CCSA Algorithm Compensator Designing in a Solar wind Hybrid Energy System


  • Asanna Kumar Badge M.Tech. Scholar NRI Institute of Research & Technology, Bhopal,M.P., India
  • Mrs. Madhu Upadhyay Head of Department, NRI Institute of Research & Technology, Bhopal, M.P., India



STATCOM, THD, Hybrid System, DG.


In recent years, there has been a growing interest in moving away from large centralized electricity production towards distributed energy resources. In this paper are designing of a Hybrid solar/wind system as well as integrating it with the grid system in MATLAB /SIMULINK environment. And Designing of a compensating device and compare it with the basic STATCOM compensator for active power output enhancement in the system. The compensating device control has to be designed with a linear crow optimizing algorithm to obtain a smooth voltage and current waveform. Reduction in the distortion level of the voltage output at the grid system is to be done by using the proposed optimizer. The description concludes that the hybrid system is made efficient for driving the loads having enhanced active power output at its terminal. The voltage available has been made less distorted and the THD level in current output has also came down.


Download data is not yet available.


Metrics Loading ...


[1] Emad Jamil, Salman Hameed “Power quality improvement of distribution system with photovoltaic and permanent magnet synchronous generator based renewable energy farm using static synchronous compensator” Sustainable Energy Technologies and Assessments 35(C):98-116 · July 2019.
[2] Tariq Kamal, Luis M. Fernández-Ramírez “Dynamic Operation and Supervisory Control of a Photovoltaic/Fuel cell/Super-capacitor/Battery Hybrid Renewable Energy System” International Conference on Electrical, Communication, and Computer Engineering (ICECCE), July 2019.?
[3] Gilberto Gonzalez-A, Noe Barrera-G “Dynamic performance of a Skystream wind turbine: A bond graph approach” Cogent Engineering 6(1) · December 2019
[4] Sujit Kumar Bhuyan, Prakash Hota “Modeling and simulation of hybrid energy system supplying 3Ø load and its power quality analysis” International Journal of Renewable Energy Research 8(1):592-603 · January 2018.
[5] Donatella Zappala, Nur Sarma “Electrical & Mechanical Diagnostic Indicators of Wind Turbine Induction Generator Rotor Faults” Renewable Energy 131 · June 2018.
[6] Fa Wang, Mario Garcia-Sanz “Wind farm cooperative control for optimal power generation” Wind Engineering 42(6):0309524X1878037 · June 2018.
[7] Shuai Cao, Wang Xiang “AC and DC fault ride through hybrid MMC integrating wind power” The Journal of Engineering 1(1) · November 2017.
[8] C. Xu, D. Chen “Study of integrated optimization design of wind farm in complex terrain” Taiyangneng Xuebao/Acta Energiae Solaris Sinica 38(12):3368-3375 · December 2017.
[9] Yashwant Sawle, S.C. Gupta “Review of hybrid renewable energy systems with comparative analysis of off-grid hybrid system” Renewable and Sustainable Energy Reviews · June 2017?
[10] Renu Sharma, Sonali Goel “Performance evaluation of standalone, grid connected and hybrid renewable energy systems for rural application: A comparative review” Renewable and Sustainable Energy Reviews 78:1378–1389 · May 2017?




How to Cite

Badge, A. K., & Upadhyay, M. M. (2020). CCSA Algorithm Compensator Designing in a Solar wind Hybrid Energy System. SMART MOVES JOURNAL IJOSCIENCE, 6(4), 1–9.