Page 90 - Read Online
P. 90
Page 14 of 15 Li et al. Complex Eng Syst 2023;3:1 https://dx.doi.org/10.20517/ces.2022.46
20. Ning YT, Li XJ, Dong DH, Jia XC, Hui D. A review of the research methods of smoothing wind/PV power output with energy storage
systems. Distrib Utilizat 2017;34:2-11. (In Chinese) DOI
21. Zhao Y, Cui Y. Analysis of optimal design of energy storage configuration based on distributed pv system. In Chinese Society For
Environmental Sciences 2022 Annual Conference On Science And Technology. 2022. (In Chinese). DOI
22. Gao XT, Qin ZL, Gao XY. Reliability evaluation of multi-energy generation and transmission system with offshore wind power-
photovoltaic-energy storage. Power Gen Technol 2022;43:626-35. (In Chinese) DOI
23. Sun YH, Zhao SY, Zhang XL, Han YQ, Zhang HR. Distributed energy storage coordinated operation strategy for improving voltage
stability of regional power grid. Renew Energy Resour 2022;40:1115-22. (In Chinese) DOI
24. Zhu LJ, Yu ZY. Coordinated control strategy of photovoltaic microgrid based on hybrid energy storage. Electric Eng 2022;20:45-8. (In
Chinese) DOI
25. Shao SH, Yin FY, Li HJ. Research on control strategy of DC photovoltaic energy storage system. Electric Mater 2022;04:15-9. (In
Chinese) DOI
26. Karimi S, Zadeh M, Suul JA. Shore charging for plug-in battery-powered ships: power system architecture, infrastructure, and control.
IEEE Electrific Mag 2020;8:47-61. DOI
27. Dragicevic T, Lu X, Vasquez JC, Guerrero JM. DC Microgrids-Part II: a review of power architectures, applications and
standardization issues. IEEE Trans Power Electr 2015;3:1. DOI
28. Yu H, Niu SY, Zhang YM. An integrated and reconfigurable hybrid AC/DC microgrid architecture with autonomous power flow
control for nearly/net zero energy buildings. Appl Energy 2020:263. DOI
29. Yu H, Niu S, Shao Z, Jian L. A scalable and reconfigurable hybrid ac/dc microgrid clustering architecture with decentralized control
for coordinated operation. Int J Electr Power Energy Syst 2022:135. DOI
30. Xu WD, Luo J, Fan WW. Capacity planning of grid-connected PV-and-storage microgrid under uncertainty. Syst Eng Theory Pract
2022;42:981-1000. (In Chinese) DOI
31. Wang F, Li H, Yang L, Zhu Yi. Capacity planning method for flexible DC power grid considering access of large-scale new energy.
CSU-EPSA 2018;30:53-59. (In Chinese) DOI
32. Ju YT, Li HQ, Yu ZM, Liang Y, Zheng LY. Bi-level robust capacity planning of micro-grid considering multivariate uncertainties and
reserve demand. Power Syst Technol ;2022:1-20. (In Chinese) DOI
33. Zhong W, Kong FQ, Lin XJ, et al. Two-stage planning method of microgrid capacity considering dynamic weighting of typical day
characteristics. Energy Eng 2022;42:90-8. (In Chinese) DOI
34. Guo L, Yang SQ, Liu YX, et al. Typical day selection method for capacity planning of microgrid with wind turbine-photovoltaic and
energy storage. CSEE 2020;40:2468-79. (In Chinese) DOI
35. Khlifi F, Cherif H, Belhadj J. Sizing and multi-objective optimization of a multisource micro-grid with storage for an economic
activity zone. In 2019 International Conference on Advanced Systems and Emergent Technologies. 2019. DOI
36. Parise G, Parise L, Pepe FM, Ricci S, Chavdarian P. Innovations in a container terminal area and electrical power distribution for the
service continuity. In Industrial & Commercial Power Systems Technical Conference. 2016. DOI
37. Gennitsaris SG, Kanellos FD. Emission-aware and cost-effective distributed demand response system for extensively electrified large
ports. IEEE Trans Power Syst 2019;34:4341-51. DOI
38. Gutierrez-romero JE, Esteve-pérez J, Zamora B. Implementing onshore power supply from renewable energy sources for requirements
of ships at berth. Appl Energy 2019;255:113883. DOI
39. Kotrikla AM, Lilas T, Nikitakos N. Abatement of air pollution at an aegean island port utilizing shore side electricity and renewable
energy. Marine Policy 2017;75:238-8. DOI
40. Ahamad NB, Othman M, Vasquez JC, Guerrero JM, Su CL. Optimal sizing and performance evaluation of a renewable energy based
microgrid in future seaports. In 2018 IEEE International Conference on Industrial Technology (ICIT). 2018. DOI
41. Wang W, Peng Y, Li X, Qi Q, Feng P, Zhang Y. A two-stage framework for the optimal design of a hybrid renewable energy system
for port application. Ocean Eng 2019;191:106555. DOI
42. Kumar J, Parthasarathy C, Västi M, Laaksonen H, Shafie-Khah M, Kauhaniemi K. Sizing and allocation of battery energy storage
systems in land islands for large-scale integration of renewables and electric ferry charging stations. Energies 2020;13:317. DOI
43. Zhong CY, Gui QJ, Jiang QJ, et al. Data-driven Distributed Voltage Control for High-penetration Renewable Power Clusters Without
Complete Model. J Glob Energy Int 2022;5:251-60. (In Chinese) DOI
44. Li CP, Dong ZM, Lin JH, et al. Optimal control strategy of distributed energy storage cluster for prompting renewable energy
accomodation in distribution network. Autom Electr Power Syst 2021;45:76-83. (In Chinese) DOI
45. Dong XW, Pei CC, Deng W, Li B, Dai H. Research on control strategy of distributed energy storage system in distribution network
with new energy. Electr Power Construct 2021;42:81-9. (In Chinese) DOI
46. Ma HN, Wang LY, Qiu C, et al. Research on distributed control of multiple energy storage systems with different SOC in DC
microgrid. Electr Power Construct 2022;43:87-95. (In Chinese) DOI
47. Liu S. Study on distributed control of voltage and current in DC micro-grid. Electr Drive 2022;52:29-34. (In Chinese) DOI
48. Yang YS, Niu XR, Li LX, et al. Design of port distributed lighting control system based on RT-Thread. Port Sci Technol 2022:13-7.
(In Chinese) DOI
49. He GJ, Lv CX, Shi FJ, et al. Design on port intelligent lighting control system based on WINCC. Port Oper 2018:6-8. (In Chinese)
DOI