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Journal articles on the topic 'Distribution systems of electric power'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 February 2022

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1

Diamenu, Godwin. "Statistical Analysis of Electric Power Distribution Grid Outages." European Journal of Engineering and Technology Research 6, no. 3 (2021): 27–33. http://dx.doi.org/10.24018/ejers.2021.6.3.2406.

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Power systems in general supply consumers with electrical energy as economically and reliably as possible. Reliable electric power systems serve customer loads without interruptions in supply voltage. Electric power generation facilities must produce enough power to meet customer demand. Electrical energy produced and delivered to customers through generation, transmission and distribution systems, constitutes one of the largest consumers markets the world over. The benefits of electric power systems are integrated into the much faster modern life in such extent that it is impossible to imagin
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2

Romero, Natalia, Linda K. Nozick, Ian Dobson, Ningxiong Xu, and Dean A. Jones. "Seismic Retrofit for Electric Power Systems." Earthquake Spectra 31, no. 2 (2015): 1157–76. http://dx.doi.org/10.1193/052112eqs193m.

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This paper develops a two-stage stochastic program and solution procedure to optimize the selection of seismic retrofit strategies to increase the resilience of electric power systems against earthquake hazards. The model explicitly considers the range of earthquake events that are possible and, for each, an approximation of the distribution of damage experienced. This is important because electric power systems are spatially distributed and so their performance is driven by the distribution of component damage. We test this solution procedure against the nonlinear integer solver in LINGO 13 a
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Muscas, Carlo. "Power quality monitoring in modern electric distribution systems." IEEE Instrumentation & Measurement Magazine 13, no. 5 (2010): 19–27. http://dx.doi.org/10.1109/mim.2010.5585070.

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4

Carnero, María Carmen, and Andrés Gómez. "Maintenance strategy selection in electric power distribution systems." Energy 129 (June 2017): 255–72. http://dx.doi.org/10.1016/j.energy.2017.04.100.

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5

Singh, Bhim, Ambrish Chandra, Kamal Al-Haddad, Anuradha, and D. P. Kothari. "Reactive power compensation and load balancing in electric power distribution systems." International Journal of Electrical Power & Energy Systems 20, no. 6 (1998): 375–81. http://dx.doi.org/10.1016/s0142-0615(98)00008-8.

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6

Bassam, Fadel, and Andrey Kryukov. "DIGITAL MODELS OF DISTRIBUTION ELECTRIC NETWORK OF IRAQ." Modern Technologies and Scientific and Technological Progress 2020, no. 1 (2020): 187–88. http://dx.doi.org/10.36629/2686-9896-2020-1-187-188.

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The restoration and development of Iraq's electric power industry is planned to be carried out on the basis of the concept of intelligent electric networks (smart grid). To implement this concept, it is necessary to create integrated digital models of electrical networks. Such models can be implemented on the basis of methods and tools for modeling electric power systems in phase coordinates. The report presents the results of modeling normal and emergency modes of distribution electric networks of 11 kV.
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Cossi, A. M., R. Romero, and J. R. S. Mantovani. "Planning and Projects of Secondary Electric Power Distribution Systems." IEEE Transactions on Power Systems 24, no. 3 (2009): 1599–608. http://dx.doi.org/10.1109/tpwrs.2009.2021208.

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8

Liu, Yang, Liam Wotherspoon, Nirmal-Kumar C. Nair, and Daniel Blake. "Quantifying the seismic risk for electric power distribution systems." Structure and Infrastructure Engineering 17, no. 2 (2020): 217–32. http://dx.doi.org/10.1080/15732479.2020.1734030.

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9

Olivares-Galvan, Juan Carlos, Rafael Escarela-Perez, Pavlos S. Georgilakis, and Issouf Fofana. "Evaluation of distribution transformer banks in electric power systems." International Transactions on Electrical Energy Systems 23, no. 3 (2011): 364–79. http://dx.doi.org/10.1002/etep.665.

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10

Resener, Mariana, Panos M. Pardalos, and Sérgio Haffner. "Special issue on “Optimization in electric power distribution systems”." Energy Systems 9, no. 3 (2018): 469–71. http://dx.doi.org/10.1007/s12667-018-0290-z.

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11

Rolim, Felipe B. B., Fernanda C. L. Trindade, and Marcos J. Rider. "Adaptive Protection Methodology for Modern Electric Power Distribution Systems." Journal of Control, Automation and Electrical Systems 32, no. 5 (2021): 1377–88. http://dx.doi.org/10.1007/s40313-021-00774-1.

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12

Song, Hong, Xiao Hui Zeng, and Wei Peng Zhou. "The Software Design for an Automation Intelligent Distribution Terminal Unit in Electric Power Systems Based on C and Assembly Language." Advanced Materials Research 676 (March 2013): 302–5. http://dx.doi.org/10.4028/www.scientific.net/amr.676.302.

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Electric power distribution systems play an important role in electric power systems, in which automation intelligent distribution terminal units are critical for the performance of power distribution systems. The software of an automation intelligent electric power distribution terminal unit based on digital signal processor is designed in the paper, a way of admixture programming with C language and assembly language. In this manner, real-time requirement on the electric power distribution system will be satisfied, the reliability and stability of the software are ensured as while. It has a
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13

Anteneh, Degarege. "Reliability Assessment of Distribution System Using Analytical Method: A Case Study of Debre Berhan Distribution Network." Journal of Informatics Electrical and Electronics Engineering (JIEEE) 1, no. 1 (2020): 1–9. http://dx.doi.org/10.54060/jieee/001.01.002.

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Electric power delivers a predicable per condition for the technological, economic and political development of any countries and it is vital for each individual. Power outage is serious problem in Ethiopia at the whole of distribution network. This is due to most interruptions are frequently and much time service restoration, that is why most customers of Ethiopia their day to day activities highly affected and they are strongly complain to Ethiopia electric utility. But this power outage affected the cost of customer and Ethiopian utility. Power system is to provide an adequate and security
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14

Yang, Zijiang, Payman Dehghanian, and Mostafa Nazemi. "Seismic-Resilient Electric Power Distribution Systems: Harnessing the Mobility of Power Sources." IEEE Transactions on Industry Applications 56, no. 3 (2020): 2304–13. http://dx.doi.org/10.1109/tia.2020.2972854.

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15

Biscaro, A. A. P., R. A. F. Pereira, M. Kezunovic, and J. R. S. Mantovani. "Integrated Fault Location and Power-Quality Analysis in Electric Power Distribution Systems." IEEE Transactions on Power Delivery 31, no. 2 (2016): 428–36. http://dx.doi.org/10.1109/tpwrd.2015.2464098.

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16

Goh, Hui Hwang, Sy yi Sim, Dahir Khere Diblawe, et al. "Energy Power Plant in Electric Power Distribution Systems Equipping With Distance Protection." Indonesian Journal of Electrical Engineering and Computer Science 8, no. 1 (2017): 192. http://dx.doi.org/10.11591/ijeecs.v8.i1.pp192-198.

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<p>This paper suggests the theory of distance protection criteria in power distribution systems for power plant generation. Multi-developed countries have energy power plants that placed in remote areas which are far from the grid line. Hence, they should be coupled to the low power transportation systems necessarily. While higher-rating relays are adopted to preserve feeders at power substations, fuses are merely obtainable outside on feeder channel. The safe system process, space protection is dispatched to save feeders. In this review, feeders with distance relays are equipped, togeth
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Menchafou, Youssef, Mustapha Zahri, Mohamed Habibi, and Hassane El Markhi. "Optimal load distribution estimation for fault location in electric power distribution systems." Archives of Electrical Engineering 66, no. 1 (2017): 77–87. http://dx.doi.org/10.1515/aee-2017-0006.

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Abstract Accurate fault location in an electric power distribution system (EPDS) is important in maintaining system reliability. Diverse methods have been proposed in the past. These methods whither require measurements at each load point or use single-step loads compensation, which is hardly available in practical uses. In this paper, a simple technique to bypass the load problems is proposed. The method requires calculating an optimal load distribution using the total load seen from the substation (The rated power of distribution transformers) and the network topology. The optimal load distr
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18

Mustafa, Sameer, Mohammed Yasen, and Hussein Abdullah. "Evaluation of Electric Energy Losses in Kirkuk Distribution Electric System Area." Iraqi Journal for Electrical and Electronic Engineering 7, no. 2 (2011): 144–50. http://dx.doi.org/10.37917/ijeee.7.2.10.

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Correct calculations of losses are important for several reasons. There are two basic methods that can be used to calculate technical energy losses, a method based on subtraction of metered energy purchased and metered energy sold to customers and a method based on modeling losses in individual components of the system. For considering the technical loss in distribution system included: transmission line losses, power transformer losses, distribution line losses and low-voltage transformer losses. This work presents an evaluation of the power losses in Kirkuk electric distribution system area
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19

Kuntz, P. A., R. D. Christie, and S. S. Venkata. "Optimal Vegetation Maintenance Scheduling of Overhead Electric Power Distribution Systems." IEEE Power Engineering Review 22, no. 7 (2002): 64. http://dx.doi.org/10.1109/mper.2002.4312439.

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20

Kuntz, P. A., R. D. Christie, and S. S. Venkata. "Optimal vegetation maintenance scheduling of overhead electric power distribution systems." IEEE Transactions on Power Delivery 17, no. 4 (2002): 1164–69. http://dx.doi.org/10.1109/tpwrd.2002.804007.

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21

Bernal, J. L., R. Dufo, H. Ortiz, et al. "Graphical Environment to Study Reliability of Electric Power Distribution Systems." Renewable Energy and Power Quality Journal 1, no. 03 (2005): 350–54. http://dx.doi.org/10.24084/repqj03.299.

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22

Guikema, Seth D., Steven M. Quiring, and Seung-Ryong Han. "Prestorm Estimation of Hurricane Damage to Electric Power Distribution Systems." Risk Analysis 30, no. 12 (2010): 1744–52. http://dx.doi.org/10.1111/j.1539-6924.2010.01510.x.

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23

Carnelossi Cunha, Vinicius, and Jose Roberto Sanches Mantovani. "Planning And Project Of Medium Voltage Electric Power Distribution Systems." IEEE Latin America Transactions 14, no. 5 (2016): 2298–308. http://dx.doi.org/10.1109/tla.2016.7530426.

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24

Mahdavi, Meisam, Hassan Haes Alhelou, Nikos D. Hatziargyriou, and Francisco Jurado. "Reconfiguration of Electric Power Distribution Systems: Comprehensive Review and Classification." IEEE Access 9 (2021): 118502–27. http://dx.doi.org/10.1109/access.2021.3107475.

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25

Meinecke, Steffen, Leon Thurner, and Martin Braun. "Review of Steady-State Electric Power Distribution System Datasets." Energies 13, no. 18 (2020): 4826. http://dx.doi.org/10.3390/en13184826.

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Publicly available grid datasets with electric steady-state equivalent circuit models are crucial for the development and comparison of a variety of power system simulation tools and algorithms. Such algorithms are essential to analyze and improve the integration of distributed energy resources (DERs) in electrical power systems. Increased penetration of DERs, new technologies, and changing regulatory frameworks require the continuous development of the grid infrastructure. As a result, the number and versatility of grid datasets, which are required in power system research, increases. Further
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26

Nithiyananthan, K., and Umasankar Umasankar. "Environment Friendly Voltage Up-gradation Model for Distribution Power Systems." International Journal of Electrical and Computer Engineering (IJECE) 6, no. 6 (2016): 2516. http://dx.doi.org/10.11591/ijece.v6i6.10098.

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<p>The main aim of this research work is to analyze and develop voltage up gradation procedure model for effective & economic power distribution in urban and suburban area. Voltage up gradation from 6.6KV to 11KV of the distribution power system network has been considered for the proposed research work. Electric power consumption has been increasing uninterruptedly, being this increase specially accelerated in the last few years. Nowadays electric lines are saturated; they are reaching critical values of ampere capacity and sag. Therefore, building new lines has been necessary t
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27

Nithiyananthan, K., and Umasankar Umasankar. "Environment Friendly Voltage Up-gradation Model for Distribution Power Systems." International Journal of Electrical and Computer Engineering (IJECE) 6, no. 6 (2016): 2516. http://dx.doi.org/10.11591/ijece.v6i6.pp2516-2525.

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<p>The main aim of this research work is to analyze and develop voltage up gradation procedure model for effective & economic power distribution in urban and suburban area. Voltage up gradation from 6.6KV to 11KV of the distribution power system network has been considered for the proposed research work. Electric power consumption has been increasing uninterruptedly, being this increase specially accelerated in the last few years. Nowadays electric lines are saturated; they are reaching critical values of ampere capacity and sag. Therefore, building new lines has been necessary t
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28

Naumov, I. V., D. N. Karamov, A. N. Tretyakov, M. A. Yakupova, and E. S. Fedorinovа. "Study of power transformer loading in rural power supply systems." Safety and Reliability of Power Industry 13, no. 4 (2021): 282–89. http://dx.doi.org/10.24223/1999-5555-2020-13-4-282-289.

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The purpose of this study is to study the effect of loading power transformers (PT) in their continuous use on their energy efficiency on a real-life example of existing rural electric networks. It is noted that the vast majority of PT in rural areas have a very low load factor, which leads to an increase in specific losses of electric energy when this is transmitted to various consumers. It is planned to optimize the existing synchronized power supply systems in rural areas by creating new power supply projects in such a way as to integrate existing power sources and ensure the most efficient
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29

Rahmouni, Abdelkader. "Impact of static reactive power compensator (SVC) on the power grid." WSEAS TRANSACTIONS ON ELECTRONICS 11 (June 11, 2020): 96–104. http://dx.doi.org/10.37394/232017.2020.11.12.

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The work presented in this paper is a contribution to the problem of controlling the reactive powers and the voltages in an electrical network. Among these control tools, the static reactive power compensator (SVC) has been chosen because of its simplicity of control. The SVC is among the FACTS 'Alternative Flexible Current Transmission Systems' devices that help to deal with problems encountered in the operation of electrical networks either in the distribution side or in the transport side. In this work, the SVC is used to control the reactive power and the voltage in an electric power trans
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30

Baziareh, Aliasghar, Fazaneh Kavousi-Fard, Alireza Zare, Alireza Abasizade, and Sadreddin Saleh. "Stochastic reactive power planning in distribution systems considering wind turbines electric power variations." Journal of Intelligent & Fuzzy Systems 28, no. 3 (2015): 1081–87. http://dx.doi.org/10.3233/ifs-141391.

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31

Xu, Sheng You, Min You Chen, Neal Wade, and Ran Li. "Reliability Evaluation of Electric Power System Containing Distribution Generation." Advanced Materials Research 383-390 (November 2011): 3472–78. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.3472.

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The application of renewable energy in electric power system is growing rapidly due to enhanced public concerns for adverse environmental impacts and escalation in energy costs associated with the use of conventional energy sources, distribution generation (DG) is recognized as an encouraging and cost effective generation source both in large grid connected systems and small isolated applications. Power output from distribution generation is not readily controllable. High distribution generation penetration can lead to high-risk levels in power system reliability and stability. In order to mai
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32

Naumov, I. V., and D. N. Karamov. "On damage rate of overhead power transmission lines in power supply systems." Safety and Reliability of Power Industry 14, no. 2 (2021): 92–99. http://dx.doi.org/10.24223/1999-5555-2021-14-2-92-99.

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The purpose of the article is to analyze the damage rate of overhead power transmission lines (OPL) in medium-voltage electrical distribution networks of the Irkutsk region. The established International Indices that determine the level of reliability of the functioning of electric networks are considered, and information on the compliance of the condition of electric networks in Russia with these indices is analyzed. Analytical information on the damage rate of elements of these networks and their causes in Europe, America, and Russia is presented. The emphasis is placed on the fact that the
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33

Tavlintsev, Alexander, Maria Shorikova, and Sergey Yuferev. "Smoothing the Metropolis Electric Power Consumption Daily Schedule with Mass Use of Electric Vehicles." Advanced Materials Research 953-954 (June 2014): 1402–5. http://dx.doi.org/10.4028/www.scientific.net/amr.953-954.1402.

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In connection with the increasing fuel costs and decreasing incomes during the crisis electric vehicles are becoming more and more popular with drivers. With mass growth of using the electrical vehicles a possibility of transmission congestion can take place. While charging the vehicle by means of residential distribution there is a risk of facing electric power supply degradation and local accident conditions in grids. One of the basic current problems is that of the load curve irregularity, i.e. the existence of the peak hours and minimums in demand of the electric power. In its turn the loa
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34

Thibodeau, Phillip. "Integrated Power Distribution Unit (IPDU): Point-of-Use Power Conversion, Management, Distribution, and Protection for Aircraft Electric Power Systems." SAE International Journal of Aerospace 5, no. 2 (2012): 513–23. http://dx.doi.org/10.4271/2012-01-2222.

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35

Son, Hyeok Jin, and Kyung Soo Kook. "Stochastic Modeling of Plug-in Electric Vehicle Distribution in Power Systems." Journal of Electrical Engineering and Technology 8, no. 6 (2013): 1276–82. http://dx.doi.org/10.5370/jeet.2013.8.6.1276.

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36

Santos-Azevedo, Manoel Socorro, Ignacio Perez-Abril, Carlos de Leon-Benitez, Jandecy Cabral-Leite, and Ubiratan Holanda-Bezerra. "Multiobjective optimization of the reactive power compensation in electric distribution systems." DYNA 81, no. 187 (2014): 175–83. http://dx.doi.org/10.15446/dyna.v81n187.40979.

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37

Garcia, Vinicius J., Daniel P. Bernardon, Alzenira R. Abaide, Olinto A. Bassi, and Guilherme Dhein. "Reliability Assessment by Coordinating Maintenance Vehicles in Electric Power Distribution Systems." Procedia - Social and Behavioral Sciences 111 (February 2014): 1045–53. http://dx.doi.org/10.1016/j.sbspro.2014.01.139.

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38

Mok, Kwan-Tat, Ming-Hao Wang, Siew-Chong Tan, and S. Y. Ron Hui. "DC Electric Springs—A Technology for Stabilizing DC Power Distribution Systems." IEEE Transactions on Power Electronics 32, no. 2 (2017): 1088–105. http://dx.doi.org/10.1109/tpel.2016.2542278.

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39

Ajewole, Titus O., Waheed A. Salami, Adepitan O. Adeniran, and Michael O. Omoigui. "Reliability analysis of the pre-privatization Nigerian electric power distribution systems." Environmental Quality Management 28, no. 2 (2018): 97–103. http://dx.doi.org/10.1002/tqem.21589.

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40

Fukuyama, Y., H. D. Chiang, and K. Nan Miu. "Parallel genetic algorithm for service restoration in electric power distribution systems." International Journal of Electrical Power & Energy Systems 18, no. 2 (1996): 111–19. http://dx.doi.org/10.1016/0142-0615(95)00016-x.

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41

Figueroa-Candia, Marcelo, Frank A. Felder, and David W. Coit. "Resiliency-based optimization of restoration policies for electric power distribution systems." Electric Power Systems Research 161 (August 2018): 188–98. http://dx.doi.org/10.1016/j.epsr.2018.04.007.

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Shirazi, E., and S. Jadid. "A multiagent design for self-healing in electric power distribution systems." Electric Power Systems Research 171 (June 2019): 230–39. http://dx.doi.org/10.1016/j.epsr.2019.02.025.

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43

Oliveira, D. Q., A. C. Zambroni de Souza, and L. F. N. Delboni. "Optimal plug-in hybrid electric vehicles recharge in distribution power systems." Electric Power Systems Research 98 (May 2013): 77–85. http://dx.doi.org/10.1016/j.epsr.2012.12.012.

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Fukuyama, Y. "Parallel genetic algorithm for service restoration in electric power distribution systems." Fuel and Energy Abstracts 37, no. 3 (1996): 195. http://dx.doi.org/10.1016/0140-6701(96)88713-3.

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45

Poudel, Shiva, and Anamika Dubey. "A two‐stage service restoration method for electric power distribution systems." IET Smart Grid 4, no. 5 (2021): 500–521. http://dx.doi.org/10.1049/stg2.12021.

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46

Tommasini, Riccardo, and Filippo Spertino. "Electric power distribution and environment: interference of power installation magnetic fields on computer systems." Applied Energy 64, no. 1-4 (1999): 181–93. http://dx.doi.org/10.1016/s0306-2619(99)00082-3.

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47

Arias-Londoño, Andrés, Oscar Danilo Montoya, and Luis Fernando Grisales-Noreña. "A Chronological Literature Review of Electric Vehicle Interactions with Power Distribution Systems." Energies 13, no. 11 (2020): 3016. http://dx.doi.org/10.3390/en13113016.

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In the last decade, the deployment of electric vehicles (EVs) has been largely promoted. This development has increased challenges in the power systems in the context of planning and operation due to the massive amount of recharge needed for EVs. Furthermore, EVs may also offer new opportunities and can be used to support the grid to provide auxiliary services. In this regard, and considering the research around EVs and power grids, this paper presents a chronological background review of EVs and their interactions with power systems, particularly electric distribution networks, considering pu
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48

Baraniak, Joanna, and Jacek Starzyński. "Modeling the Impact of Electric Vehicle Charging Systems on Electric Power Quality." Energies 13, no. 15 (2020): 3951. http://dx.doi.org/10.3390/en13153951.

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Recently, there has been dynamic development of electromobility. This trend is predicted to grow exponentially, which will contribute to the creation of an extensive infrastructure of electric car charging points. For distribution network operators, this implies that in addition to the increase in demand for power and electricity, the number of converter systems connected to their networks will also increase. It is therefore necessary to determine the potential impact of electric vehicle charging systems on electricity quality. To this end, the authors of the present study developed simulation
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49

Olajuyin, E. A., and Olubakinde Eniola. "MICROGRID IN POWER DISTRIBUTION SYSTEM." International Journal of Research -GRANTHAALAYAH 7, no. 8 (2020): 387–93. http://dx.doi.org/10.29121/granthaalayah.v7.i8.2019.687.

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Power is a very important instrument to the development of economy of a nation and it must be stable and available and to meet the demand of the consumers at all times. The quest for power supply has introduced a new technology called microgrid. Micro grids are regarded as small power systems that confine electric energy generating facilities, from both renewable energy sources and conventional synchronous.
 Generators, and customer loads with respect to produced electric energy. It can be connected to grid or operate in islanding mode. On the other hand, the grid’s dynamics and its stabi
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Alkhanafseh, Yousef Marwan, and Tahir Cetin Akinci. "A Python-Based Interface Design for Electric Power System Education." International Journal of Smart Grid and Sustainable Energy Technologies 4, no. 1 (2021): 163–68. http://dx.doi.org/10.36040/ijsgset.v4i1.3905.

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Python, which is widely used today, is one of the open-source programming languages. In the Python program, its interface is done through the PyQt5 library. With PyQt5, it is possible to develop object-based software that takes up less space on the disk and runs faster. In this study, an educational calculation and analysis program (ITUPSA) was designed for the Electric power systems course using the Python interface. Electric power systems are one of the fundamental courses in electrical engineering. This main course is taught in three sub-course groups as energy transmission-distribution, en
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