Abstract
As the energy demand continues to increase and consumers are evoking interest in benefits to develop their supply network through electricity board. Mobile distribution stations are practical and efficient solution for meeting high level demand for power at short notice. Their ability to provide temporary power supply, rapid deployment, and flexibility make them valuable assets for power authorities and energy providers. By utilizing mobile distribution strategically, we can ensure stable and reliable power supply during critical situation, maintaining essential services, and minimizing disruptions to communities. This paper introduces an innovative concept called “Mobile Substation” and provides an in-depth analysis of its research background in relation to existing mobile substations and highlights the specific advantages the development of an 11 kV/440 V distribution station’s single line diagram and MATLAB model, showcasing the practical application of this novel approach.
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References
Lopez-Roldan, Enns, Guillaume, Devriendt (2006) Mobile substations: application, engineering and structural dynamics. In: 2005/2006 IEEE/PES transmission and distribution conference and exhibition, pp 951–956. https://doi.org/10.1109/TDC.2006.1668630
Bisen ML, Singh DK, Mobile transformers and mobile substations for rapidly restoring electrical service. Dr. C. V. Raman Institute Of Science And Technology
Dehghan H, Ghaemi H, Shadman SM, Khorasani S (2012) Using the mobile substations in 132Kv network and studying their effects on the losses of network. In: 2012 Proceedings of 17th conference on electrical power distribution, pp 1–4
Malvi AM, Sharma GK (2015) Design development and simulation of mobile substation for distribution network. IISRD-Int J Sci Res Dev 3(10):705–709
ABB Power Products Division and ABB Power Systems, ABB Products, systems, services in power: an overview, ABB library and database located at: http://www.abb.com/global/veabb/veabb051.nsf/0/d78692ef1282021ec1257164006f0dd9/$file/presentationpt.pdf
A report to the United States congress pursuant to section 1816 of the energy policy act of 2005—benefits of using mobile transformers and mobile substations for rapidly restoring electrical service, US Department of Energy
Walde K, Ramtekkar P (2022) Designing parameters and MATLAB model of 11 KV/440-volt mobile distribution station. In: 2nd asian conference on innovation in technology (ASIANCON), Ravet, India, pp 1–5. https://doi.org/10.1109/ASIANCON55314.2022.9909054
Boyd D, Glen Rampaul G (2015) Mobile substations. IEEE PES
IEEE guide for the safe installation of mobile substation equipment. IEEE Std 1268–1997, 1–28 (1997). https://doi.org/10.1109/IEEESTD.1997.83811
Acknowledgements
Special thank to Prof. Pankaj Ramtekkar, who gave me the great opportunity to do this excellent project of Electrical Engineering on Analysis of 11 KiloVolt /440 Volt Mobile Substation. And also special thanks to my industry guide Mr. Hemant Raut to help me in my project. I am really grateful that I learnt lot of new things.
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Walde, K., Ramtekkar, P., Raut, H. (2024). Comparative Analysis of Mobile Substation. In: Dhote, N.K., Kolhe, M.L., Rehman, M. (eds) Recent Evolutions in Energy, Drives and e-Vehicles. REEDEV 2022. Lecture Notes in Electrical Engineering, vol 1162. Springer, Singapore. https://doi.org/10.1007/978-981-97-0763-8_3
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DOI: https://doi.org/10.1007/978-981-97-0763-8_3
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