A Novel Algorithm to Improve the Power Quality for the Smart Grid and Integration with the Optimization Framework

A Novel Algorithm to Improve the Power Quality for the Smart Grid and Integration with the Optimization Framework

© 2021 by IJETT Journal
Volume-69 Issue-9
Year of Publication : 2021
Authors : Naveen Kumar, Dr. Gopal Singh
DOI :  10.14445/22315381/IJETT-V69I9P233

How to Cite?

Naveen Kumar, Dr. Gopal Singh, "A Novel Algorithm to Improve the Power Quality for the Smart Grid and Integration with the Optimization Framework," International Journal of Engineering Trends and Technology, vol. 69, no. 9, pp. 272-280, 2021. Crossref, https://doi.org/10.14445/22315381/IJETT-V69I9P233

The objective of the smart grid is to afford the quality power or rated power to the user who can operate the devices /utilizations/apparatus at the adjacent mandate. But there are serene, convinced encounters that oppose the device`s action to accomplish its dispensed task. The voltage is throw down/list or in supplementary words can be supposed that the no-rated power and brownout of power, the case when we have power but can’t practice it then what meant for it. The brownout is equivalent to that water that can’t thirst-quencher. The power quality subjects like fluctuations, voltage spikes, swell, sag, flickers are included in the system. In this paper, we are an effort to scrutinize the numerous challenges and trying to overwhelm such challenges. For Perfection, in power quality/ rating, the dataset is well-thought-out from IEEE. The Research paper has to try to perceive the proposed algorithm is fulfilling the devices/appliance`s basic requirement or not. Moreover, it is an effort to enable the device to perform its basic functionality without any obstacles. The fallouts will be compared with the latest studies, which were available with Scopus/IEEE database recently. A comparative study will be shown that the algorithm is employed fit or not and trying to find the possibilities for amalgamation of the proposed algorithm with load/security optimization framework.

Smart Grid, Power Quality, Integrated Technology, Quality Assurance, Optimization Framework.

[1] Hong, Y. Y. (2016). Electric Power Systems Research. Energies, 9(10), 824. https://doi.org/10.3390/en9100824
[2] Masters, C. (2002). Voltage rise: the big issue when connecting embedded generation to long11 kV Overhead lines. Power Engineering Journal, 16(1), 5–12. https://doi.org/10.1049/pe:20020101
[3] Wu, Z., Ni, X., Wu, G., Shi, J., Liu, H., & Hou, Y. Comprehensive Evaluation of power SupplyQualityfor Power Sale Companies Considering Customized Service. (2018). International Conference on Power SystemTechnology (POWERCON). Published. https://doi.org/10.1109/powercon.2018.8602238
[4] Homepage | IEC. (n.d.). IEC. Retrieved May 12, 2021, from https://www.iec.ch/homepage
[5] Power. (n.d.). Ministry of Power. Retrieved March 14, 2020, from https://powermin.gov.in/
[6] Mallajoshulaet al. (2019) Power Quality Issues in Power Systems. International Journal of innovative technology and Exploring Engineering, 9(2S3), 308–313. https://doi.org/10.35940/ijitee.b1037.1292s319
[7] Zhang, J. (2019). Research on power quality problems based on the smart grid and new energy generation. AIP conference Proceedings 2066, 020022 (2019). Published. https://doi.org/10.1063/1.5089064
[8] Vita, V. Development of a Decision-Making Algorithm for the Optimum Size and Placement of Distributed Generation Units in Distribution Networks. Energies, 10(9)(2017) https://doi.org/10.3390/en10091433
[9] Barán, B. Multi-objective Reactive Power Compensation, 0-7803-7287-5/01/IEEE
[10] Rabieeet al. A New Framework for Reactive Power Market Considering Power System Security” Iranian Journal of Electrical & Electronic Engineering, 5(3) (2016).
[11] Prasad et al. A Simple Approach In Branch Current Computation In Load flow analysis of the radial distribution Systems, International Journal for Electrical Engineering Education, 44/1 (2007)1.
[12] Medvedr et al. Project design of the electric power quality analyzer using an open-source platform.2018 International IEEE Conference and Workshop in Óbuda on Electrical and Power Engineering (CANDO-EPE).Published (2018). https://doi.org/10.1109/cando-epe.2018.8601160
[13] Xie, R., Ge, X., Zhu, J., Chen, J., & Li, J. (2019). Correction of the Relationship between OpticalelectricalSignal and Charge Quantity in Partial Discharge Combined Detection. 2019 IEEE 3rdInternationalElectricaland Energy Conference (CIEEC). Published. https://doi.org/10.1109/cieec47146.2019.cieec-2019168
[14] Moradi, M. and Abedini, M. A combination of genetic algorithm and particle swarm optimization foroptimalDG location and sizing in distribution systems. Electr. Power Energy Syst. 2011, 34, 66–74.
[15] Yadav, P.S.; Srivastava, L. Optimal location of combined DG and capacitor for real power loss minimization in distribution networks. Int. J. Electr. Electron. Eng. 2015, 7, 222–233.
[16] Parizad et al. M. Optimal placement of distributed generation with sensitivity factors considering voltage stability and losses indices. In Proceedings of the 18th Iranian Conference on electrical engineering(ICEE), Isfahan, Iran, 11–13 (2010) 848–855.
[17] Injeti, S.K.; Kumar, N.P. Optimal planning of distributed generation for improved voltage stability and loss reduction. Int. J. Comput. Appl.15 (2011) 40–46.
[18] Mahat, P.; Ongsakul, W.; Mithulananthan, N. Optimal placement of wind turbine DG in primary distribution systems for real loss reduction. In Proceedings of the Energy for sustainable development: Prospects and issues for Asia, Phuket, Thailand, 1–3 March (2006) 1–6.
[19] Puhanet al. Synchro-Embedded Intelligent Based Controller Applied To Hyrid Active Power Filter. ICICCS2018(2018)
[20] Tekale et al. (2017) A Review Paper on Power Quality Issues and Mitigation Strategies.Journal for AdvancedResearch in Applied Sciences. 4(4) 51-57.
[21] NEPLAN AG. Available online: http://www.neplan.ch/(2021).
[22] University of Washington, Power Systems Test Case Archive. Available online:https://www.ee.washington.edu/ research/pstca/ (2020).
[23] Vestas Wind Systems A/S, General Specification, V82-165MW, V100-2MW, V90-3MW.Available online: www.vestas.com (2020).
[24] Report on Power Quality of Electric Supply to the consumers A report published by Forum of Regulators, (2018).
[25] A Report on Swachh Power –A Glimpse on Power Quality in India, Published by Power Grid Corporation India-2015
[26] W.E.Kazibwe and M.H.Sendaula,Electric Power Quality Control Techniques, Van Nostrand Reinhold, New York.
[27] IEEE recommended practice for power in and grounding sensitive electron equipment, IEEE Std. 1100-1992.
[28] Available online: https://ars.els-cdn.com/content//12S0378779146gr1lrg.jpg (2020).
[29] Available online: https://www.electricaleu.com/content/uploads/-frequency-and-harmonics.pngaccessed on (2021).
[30] Available online
[31] A. Almalki, F. Developing an Adaptive Channel Modeling using a Genetic Algorithm Technique to Enhance Aerial Vehicle-to-Everything Wireless Communications. International Journal of Computer Networks & Communications, 13(2) (2021) 37–56. https://doi.org/10.5121/ijcnc.2021.13203
[32] Salameh, O. An Exact Analytical Model for an IoT Network with MMPP Arrivals. International Journal of Computer Networks & Communications, 13(1) (2021) 93–106.https://doi.org/10.5121/ijcnc.2021.13106
[33] G, N. S., T, N. R., G S, V., & Sameer, S. (2021). Effects of Process Variables on Biomethane Productivity in Anaerobic Digestion of Market waste co-fermented with Food Waste. International Journal of Engineering Trends and Technology, 69(5) (2021) 109–118. https://doi.org/10.14445/22315381/ijett-v69i5p216
[34] Jung, H. (2021). Analysis of Subthreshold Characteristics for Top and Bottom Flat-band Voltages of Junction less Double Gate MOSFET. International Journal of Engineering Trends and Technology, 69(3), 1–6. https://doi.org/10.14445/22315381/ijett-v69i3p201
[35] C.Demichelis, and P. Chimento, (2002) IP Packet Delay Variation Metric for IPPM, RFC 3393.
[36] A. Al-Sbou, Y. (2020). Wireless Networks Performance Monitoring Based on Passive-active Quality of Service Measurements. International Journal of Computer Networks & Communications, 12(6), 15–32. https://doi.org/10.5121/ijcnc.2020.12602
[37] M, K., & K, J. (2021). A Solar PV Fed Switched Capacitor Boost Circuit for DC Microgrid. International Journal of Engineering Trends and Technology, 69(3), 127–132. https://doi.org/10.14445/22315381/ijett-v69i3p220