A Review of Energy Management Strategies for Ship Hybrid Power Systems
DOI:
https://doi.org/10.54097/tv814c06Keywords:
Ship Hybrid Power System, Energy Management Strategy, Sustainable Development, Optimization Algorithm, Green ShippingAbstract
With the enhancement of environmental awareness and the increase in the demand for sustainable development in the shipping industry, the energy management strategy of ship hybrid power systems has become a research hotpot. This paper integrates multiple related papers and comprehensively expounds the current research status of energy management strategies for ship hybrid power systems. A variety of energy management strategies are introduced in detail, including rule-based control strategy, model predictive control, equivalent consumption minimization strategy, intelligent algorithm control strategy, etc., and the principles, applications, advantages and disadvantages of each strategy are analyzed in depth. The types, compositions of ship hybrid power systems and their application examples on different ships were discussed, as well as the problems and challenges these systems face in terms of energy management. Through the comparative analysis of different strategies, it is clarified that future research should be carried out in the direction of optimizing algorithms, considering multi-factor coupling, strengthening experimental verification, and promoting the development of standardization and intelligence, aiming to provide references for the further research and application of energy management in ship hybrid power systems and promote the green development of the shipping industry.
Downloads
References
[1] Johnson H, Johansson M, Andersson K, et all. Will the ship energy efficiency management plan reduce CO2 emissions.A comparison with ISO 50001 and the ISM code [J]. Maritime Policy & Management, 2013.
[2] Kalikatzarakis M, Geertsma R D, Boonen E J, et all. Ship energy management for hybrid propulsion and power supply with shore charging [J]. Control Engineering Practice, 2018.
[3] Hou J, Sun J, Hofmann H. Adaptive model predictive control with propulsion load estimation and prediction for all-electric ship energy management [J]. Energy, 2018.
[4] Gaber M, El-Banna S H, El-Dabah M, et all. Intelligent Energy Management System for an all-electric ship based on adaptive neuro-fuzzy inference system [J]. Energy Reports, 2021.
[5] Bassam A M, Phillips A B, Turnock S R, et al. Development of a multi-scheme energy management strategy for a hybrid fuel cell driven passenger ship [J]. International Journal of Hydrogen Energy, 2016.
[6] Yigit K, Acarkan B. A new ship energy management algorithm to the smart electricity grid system [J]. International Journal of Energy Research, 2018.
[7] Yigit K, Acarkan B. A new electrical energy management approach for ships using mixed energy sources to ensure sustainable port cities [J]. Sustainable Cities and Society, 2018.
[8] Hou J, Song Z, Hofmann H, et al. Adaptive model predictive control for hybrid energy storage energy management in all-electric ship microgrids [J]. Energy Conversion and Management, 2019.
[9] Zhang Fenglin, Zhang Jundong, Ren Guang, et al. Decoupling Analysis and Optimal Control of Energy Flow in Parallel Ship Gas-Electric Hybrid Power [J]. Proceedings of the CSEE, 2017.
[10] Xiao Nengqi Research on Key Technologies of Diesel-Electric Hybrid Propulsion System for Ships [D]. Harbin Engineering University, 2018.
[11] Xiao Nengqi, Zhao Yao, Zheng Huayao, et al. Energy Management Control Strategy for Diesel-Electric Hybrid Power System of Ships [J]. Acta Energiae Solaris Sinica, 2019.
[12] Jiang Qicheng Research on Energy Storage Control Technology in Ship Electric Propulsion System [D]. Harbin Engineering University, 2018.
[13] Zhang Fulong, Zhang Jundong, Ren Guang. The Application of Energy Management of Ship Power System in Green Shipping [J]. China Navigation, 2017.
[14] Wang Xinglin Research on Energy Management Strategy of Hybrid System for Ship Composite Energy Storage [D]. Jiangsu University of Science and Technology, 2019.
[15] Xu Shuang Simulation Research on Energy Management of Ship Hybrid Power System [D]. Dalian Maritime University, 2018.
[16] Bai Huiquan Research on Energy Management Control Strategy of Ship Gas-Electric Hybrid Power System [D]. Harbin Engineering University, 2018.
[17] Peng Dongkai, Hu Yihuai, Ye Yinzhong. Energy Management Strategy and Simulation Analysis of Marine Fuel Cell - Battery Hybrid Power System [J] Ship Engineering, 2018.
[18] Ding Feng Research on Energy Management Control System and Full Digital Simulation of Ship Integrated Power System [D] Harbin Engineering University, 2017.
[19] Wang Bo Research on Key Technologies of Energy Management in Ship Integrated Power System [D]. Harbin Engineering University, 2017.
[20] Wang Bo, Zhao Yao, Pang Fuzhen, et al. Research on Key Technologies of Energy Management in Ship Integrated Power System [J]. Ship Engineering, 2018.
[21] Sun Xiaojun, Yan Xinping, Yuan Chengqing, et al. Research Status of Key Technologies of Energy Management System for Marine Hybrid Propulsion System [J]. Ship Engineering, 2018.
[22] Xu Lingyi, Hu Yihuai, Ye Yinzhong. Experimental and Simulation Research on Marine Fuel Cell Hybrid Power System [J]. China Navigation, 2019.
[23] Liu Tong Research on Electric Drive Ship Power Grid Energy Management System [D]. Harbin Engineering University, 2018.
[24] Gao Diju, Yan Xinping, Zhang Di, et al. Energy Management and Control Strategies for Hybrid Electric Ships [J]. Journal of Traffic and Transportation Engineering, 2017.
[25] Yuan Yupeng, Wang Zili, Chen Xinquan. Design and Simulation of Energy Management Control Strategy for Hybrid Electric Ships [J]. China Navigation, 2018.
[26] Hou Hui, Liu Sheng, Chen Yu, et al. A Review of Energy Management Research on Hybrid Electric Ships [J]. Ship Engineering, 2018.
[27] Qu Weiping, Wang Chao, Sun Wentao, et al. Optimization Technology and Trend of Energy Management for Hybrid Electric Ships [J]. Ship Engineering, 2019.
[28] Ye Hua, Tang Tianhao, Liu Yijian, et al. Research on Energy Management Strategy of Hybrid Diesel-Electric Ships [J]. Acta Energiae Solaris Sinica, 2019.
Downloads
Published
Issue
Section
License
Copyright (c) 2025 International Journal of Education and Humanities

This work is licensed under a Creative Commons Attribution 4.0 International License.







