我国舰船中压直流综合电力系统研究进展

付立军; 刘鲁锋; 王刚; 马凡; 叶志浩; 纪锋; 刘路辉

doi:10.3969/j.issn.1673-3185.2016.01.009

我国舰船中压直流综合电力系统研究进展

doi: 10.3969/j.issn.1673-3185.2016.01.009

海军工程大学船舶综合电力技术重点实验室, 湖北武汉 430033

基金项目:

国家自然科学基金资助项目(51377167)

国家级重大基础研究资助项目

国家重点基础研究发展计划资助项目(2012CB215103)

详细信息

通信作者:
付立军(通信作者),男,1967年生,教授,博士生导师。研究方向:电力系统仿真建模、分析、系统设计、能量管理。E-mail:lijunfu2006@sina.cn

中图分类号: U664.14
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出版历程
- 收稿日期: 2015-06-19
- 刊出日期: 2016-02-08

The research progress of the medium voltage DC integrated power system in China

Science and Technology on Ship Integrated Power System Technology Laboratory, Naval University of Engineering, Wuhan 430033, China

我国舰船中压直流综合电力系统研究进展由付立军，等创作，采用知识共享署名4.0国际许可协议进行许可。

摘要

摘要: 舰船综合电力系统可实现全舰能量的综合利用,被誉为是舰船动力的第三次革命。介绍了一代和二代舰船综合电力系统的技术特征。结合我国综合电力系统设备的技术现状,介绍我国一代半舰船中压直流综合电力系统的研究进展,分析了系统层面存在的难点,主要包括:系统建模和电磁暂态仿真、气轮机发电机组和柴油发电机组并联、系统稳定性分析和分层保护等,并给出了解决的方法,指出中压直流综合电力系统需要在中压直流断路器、系统储能、系统安全运行和多时间、多目标能量调控方面进一步开展研究。
- 综合电力系统 /
- 中压直流 /
- 能量调控
Abstract: With the constant development of modern marine technologies, the vessel energy now can be distributed through an Integrated Power System, which is known as the third vessel power revolution. In this paper, the technical features of the first and second generation integrated power system are introduced. Next, based on the present domestic technical status, the research progress of the quasi second generation medium voltage DC integrated power system in China is presented, with the corresponding difficulties and problems analyzed, including the system model, electrical-magnetic transient simulation, the connected op-erator between the gas turbine generator set and the diesel generator set, the system steady analysis, and system layered protection. Finally, the solutions are proposed, which indicates that the development are re-quired on the medium voltage DC breaker, system energy storage, system safe operation, multi-time scale, and multi object system energy regulation.
- integrated power system /
- medium voltage DC /
- energy regulation

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参考文献(27)

[1]	马伟明. 舰船电气化与信息化复合发展之思考[J]. 海军工程大学学报,2010,22(5):1-4. MA Weiming. On comprehensive development of elec-trization and informationization in naval ships[J]. Jour-nal of Naval University of Engineering,2010,22(5): 1-4.
[2]	MA W M. A survey of the second-generation vessel in-tegrated power system[C]/The International Confer-ence on Advanced Power System Automation and Pro-tection. Beijing,China:IEEE,2011.
[3]	MA W M. Development of vessel integrated power sys-tem[C]/The International Conference on Electrical Machines and Systems. Beijing,China:IEEE,2011.
[4]	O'ROURKE R. Electric-drive propulsion for U.S. Navy ships:background and issues for Congress[R]. CRS Report RL30622 for Congress,2000.
[5]	DOERRY N, ROBEY H, AMY J,et al. Powering the future with the integrated power system[J]. Naval Engineers Journal,1996,108(3):267-279.
[6]	BENATMANE M, MALTBY R. Integrated electric power and propulsion system on land an overview[C]/IEEE Electric Ship Technologies Symposium. Arling-ton,USA:IEEE,2007.
[7]	DOERRY N. Next generation integrated power system: NGIPS technology development roadmap[R]. Naval Sea Systems Command,2007.
[8]	KRSTIC S,WELLNER E L,BENDRE A R,et al. Cir-cuit breaker technologies for advanced ship power sys-tems[C]/IEEE Electric Ship Technologies Sympo-sium. Arlington,USA:IEEE,2007.
[9]	刘路辉,庄劲武,江壮贤,等. 混合型直流真空断路器触头技术——现状与发展[J]. 中国电机工程学报,2014,34(21):3504-3511. LIU Luhui,ZHUANG Jinwu,JIANG Zhuangxian,et al. Present situation and prospect of contacts of hybrid DC vacuum circuit breakers[J]. Proceedings of the Chinese Society for Electrical Engineering,2014,34 (21):3504-3511.
[10]	EMADI A,KHALIGH A,RIVETTA C H,et al. Con-stant power loads and negative impedance instability in automotive systems:definition,modeling,stabili-ty,and control of power electronic converters and mo-tor drives[J]. IEEE Transactions on Vehicular Tech-nology,2006,55(4):1112-1125.
[11]	WANG G,FU L J,FAN X X,et al. Periodic orbit model of diode rectifiers-synchronous machine system[J]. Science China(Technological Sciences),2013, 56(1):245-252.
[12]	MIDDLEBROOK R D. Input filter considerations in design and applications of switching regulators[C]/IEEE Industry Applications Society Annual Meeting. Piscataway,USA,1976:158-162.
[13]	SUDHOFF S,SCHMUCKER D,YOUNGS R,et al. Stability analysis of DC distribution systems using ad-mittance space constraints[C]/Proceedings of the In-stitute of Marine Engineers All Electric Ship 98,Lon-don,1998.
[14]	马凡,马伟明,付立军,等. 直流侧电流断续时不控整流器的动态小信号数学模型建立与验证[J]. 中国电机工程学报,2010,30(9):40-46. MA Fan,MA Weiming,FU Lijun,et al. Dynamic small signal modeling and validation of diode rectifi-ers operating in discontinuous current mode[J]. Pro-ceedings of the Chinese Society for Electrical Engi-neering,2010,30(9):40-46.
[15]	马凡,马伟明,付立军,等. 直流侧电流断续时不控整流器的动态大信号数学模型建立与验证[J]. 中国电机工程学报,2010,30(12):36-42. MA Fan,MA Weiming,FU Lijun,et al. Dynamic large signal modeling and validation of diode rectifi-ers operating in discontinuous current mode[J]. Pro-ceedings of the Chinese Society for Electrical Engi-neering,2010,30(12):36-42.
[16]	MA F,FU L J,FAN X X,et al. Large signal mathe-matical modeling of three-phase synchronous genera-tor-rectifier systems[C]/The International Confer-ence on Electrical Machines and Systems. Beijing, China:IEEE,2011.
[17]	MA W M,HU A,LIU D Z,et al. Stability of a syn-chronous generator with diode-bridge rectifier and back-EMF load[J]. IEEE Transactions on Energy Conversion,2000,15(4):458-463.
[18]	杨青,马伟明,吴旭升,等. 同时带交流和整流负载的三相同步发电机系统的运行稳定性[J]. 电工技术学报,2003,18(5):5-10. YANG Qing,MA Weiming,WU Xusheng,et al. Sta-bility of 3-phase synchronous generator with simulta-neous AC and rectified DC load[J]. Transactions of China Electrotechnical Society,2003,18(5):5-10.
[19]	杨青,马伟明,刘德志,等. 3/3相双绕组发电机系统的并联运行稳定性[J]. 中国电机工程学报, 2005,25(1):97-103. YANG Qing,MA Weiming,LIU Dezhi,et al. Stabili-ty of paralleled 3/3-phase double winding generators with simultaneous AC and rectified DC load[J]. Pro-ceedings of the Chinese Society for Electrical Engi-neering,2005,25(1):97-103.
[20]	YE Z H,FANG M,WANG G,et al. A layer-coordi-nated protection strategy for naval vessel power sys-tem[C]/The International Conference on Advanced Power System Automation and Protection. Beijing, China:IEEE,2011.
[21]	叶志浩,胡亮灯,孙海顺,等. 舰船综合电力系统智能保护方法及其实现[J]. 华中科技大学学报(自然科学版),2012,40(2):31-34. YE Zhihao,HU Liangdeng,SUN Haishun,et al. In-telligence protection method and implementation of in-tegrated power systems for ships[J]. Journal of Hua-zhong University of Science and Technology(Natural Science Edition),2012,40(2):31-34.
[22]	LIU L H,ZHUANG J W,XU G S,et al. The charac-teristics of vacuum arc in the process of DC interrup-tion using butt contacts and TMF contacts[J]. IEEE Transactions on Plasma Science, 2014, 42(6): 1736-1741.
[23]	刘路辉,庄劲武,江壮贤,等. 混合型直流真空断路器小间隙下的分断特性[J]. 中国电机工程学报,2014,34(33):5991-5997. LIU Luhui,ZHUANG Jinwu,JIANG Zhuangxian,et al. Interruption characteristics of hybrid DC vacuum circuit breakers with small contact gaps[J]. Proceed-ings of the Chinese Society for Electrical Engineer-ing,2014,34(33):5991-5997.
[24]	程时杰,文劲宇,孙海顺. 储能技术及其在现代电力系统中的应用[J]. 电气应用,2005,24(4): 1-8 ,19. CHENG Shijie,WEN Jinyu,SUN Haishun. Applica-tion of power energy storage techniques in the modern power system[J]. Electrotechnical Application,2005, 24(4):1-8,19.
[25]	JI F,WANG G B,FU L J,et al. Controller design of flywheel energy storage systems in microgrid[C]/The International Conference on Electrical Machines and Systems. Hangzhou,China:IEEE,2014.
[26]	马凡,马伟明,付立军. 一种多时间尺度降阶原则及其在交直流电力系统中的应用[J]. 中国电机工程学报,2009,29(13):41-47. MA Fan,MA Weiming,FU Lijun. A multi-time scale order reduction principle and its application in AC/DC power system[J]. Proceedings of the Chinese Society for Electrical Engineering,2009,29(13): 41-47.
[27]	马凡,马伟明,付立军,等. 一种非线性多时间尺度系统模型降阶方法[J]. 中国电机工程学报, 2013,33(16):162-170. MA Fan,MA Weiming,FU Lijun,et al. A model or-der reduction method for nonlinear multi-time scale systems[J]. Proceedings of the Chinese Society for Electrical Engineering,2013,33(16):162-170.