14(1),2009,pp.35-45. 37) Anand S. Joshi, Ibrahim Dincer,and Bale V. Reddy,“Performance Analysis of Photovoltaic systems: A review”,Renewable and Sustainable Energy Reviews, 2009, pp.1884-18


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