Abstract
Now a days the Energy change and environmental troubles like air pollution and global warming are increases. To mitigate these troubles the renewable energy sources such as photo voltaic energy, Wind energy and etc. are introduced. This paper presents the analysis of day and night utilization of PV Solar farm as STATCOM to meet the load demand without Power Quality disturbances. The PV Solar farm produce power during day time and made completely idle during night time. During day time the inverter is used for real power generation and during night time it is used to meet the load demand with enhanced efficiency by controlling Voltage, Current, Real, Reactive powers and with Damping controls. For the analysis of PV-STATCOM performance it is proposed a hybrid algorithm which includes the principles of CSO and PSO algorithms. The CSO algorithm is used to achieve the control of above parameters and PSO algorithm is used to enhance the position of roosters of CSO algorithm. The Control Strategies of Voltage, Current, Real and Reactive powers were validated through MATLAB/Simulink Platform.
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References
Shah R, Mithulananthan N, Bansal RC, Ramachandaramurthy VK (2015) A review of key power system stability challenges for large-scale PV integration. Int J Renew Sustain Energy Rev 41:1423–1436
Widyan MS (2013) Controlling chaos and bifurcations of SMIB power system experiencing SSR phenomenon using SSSC. Int J Electr Power Energy Syst 49:66–75
Panda S, Baliarsingh AK, Mahapatra S, Swain SC (2016) Supplementary damping controller design for SSSC to mitigate sub-synchronous resonance. Int J Mech Syst Signal Process 68:523–535
Varma RK, Auddy S, Semsedini Y (2008) Mitigation of subsynchronous resonance in a series-compensated wind farm using FACTS controllers. IEEE Trans Power Deliv 23(3):1645–1654
Varma RK, Rahman SA, Vanderheide T (2015) New control of PV solar farm as STATCOM (PV-STATCOM) for increasing grid power transmission limits during night and day. IEEE Trans Power Deliv 30(2):755–763
Mohammadpour HA, Santi E (2015) SSR damping controller design and optimal placement in rotor-side and grid-side converters of series-compensated DFIG-based wind farm. IEEE Trans Sustain Energy 6(2):388–399
Mohammadpour HA, Islam MM, Santi E, Shin Y-J (2016) SSR damping in fixed-speed wind farms using series FACTS controllers. IEEE Trans Power Deliv 31(1):76–86
Khayyatzadeh M, Kazemzadeh R (2017) Sub-synchronous resonance damping using high penetration PV plant. Int J Mech Syst Signal Process 84:431–444
Varma RK, Siavashi EM (2018) Enhancement of solar farm connectivity with smart PV inverter PV-STATCOM. IEEE Trans Sustain Energy
Kishor MK, Narasimhe Gowda TR, Sathyanarayana Rao RD, Nandini KK (2016) Control application of PV solar farm as PVSTATCOM for reactive power compensation during day and night in a transmission network. Int J Sci Dev Res 1(6)
Harish K, Vinod Kumar M, Azra F (2016) Control of solar PV-inverter fed to grid for active and reactive power control during day and night. Int J Adv Res Innov Ideas Educ 02(05):2395–4396
Irsalinda N, Thobirin A, Wijayanti DE (2017) Chicken swarm as a multi step algorithm for global optimization. Int J Eng Sci Inven 6(1):2319–6734
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Sudarsan, K., Sreenivasan, G. (2020). Day and Night Analysis of PV-STATCOM for Power Compensation Using Hybrid Technique. In: Hitendra Sarma, T., Sankar, V., Shaik, R. (eds) Emerging Trends in Electrical, Communications, and Information Technologies. Lecture Notes in Electrical Engineering, vol 569. Springer, Singapore. https://doi.org/10.1007/978-981-13-8942-9_28
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DOI: https://doi.org/10.1007/978-981-13-8942-9_28
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