Abstract
In this paper, the method of parameters measurement and identification of non linear load, using a Smart Energy Meter (SEM), is proposed. Currently, most loads are non-linear containing harmonics when connected to the electrical network. Most modern electricity meter algorithms take these harmonics into account, but with flaws. The proposed system in this paper replaces the traditional meter. The reading method and the communication module are based on the Node MCU ESP8266 WiFi module, a PIC18F4550 microcontroller and the results (active power P, deformation factor D and the active energy We) are displayed and illustrated by graphs on LabView. An LCD displays the numerical values of power and energy.
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References
Ayari, A., Mechergui, H., Haddouk, A.: Active power measurement comparison between analog and digital methods. In: International Conference on Electrical Engineering and Software Applications (ICEESA), Hammamet - Tunisia, 21 – 23 March 2013 (2013). ISBN: 978-1-4673-6302-0, https://doi.org/10.1109/ICEESA.2013.6578416
Ayari, A.: Contribution au développement des méthodes de mesure de puissances active, réactive pour des charges linéaires et non linéaires et Optimisation de l’énergie, Ph.D., ENSIT, University of Tunis - Tunisia, 16 May (2015)
Ayari, A., et al.: Design and implementation of Single Phase Intelligent Energy Meter using a microcontroller interfaced to PC, 15th International conference on Sciences and Techniques Automatic control and computer engineering, STA’2014, December 21–23, Hammamet, Tunisia, 978-1-4799-5906-8/14/$31.00 ©2014, pp. 191–195. IEEE Conference Publications (2014)
ANEEL: General Condicions for Electrical Energy Supply (in Portuguese), Resolution 414/2010 (2010)
Bartolomei, L., et al.: ‘Testing of electrical energy meters subject to realistic distorted voltages and currents. Energies 13, 2023 (2020). https://doi.org/10.3390/en13082023
Benqiang, Y., et al.: Smart metering and systems for low-energy households: challenges, issues and benefits. Adv. Build. Energy Res. 13(1), 80–100 (2019). https://doi.org/10.1080/17512549.2017.1354782
Darby, S.: Smart metering: what potential for householder engagement? pp: 442–457 (2010). | Published online: 25 Aug 2010, https://doi.org/10.1080/09613218.2010.492660
Gheorghe Beleiu, H., et al.: Management of power quality issues from an economic point of view. Sustainability 10(7), 2326 (2018). https://doi.org/10.3390/su10072326
Gianluca, A., et al.: AC electronic load for on-site calibration of energy meters. In: IEEE Instrumentation and Measurement Technology Conference (2013). https://doi.org/10.1109/I2MTC.2013.6555519
Hlaili, M.: Development and control of power electronics for a photovoltaic power generation system for on-grid off-grid operation, Ph.D., ENSIT, University of Tunis - Tunisia, 21 January (2017)
Harrison, A.: The Effects of Harmonics on Power Quality and Energy Efficiency Technological, University Dublin, Bachelor of Science in Electrical Services and Energy Management (2010)
Khlifi, K., et al.: Harmonic pollution caused by non-linear load: analysis and identification. Int. J. Energy Environ. Eng. 12, 510–517 (2018)
Khlifi, K.: Gestion de l’énergie électrique dans l’habitat intégrant les charges non linéaires, Ph.D, ENSIT, University of Tunis - Tunisia, 27 February (2021)
Kuralkar, P. et al.: Smart Energy Meter: Applications, Bibliometric Reviews and Future Research Directions Saloni, pp:165–188 (2020). Published online: 17 Apr 2020 https://doi.org/10.1080/0194262X.2020.1750081
Ouyang S. and Xuntao, S.: The analysis of power meters performance under non sinusoidal conditions. In: International Conference on Power System Technology (2010). 978-1-4244-5940-7110/$26.00© IEEE
Rönnberg, S., Bollen, M.: Power quality issues in the electric power system of the future’. Electr. J. 29(10), 49–61 (2016). https://doi.org/10.1016/j.tej.2016.11.006
Olivares-Rojas. J.C., Reyes-Archundia, E., Gutiérrez-Gnecchi, J.A., González-Murueta, J.W., Cerda-Jacobo, J.: A multi-tier architecture for data analytics in smart metering systems. Simul Model Pract Theory 102024 (2019)
Mbungu, N., Naidoo, R., Bansal, R., Bipath, M.: Grid integration and optimization through smart metering. In: 2nd SAIEE Smart Grid Conference, Midrand, South Africa, pp. 19–21 (2017)
Weranga, K., Kumarawadu, S., Chandima, D.: Smart metering design and applications. Springer, Heidelberg, Germany (2014)
Mbungu, N.T., Naidoo, R.M., Bansal, R.C., Vahidinasab, V.: Overview of the optimal smart energy coordination for microgrid applications. IEEE Access 7, 163063–163084 (2019)
Ajanovic, A., Hiesl, A., Haas, R.: On the role of storage for electricity in smart energy systems, Energy 117473 (2020)
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Haddouk, A., Tanazafti, A., Mechergui, H. (2023). Development of a Smart Energy Meter for Electrical Energy Consumption and Power. In: Afonso, J.L., Monteiro, V., Pinto, J.G. (eds) Sustainable Energy for Smart Cities. SESC 2022. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 502. Springer, Cham. https://doi.org/10.1007/978-3-031-33979-0_7
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