Abstract
For the ship integrated power system (SIPS) with DC bus, the DC bus voltage fluctuates greatly with the load change causing by the switch of the ship navigation conditions. In this study, a hybrid energy storage system (HESS) was adopted to suppress the fluctuation of DC bus voltage, and an energy management strategy of HESS considering generator load rate (SVA) and state of charge (SOC) of the energy storage unit was proposed. The HESS can switch flexibly between the constant voltage mode and the charging mode according to SOC and SVA. The HESS supplies power to maintain the stability of DC bus voltage when the load exceeds the rated power of the rectifier generator under some extreme conditions,
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References
Lan H, He B, Cheng P (2019) Fuzzy PI control strategy of marine electric propulsion system based on hybrid energy storage. Ship Eng 1(41):58–62
Chen C, Wang XH, Xiao JM (2014) Application of energy storage unit in marine electric propulsion system. Navig China J 37(04):25–29
Tang DG, Yan XP, Yuan YP (2016) Power management technology in ship’s integrated power system. Chin J Ship Res 11(1):72–79
Andrea C, Andrea V (2019) Open challenges in future electric ship design: high-frequency disturbance propagation in integrated power and energy systems on ships. IEEE Electrification Mag 7(4):98–110
Phuc H, Arijit B (2019) Integrated generator-rectifier for electric ship DC power system. In: 2019 IEEE electric ship technologies symposium, pp 592–598
Yang XG, Sun P (2018) Storage device for ship electric propulsion system. Navig China 41(02),9–14+62
Zhu W (2014) Brief discussion on integrated electric propulsion system and related technologies of warship. Marine Electric 34(12):14–18
Sun R (2020) Energy management of ground energy storage system of urban rail transit. Trans China Electrotech Soc 2020(01):41–43+46
Mao YZ, Yu MH (2018) The application of hybrid energy storage technology in the ship power grid. Ship Sci Technol 40(13):96–100+105
Wang TT, Sun SM (2020) Research on microgrid control strategy based on hybrid energy storage. Modern Electron Tech 43(21):119–121+126
Guo Y, Yu SZ, Li H, Guo JC (2019) Research on application of hybrid energy storage management strategy based on fuzzy logic for ship medium-voltage DC power system. Ship Sci Technol 17(03):172–181
Huang Y (2017) Research on hybrid energy storage systems for shipboard power systems. Mech Electr Equip 34(01):34–37+43
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Xiang, C., Li, Y., Cheng, Q., Xu, W. (2022). Management and Control of Hybrid Energy Storage System in Ship Integrated Power System. In: Hu, C., Cao, W., Zhang, P., Zhang, Z., Tang, X. (eds) Conference Proceedings of 2021 International Joint Conference on Energy, Electrical and Power Engineering. Lecture Notes in Electrical Engineering, vol 899. Springer, Singapore. https://doi.org/10.1007/978-981-19-1922-0_54
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DOI: https://doi.org/10.1007/978-981-19-1922-0_54
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