Active Power Filter for Harmonic Mitigation of Power Quality Issues in Grid Integrated Photovoltaic Generation System

ABSTRACT:

Single phase supply scheme tied with Photovoltaic arrangement (PV) employed on perturbed & observed (P&O) maximum energy point tracking technique with shunt active power filter allied to a rectifier feed R-L nonlinear load. The traditional Perturbed & Observed technique maximum energy point tracking topology is applied to attained maximum output power from Photovoltaic array(PVA), Proportional Integral conventional controller with phase detector (PD) phase locked loop (PLL) synchronization are executed to produce reference current.

PWM

It provide at control unit of pulse width modulation topology( PWM) is utilized in inverter to get steady output voltage. Self supported DC bus PWM converter is regulated from PV array. In proposed architecture is minimized total harmonic pollution existing in supply current owing to power electronic load (PEL). Total current harmonic pollution (THDi) is compensated using dynamic filter shunt active power filter (SAPF) and power factor obtain better later than compensation. Hence, reactive power (KVAR) is delivered through system decrease and active power (KW) enhance. The suggested scheme has been implemented by way of MATLAB/SIMULINK 2015(a) environment.

KEYWORDS:

  1. Shunt Active Power Filter (SAPF)
  2. Photovoltaic Array (PVA)
  3. Proportional Integral controller
  4. Pulse width Modulated (PWM) Converter
  5. Maximum Power Point Tracking (P & O) Scheme

SOFTWARE: MATLAB/SIMULINK

SCHEMATIC DIAGRAM:

Fig.1 Suggested system schematic.

EXPECTED SIMULATION RESULTS:

Fig.2. PV array voltage before boosting.

Fig.3. DC link voltage

Fig.4. Power Factor

Fig.5. Source currents before compensation.

Fig.6. SAPF filter current.

Fig.7.Source current after comopensation as after 0.1 sec.

Fig.8. Graphical representation of active power

Fig.9. Graphical representation of reactive power

Fig.10. Source current harmonic spectrum befor compensation with

rectifier non linear diode load.

Fig.11. Source current harmonic graph after SAPF application.

CONCLUSION:

 In this research paper SAPF based on phase detector circuit (PLL) for unit vector generation with traditional PI controller is implemented. This controller regulates DC side voltage, reference current generated by PI conventional controller and positive progression predictor PLL synchronization unit.

HBCC

Hysteresis band current control(HBCC) is employed to produce gate signal for voltage source inverter (VSI). The source current THD is abridged to fewer than 5% that is in accordance IEEE-519 standards for harmonic. Active power is improved by dynamic filtering using SAPF and decrease in reactive power consequently, power factor level is become finer.

REFERENCES:

[1] M. Singh, V. Khadkikar, A. Chandra, and R. K. Varma,“Grid Interconnection of Renewable Energy Sources at the Distribution Level With Power-Quality Improvement Features” IEEE Transactions on Power Delivery, vol. 26, no. 1, January 2011.

[2] S. Agrawal, Seemant Chorsiya, D.K Palwalia, “Hybrid Energy Management System design with Renewable Energy Sources (Fuel Cells, PV Cells and Wind Energy): A Review”, IJSET, vol. 6, no. 3, pp.174-177, 2018. DOI : 10.5958/2277 1581.2017.00104.8.

[3] M. G. Villalva, J. R. Gazoli and E. R. Filho, “Modeling and circuitbased simulation of photovoltaic arrays”, Brazilian Power Electronics Conference, Bonito-Mato Grosso do Sul, pp. 1244-1254, 2009.

[4] S. Agrawal and D. K. Palwalia, “Analysis of standalone hybrid PVSOFC- battery generation system based on shunt hybrid active power filter for harmonics mitigation.” IEEE Power India International Conference (PIICON) pp. 1-6, 2016.

[5] M. M. Hashempour, M. Savaghebi, J. C. Vasquez and J. M. Guerrero, “A Control Architecture to Coordinate Distributed Generators and Active Power Filters Coexisting in a Microgrid”, IEEE Transactions on Smart Grid, vol. 7, no. 5, pp. 2325-2336, Sept. 2016.

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