Experimental Study on Power Quality Analysis of Hybrid Energy System

International Journal of Electrical and Electronics Engineering
© 2022 by SSRG - IJEEE Journal
Volume 9 Issue 4
Year of Publication : 2022
Authors : Nayab, Mohsin Ali Tunio, Muhammad Rafique Naich, Irfan Ahmed
How to Cite?

Nayab, Mohsin Ali Tunio, Muhammad Rafique Naich, Irfan Ahmed, "Experimental Study on Power Quality Analysis of Hybrid Energy System," SSRG International Journal of Electrical and Electronics Engineering, vol. 9,  no. 4, pp. 7-18, 2022. Crossref, https://doi.org/10.14445/23488379/IJEEE-V9I4P102


In the recent era, the economy of every country depends upon its consumption of electricity, which is increasing over time. to meet the growing demand for electricity and save the environment, we started to shift our power generation towards renewable resources. the main problem with this is that we cannot rely on it as it is sometimes not available due to weather conditions. So the finest solution for this is to use a hybrid energy system for the best utilization of all resources. in this paper, the power quality analysis is done experimentally to determine which power quality issue has a major impact on power systems at different generation systems. This paper defines the hybrid energy system as an emerging technology, but the power quality issues related to this are difficult to handle. So a comparative study has been done to analyze the power quality problems in a different generation type. 


Power quality issues. 


[1] Menon, Vivek, and M. Hashem Nehrir. A Hybrid Islanding Detection Technique Using Voltage Unbalance and Frequency Set Point. IEEE Transactions on Power Systems , 22(1)  (2007)  442-448.
[2] Qadir, Sikandar Abdul, Hessah Al-Motairi, Furqan Tahir, and Luluwah Al-Fagih. Incentives and Strategies for Financing the Renewable Energy Transition A Review. Energy Reports 7 (2021)  3590-3606.
[3] Swain, Goutam, Pampa Sinha, and M. K. Maharana. Detection of Islanding and Power Quality Disturbance in Micro Grid Connected Distributed Generation. in 2017 International Conference on Innovative Mechanisms for Industry Applications (ICIMIA),  (2017) 388-393 IEEE.
[4] Godson, J., M. Karthick, T. Muthukrishnan, and M. S. Sivagamasundari. Solar PV-Wind Hybrid Power Generation System. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 2(11) (2013)  5350-5354.
[5] Srikanth, M., T. Vijay Muni, M. Vishnu Vardhan, and D. Somesh. Design and Simulation of PV-Wind Hybrid Energy System. Jour of Adv Research in Dynamical & Control Systems, 10 (2018)  9991005.
[6] Figueiredo, João, and Joao Martins. Energy Production System Management–Renewable Energy Power Supply Integration With Building Automation System. Energy Conversion and Management, 51(6)  (2010)  1120-1126
[7] Laghari, Intakhab Alam, M. Ali Tunio, Rameez Shaikh, and Noman Khan. Development and Performance Analysis of Small Scale Proto Type Model for Hybrid Power Generation SSRG International Journal of Electrical and Electronics Engineering ( SSRG - IJEEE ), 7(2) 2020.
[8] Al-Kandari, Ahmad, Mahmoud Gilany, and A. Shaltout. A PLC Controller Algorithm for Optimum Operation  of PhotovoltaicBattery System. in 2006 Large Engineering Systems Conference on Power Engineering, (2006) 112-118. IEEE.
[9] Gupta, Tripurari Nath, Shadab Murshid, and Bhim Singh. Power Quality Improvement  of Single Phase Grid Connected Hybrid Solar PV and Wind System. in 2018 IEEE 8th Power India International Conference (PIICON), (2018) 1-6. IEEE.
[10] Acharya, Sampad, Rudranil Ghosh, and T. Halder. an Adverse Effect  of the Harmonics for the Power Quality Issues. in 2016 International Conference on Computational Techniques in Information and Communication Technologies (ICCTICT), (2016) 569-574. IEEE.
[11] Meitei, Ngerangbam Manichal, Divakar Tamang, and Sarsing Gao. A New Harmonic Analysis Reporting Technique to Improve Power Quality in Distribution System Network Applications. in 2021 International Conference on Advances in Electrical, Computing, Communication and Sustainable Technologies (ICAECT), (2021) 15. IEEE.
[12] Khan, Muhammad Umar, Et Al. S oft Computing Approach for Classification of Complex Power Quality Events. International Conference on Artificial Intelligence (ICAI). IEEE, (2021).
[13] Beig, Hikmat, Savita Nema, and Suresh K. Gawre. Power Quality Issues and Mitigation Approaches for Modern Power Scenarios  Encapsulation. in 2020 IEEE International Students' Conference on Electrical, Electronics and Computer Science (SCEECS),  (2020) 16. IEEE.
[14] Mageed, Hala, Adel S. Nada, Salama Abu-Zaid, and Rehab S. Salah Eldeen. Effects  of Waveforms Distortion for Household Appliances on Power Quality. MAPAN, 34(4) (2019)  559-572.
[15] Nejabatkhah, Farzam, Yun Wei Li, and Hao Tian. Power Quality Control of Smart Hybrid AC/DC Microgrids  an Overview. IEEE Access, 7 (2019).
[16] Ghosh, Sagnika, Mohd Hasan Ali, and Dipankar Dasgupta. Effects  of Cyber-Attacks on the Energy Storage in a Hybrid Power System. in 2018 IEEE Power & Energy Society General Meeting (PESGM),  (2018) 1-5. IEEE. 
[17] Tamboli, Arif S., and H. T. Jadhav. Hybrid STATCOM for Reactive Power Compensation. 2018 International Conference on Current Trends Towards Converging Technologies (ICCTCT). IEEE, (2018).
[18] Jayasankar, V. N., M. V. Gururaj, and U. Vinatha. A Study on Hybrid Renewable Energy Source Interface to the Non-Ideal Grid At Distribution Level With Power Quality Improvements. in 2016 IEEE 6th International Conference on Power Systems (ICPS), (2019) 1-5. IEEE.
[19] Sarma, S. Subramanya, D. Gangadhara Reddy, Ch SKB Pradeep Kumar, and P. Devdass.    Large Scale Synchronization  of Hybrid Distributed Generation Sources to the Low Voltage Grids. in 2017 International Conference on Energy, Communication, Data Analytics and S oft Computing (ICECDS), (2017) 443-448. IEEE.
[20] Galván, Luis, Juan M. Navarro, Eduardo Galván, Juan M. Carrasco, and Andrés Alcántara. Optimal Scheduling  of Energy Storage Using A New Priority-Based Smart Grid Control Method. Energies, 12(4) (2019)  579.
[21] Koca, Yavuz Bahadır, Yüksel Oğuz, and Ahmet Yönetken. Investigation Efficiency and Microcontroller-Based Energy Flow Control for Wind-Solar-Fuel Cell Hybrid Energy Generation System With Battery Storage. Measurement and Control , 50(7-8) (2017)  159-168. 
[22] Longo, Michela, Wahiba Yaïci, and Federica Foiadelli. Hybrid Renewable Energy System With Storage for Electrification–Case Study  of Remote Northern Community in Canada. Int. J. Smart Grid , 3( 2)  (2019).
[23] Lobo, Eodia Tasik Sedan, and Matius Sau Rombe. PROTOTYPE  OF A SMALL (SOLAR-WIND) HYBRID POWER PLANT. International Journal  of Mechanical Engineering and Technology (IJMET),  10(5)  (2019)  274-282.
[24] Somwanshi, Devendra, and Anmol Chaturvedi. Design and Optimization  of A Grid-Connected Hybrid Solar Photovoltaic-Wind Generation System for an Institutional Block. in International Conference on Artificial Intelligence  Advances and Applications, (2019) 319-326. Springer, Singapore.
[25] Suresh, M., and R. Meenakumari. Optimal Planning  of Solar PV/WTG/DG/Battery Connected Integrated Renewable Energy Systems for Residential Applications Using Hybrid Optimization. International Journal  of Industrial Engineering 2(1) (2018)  15-20.
[26] Kumar, Hemanth, G. Tejaswini, and Anupama Hongal. Hybrid Power Generation Using Non-Conventional Energy Sources. Perspectives in Communication, Embedded-Systems and SignalProcessing-Pices, 2(12) (2019)  316-318.