Abstract
Aiming at the problem of economy and reliability caused by the frequent disturbance of the load power in the ship electric propulsion system, a composite energy device based on ultracapacitor and accumulator was proposed. Taking work load changes of a drag suction dredger for example, combine adaptive inertial weight particle swarm optimization and fitness dispersion sorting to perform multi-objective optimization con figuration for the capacity of composite energy. In this paper, through the MATLAB simulation, optimization of capacity is calculated and charge-discharge control strategy of composite energy is analyzed. The results showed that composite energy storage device can effectively improve economy and stability of ship electric propulsion system.
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References
Huang H, Shen A, Chu J (2013) Research on propeller dynamic load simulation system of electric propulsion ship[J]. China Ocean Eng 27:255–263
Zivi E (2002) Integrated shipboard power and automation control challenge problem[C]. Power engineering society summer meeting, 2002 IEEE. IEEE 1:325–330
McCoy TJ, Amy JV (2009) The state-of-the-art of integrated electric power and propulsion systems and technologies on ships[C]. Electric ship technologies symposium ESTS 2009. IEEE. IEEE 2009:340–344
Jisheng S (2013) Research on braking energy feedback storage method in marine electric propulsion system [D]. Harbin Engineering University. Heilongjiang Province, China
Chen C, Wang X, Xiao J (2014) Application of energy storage unit in ship electric propulsion system [J]. China navigation 4:25–29
Chuanhong Z (2003) Bidirectional DC / DC converter with PWM and phase shift control [D]. Zhejiang University, Zhejiang Province, China
McPartland C (2015) The application of hybrid energy storage onboard a passenger vessel [D]. University of Strathclyde Engineering, Glasgow
Fen L (2010) Research on current voltage half bridge bidirectional DC converter [D]. Nanjing University of Aeronautics and Astronautics, Nanjing
Fei L, Xin D (2011) Matlab simulation of power electronics application technology [M]. Tsinghua University Press, Beijing, China, pp 97–124
Tao H, Kotsopoulos A, Duarte JL et al (2005) Multi-input bidirectional DC-DC converter combining DC-link and magnetic-coupling for fuel cell systems [C]. In Proc. IEEE 40th Industry Applications Society Conference 2005. Institute of Electrical and Electronics Engineers. Hong Kong, pp 2021–2028
Xingguo T (2014) Hybrid energy storage flexible control technology and capacity optimization of microgrid [D]. Shandong University, Shandong Province, China
Kennedy J, Eberhart R (1995) Particle swarm optimization [C]. Proc IEEE Int Conf Neural Netw 4:1942–1948
Shi J, Eberhart R (1998) A modified particle swarm optimization[C]. Proc IEEE World Congr on Comput Intell, Piscataway, NJ, USA, USA, IEEE 1998:69–73
Shi Y, Eberhart R (1999) Empirical study of particle swarm optimization[C]. Proceedings of the 1999 congress on evolutionary computation, vol 3. IEEE, Piscataway, pp 1945–1950
Zhang L, Hu S (2003) A New Approach to Improve Particle Swarm Optimization[C]. Lecture Notes in Computer Science, Chicago 2003, USA. Springer-Verlag, Berlin, Germany, pp 134–139
Ting Z (2015) Research on control strategy and capacity allocation method of energy storage system in real-time wind power fluctuation stabilization [D]. Zhejiang University. Zhejiang Province, China
Jian C (2014) Study on the suppressing effect of hybrid energy storage system on wind power fluctuation [D]. Zhejiang University, Zhejiang Province, China
Haibo W, Xiu Y, Zhang M (2013) Hybrid energy storage control strategy for suppressing fluctuation of photovoltaic system [J]. Power Syst Technol 9:2452–2458
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Yang, C., Li, A., Han, W. et al. Application of composite energy storage device in ship electric propulsion system. J Mar Sci Technol 27, 907–915 (2022). https://doi.org/10.1007/s00773-022-00880-y
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DOI: https://doi.org/10.1007/s00773-022-00880-y