概述了国内外复合材料储能飞轮转子的研究进展.总结了飞轮转子的材料、形状、制造工艺、强度分析及其失效问题,并预测了复合材料储能飞轮转子未来的发展趋势.
参考文献
| [1] | Werfel F. N.;Floegel-Delor U.;Riedel T.;Rothfeld R.;Wippich D.;Goebel B.;Reiner G.;Wehlau N. .A Compact HTS 5 kWh/250 kW Flywheel Energy Storage System[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2007(2):2138-2141. |
| [2] | Guerrero M A;Romero E;Barrero F.Overview of medium scale energy storage systems[A].Badajoz,2009:93. |
| [3] | 革命性的技术,革命性的选择(一)--最新一代免蓄电池磁悬浮飞轮储能UPS的特点和优势[J].通信电源技术,2008(01):83-84. |
| [4] | 蒋书运,卫海岗,沈祖培.飞轮储能技术研究的发展现状[J].太阳能学报,2000(04):427-433. |
| [5] | 戴兴建,李奕良,于涵.高储能密度飞轮结构设计方法[J].清华大学学报(自然科学版),2008(03):378-381. |
| [6] | Post R F;Post S F .Flywheels[J].Sei Am,1973,229(06):17. |
| [7] | Post R F.A new look at an old idea-The electro mechanical battery[J].Science Technology,1996(04):12. |
| [8] | 王养丽.飞轮蓄能发电原理及应用[J].工科物理,2000(02):42. |
| [9] | 曹操 .磁悬浮飞轮转子的动态特性研究[D].武汉理工大学,2011. |
| [10] | 张建成.用于配电网的飞轮储能系统设计[J].华北电力大学学报,2005(z1):38-40. |
| [11] | Takahashi K.;Kitade S.;Morita H. .Development of high speed composite flywheel rotors for energy storage systems[J].Advanced Composite Materials: The Official Journal of the Japan Society of Composite Materials,2002(1):41-50. |
| [12] | DeTeresa S J;Groves S E.Properties of fiber composites for advanced flywheel energy storage devices[A].Los Angeles,California,USA,2001:1643. |
| [13] | 戴兴建,孟亚锋.复合材料储能飞轮结构强度技术研究进展[J].机械工程师,2005(04):7-9. |
| [14] | 马立,王存斌,白越,吴一辉.卫星复合材料储能/姿控一体化飞轮的设计制造[J].宇航学报,2009(01):290-292,343. |
| [15] | Gabrys CW.;Bakis CE. .DESIGN AND MANUFACTURING OF FILAMENT WOUND ELASTOMERIC MATRIX COMPOSITE FLYWHEELS[J].Journal of Reinforced Plastics and Composites,1997(6):488-502. |
| [16] | Mahieux C A .Cost effective manufacturing process of thermoplastic matrix composites for the traditional industry:The example of a carbon-fiber reinforced thermoplastic flywheel[J].Computers & Structures,2001,52(3-4):517. |
| [17] | KelsalI D R.Pulsed power provision by high speed composite flywheel[A].London,2000:1. |
| [18] | A C Day;M Strasik;K E McCrary .Design and testing of the HTS bearing for a 10 kWh flywheel system[J].Superconductor Science & Technology,2002(5):838-841. |
| [19] | R. Okou;A.B. Sebitosi;P. Pillay .Flywheel rotor manufacture for rural energy storage in sub-Saharan Africa[J].Energy,2011(10):6138-6145. |
| [20] | Plater B B;Andrews J A.Advances in flywheel energy storage systems[A].Los Angeles,California,USA,1997:460. |
| [21] | Wolodko J;Mertiny P;Meijer G.Development of a facility for filament winding GFRP tubulars[A].Los Angeles,California,USA,2001:1271. |
| [22] | Mclallin K;Fausz J.verview of the AFRL/NASA flywheel program[A].,2000:1. |
| [23] | Gabrys C W;Bakis C E.Design and testing of composite flywheel rotors[A].,1997:1. |
| [24] | 阎耀辰,张恒,刘怀喜.复合材料储能飞轮分层结构研究[J].纤维复合材料,2004(03):20-22. |
| [25] | Strasik, M;Hull, JR;Mittleider, JA;Gonder, JF;Johnson, PE;McCrary, KE;McIver, CR .An overview of Boeing flywheel energy storage systems with high-temperature superconducting bearings[J].Superconductor Science & Technology,2010(3):034021:1-034021:5. |
| [26] | Robert Acebal .Shape factor for rotating machines[J].IEEE Transactions on Magnetics,1997,33(01):753. |
| [27] | Robert Acebal .Energy storage capabilities of rotating machines including a comparison of laminated disk and rim rotor composite designs[J].IEEE Transactions on Magnetics,1999(1 Pt.I):317-322. |
| [28] | Yasser Gowayed;Faissal Abel-Hady;George T.Flowers;Jeffrey J.Trudell .Optimal Design of Multi-Direction Composite Flywheel Rotors[J].Polymer Composites,2002(3):433-441. |
| [29] | 李文超,沈祖培.复合材料飞轮结构与储能密度[J].太阳能学报,2001(01):96-101. |
| [30] | Aanatoos T A;Kajs J P;Brinkman W G et al.High voltage stator for a flywheel energy storage system[J].IEEE Transactions on Magnetics,2001,37(01):242. |
| [31] | Ha S K;Jeong H M;Cho Y S .Optimum design of thickwalled composite rings of an energy storage system[J].Compos Mater,1998,32(09):851. |
| [32] | HaSK;YangH I;KimDJ .Optimum design ofahybrid composite flywheel with a permanent magnet rotor[J].Journal of Composite Materials,1999,33(16):1545. |
| [33] | Ha S K;Yoon Y B;Han S C .Effects of material properties on the total stored energy of a hybrid flywheel rotor[J].Archive of Applied Mechanics,2000,70(09):571. |
| [34] | Farshi B;Jahed H;Mehrabian A .Optimum design of inhomogeneous non-uniform rotating discs[J].Computers & Structures,2004,82(10):773. |
| [35] | 赵韩,王勇,杨志轶.复合材料飞轮结构设计[J].农业机械学报,2004(04):140-143,158. |
| [36] | 闫晓磊,钟志华,张义,孙光永.基于最优控制理论的储能飞轮转子形状优化设计研究[J].机械工程学报,2012(03):189-198. |
| [37] | Arslan M A .Flywheel geometry design for improvedenergy storage using finite element analysis[J].Materials & Design,2008,29(02):514. |
| [38] | 秦勇,夏源明,毛天祥.纤维束张紧力缠绕复合材料飞轮的预应力简化分析[J].复合材料学报,2003(06):87-91. |
| [39] | 秦勇,夏源明,毛天祥.纤维束张紧力缠绕复合材料飞轮初应力的三维数值分析[J].复合材料学报,2005(04):149-155. |
| [40] | 刘怀喜,赵程,张恒.复合材料飞轮断裂与损伤的研究[J].机械强度,2005(05):714-718. |
| [41] | Baaklini G Y;Konno K E;Martin R E.NDE methodologies for composite flywheels certification[A].San Diego,California,USA,2000:281. |
| [42] | J. Tzeng;R. Emerson;P. Moy .Composite flywheels for energy storage[J].Composites science and technology,2006(14):2520-2527. |
| [43] | 左惟炜,肖来元,廖道训.三维编织复合材料高速飞轮的极限转速[J].中国机械工程,2007(16):1930-1934,1952. |
| [44] | 左惟炜 .三维编织复合材料力学性能与工程应用研究[D].华中科技大学,2006. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%