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The implementation of a smart grid in Jordan offers many potential advantages, such as improved reliability and efficiency of the power grid, expanded integration of renewable energy sources, enhanced control and monitoring capabilities for the utility, as well as cost savings and economic benefits. However, significant challenges must be addressed, such as high implementation costs, technical requirements, privacy and security concerns, regulatory and legal challenges, and potential job displacement. This research paper provides an overview of the current state of Jordan’s energy sector, an explanation of smart grid technology, as well as an analysis of the advantages and disadvantages of implementing a smart grid in Jordan. The paper also reviews case studies of successful smart grid implementations in other countries and offers recommendations for future research and policy decisions. Overall, the research suggests that while there are significant challenges to be addressed, the potential benefits of a smart grid in Jordan are substantial, and the country should continue to explore this technology to enhance its energy infrastructure as well as reduce its environmental impact.
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Rocznik
Tom
Strony
82--96
Opis fizyczny
Bibliogr. 36 poz., rys., tab.
Twórcy
autor
- Department of Electrical Engineering, Al-Balqa Applied University, Salt, 19117, Jordan
Bibliografia
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- 5. Alonso M., Amaris H., Alcala-Gonzalez D., R D.C.C. 2020. Smart Sensors for Smart Grid Reliability. Sensors, 20(8), 2187. https://doi.org/10.3390/s20082187
- 6. Taha M.A. 2020 Oct 1. Advantages and recent advances of smart energy grid. Bulletin of Electrical Engineering and Informatics. https://doi.org/10.11591/eei.v9i5.2358
- 7. Anjana K.R., Shaji R.S. 2017. A review on the features and technologies for energy efficiency of smart grid. International Journal of Energy Research, 42(3), 936–952. https://doi.org/10.1002/er.3852
- 8. Hossain M.S., Madlool N.A., Rahim N.A., Selvaraj J., Pandey A.K., Khan A.L. 2016. Role of smart grid in renewable energy: An overview. Renewable & Sustainable Energy Reviews, 60, 1168–1184. https://doi.org/10.1016/j.rser.2015.09.098
- 9. Erickson L.E. 2017. Reducing greenhouse gas emissions and improving air quality: Two global challenges. Environmental Progress & Sustainable Energy, 36(4), 982–988. https://doi.org/10.1002/ep.12665
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- 11. Anvari M., Lohmann G., Wächter M., Milan P., Lorenz E., Heinemann D., Tabar M.R.R., Peinke J. 2016. Short term fluctuations of wind and solar power systems. New Journal of Physics, 18(6), 063027. https://doi.org/10.1088/1367–2630/18/6/063027
- 12. Huang W., Zhang N., Kang C., Li M., Huo M. 2019. From demand response to integrated demand response: review and prospect of research and application. Protection and Control of Modern Power Systems, 4(1). https://doi.org/10.1186/s41601–019–0126–4.
- 13. Miceli, Rosario. 2013. Energy Management and Smart Grids. Energies, 6(4), 2262–2290. https://doi.org/10.3390/en6042262IEA
- 14. Smart Grids – Analysis – IEA. IEA. https://www.iea.org/reports/smart-grids.
- 15. Anwar A-M, Alzyoud FY, Nesreenalsharman. 2019 Dec 8. Best Practice Fundamentals in Smart Grids For a Modern Energy System Development in Jordan. Ninth International Conference on Advances in Computing, Communication and Information Technology CCIT, 80–86. https://www.seekdl.org/conferences/paper/details/10301.html.
- 16. Nafi N.S., Ahmed K., Gregory M.A., Datta M. 2016. A survey of smart grid architectures, applications, benefits and standardization. Journal of Network and Computer Applications, 76, 23–36. https://doi.org/10.1016/j.jnca.2016.10.003.
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- 18. Salman S.R. 2017. Introduction to the Smart Grid: Concepts, Technologies and Evolution. https://doi.org/10.1049/pbpo094e
- 19. Li B., Banimenia I., Chuan L., Zhansheng H., Zhao J. 2023 Jan 11. Incentive-based demand response program with self-reported baseline supported by blockchain technology. IET Smart Grid. https://doi.org/10.1049/stg2.12100
- 20. Kirmani S., Mazid A., Khan I., Abid M. 2022. A Survey on IoT-Enabled Smart Grids: Technologies, Architectures, Applications, and Challenges. Sustainability, 15(1), 717. https://doi.org/10.3390/su15010717.
- 21. Bouhafs F., Mackay M.E., Merabti M. 2012b. Links to the Future: Communication Requirements and Challenges in the Smart Grid. IEEE Power & Energy Magazine, 10(1), 24–32. https://doi.org/10.1109/mpe.2011.943134.
- 22. Hasan M.K., Habib A.A., Shukur Z., Ibrahim F., Islam S., Razzaque M.A. 2023. Review on cyberphysical and cyber-security system in smart grid: Standards, protocols, constraints, and recommendations. Journal of Network and Computer Applications, 209, 103540. https://doi.org/10.1016/j.jnca.2022.103540
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- 24. Li R.Y.M., Chau K.W., Ho D.C.W. 2022. Current State of Art in Artificial Intelligence and Ubiquitous Cities. Springer Nature.
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- 28. Renewables Readiness Assessment: The Hashemite Kingdom of Jordan. 2021. https://www.irena.org/publications/2021/Feb/Renewables-Readiness-Assessment-The-Hashemite-Kingdom-of-Jordan.
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- 30. Ministry of Energy and Mineral Resources. https://www.memr.gov.jo/Default/En.
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- 33. Oliver J., Sovacool B.K. 2017. The Energy Trilemma and the Smart Grid: Implications Beyond the United States. Asia & the Pacific Policy Studies, 4(1), 70–84. https://doi.org/10.1002/app5.95
- 34. Choi J., Do N.D.-P. 2016. Process and Features of Smart Grid, Micro Grid and Super Grid in South Korea. IFAC-PapersOnLine, 49(27), 218–223. https://doi.org/10.1016/j.ifacol.2016.10.686
- 35. Lösch A., Schneider C. 2016. Transforming power/ knowledge apparatuses: the smart grid in the German energy transition. Innovation: The European Journal of Social Science Research, 29(3), 262–284. https://doi.org/10.1080/13511610.2016.1154783
- 36. Mah D.N.-Y. 2020. Conceptualising government-market dynamics in socio-technical energy transitions: A comparative case study of smart grid developments in China and Japan. Geoforum, 108, 148–168. https://doi.org/10.1016/j.geoforum.2019.07.025
Typ dokumentu
Bibliografia
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