在不同谐波次数(3,5,7次)、谐波含量(10%,30%,50%,70%)和不同直流偏磁磁场(5~120 A.m-1)下测试了不同取向硅钢的铁损,分析了谐波和直流偏磁对铁损的影响.结果表明:试验硅钢的铁损均随谐波次数及含量的增加而增大,且与谐波次数呈线性关系;硅钢厚度越小,其铁损随谐波含量增加的幅度越小;直流偏磁对铁损的影响小于谐波的,铁损随直流偏磁磁场强度的增加而增大并最终趋于恒定;27K090硅钢在3次谐波、30%含量叠加30 A.m-1直流偏磁磁场下的铁损实测值为0.98253 W.kg-1,大于单一谐波或直流偏磁磁场下的铁损之和(0.92718 W.kg-1).
The iron losses of different oriented silicon steels were tested under conditions of different harmonic numbers (3rd,5th,7th),harmonic content (10%,30%,50%,70%)and different DC bias magnetic field (5-120 A.m-1 )and the effects of harmonic and DC bias magnetic field on the iron loss were analyzed.The results show that the iron losses of the tested silicon steels all increased with the increase of the harmonic number and content and showed a linear relationship with the harmonic number.The thinner the silicon steel thickness,the smaller the iron loss increasing amplitude with the harmonic content increasing was.The influence of the DC bias magnetic field on the iron loss was less than that of the harmonic.The iron loss increased with the increase of the DC bias magnetic field strength and finally tended to be constant.The measured iron loss of silicon steel 27K090 reached 0.982 53 W.kg-1 under the condition of the 3rd harmonic of 30% content and overlapping the 30 A.m-1 DC bias magnetic field,which was larger than the sum of iron losses under the single harmonic condition and under the single DC bias magnetic field condition (0.927 18 W.kg-1 ).
参考文献
[1] | 李战鹰;李建华;夏道止.±800 kV特高压直流输电系统特征谐波分析[J].电网技术,2006(24):6-9,30. |
[2] | 马玉龙;肖湘宁;姜旭.交流系统接地故障对HVDC的影响分析[J].中国电机工程学报,2006(11):144-149. |
[3] | 马俊民;黄永瑞;何青连.±800 kV特高压直流输电系统谐波研究[J].电力系统保护与控制,2013(21):33-37. |
[4] | Bathurst G.N.;Smith B.C.;Watson N.R.;Arrillaga J..Modelling of HVDC transmission systems in the harmonic domain[J].IEEE Transactions on Power Delivery,19993(3):1075-1080. |
[5] | 黄道春;魏远航;钟连宏;阮江军;皇甫成.我国发展特高压直流输电中一些问题的探讨[J].电网技术,2007(8):6-12. |
[6] | Price P.R..Geomagnetically induced current effects on transformers[J].IEEE Transactions on Power Delivery,20024(4):1002-1008. |
[7] | 余晓鹏;陆明;张振安;李琼林.特高压直流对交流系统背景谐波的影响分析[J].现代电力,2014(4):39-43. |
[8] | 莫丽琼.±800kV特高压直流输电系统谐波不稳定研究[J].电力自动化设备,2012(05):118-122,146. |
[9] | 赵志刚;刘福贵;程志光;颜威利;刘兰荣;张俊杰.HVDC直流偏磁电力变压器铜屏蔽中涡流损耗分析与仿真[J].高电压技术,2011(4):990-995. |
[10] | 李泓志;崔翔;刘东升;卢铁兵;程志光.直流偏磁对三相电力变压器的影响[J].电工技术学报,2010(5):88-96. |
[11] | 郭健;林鹤云;徐子宏;金承祥.变压器铁心空载损耗分布的一种二维有限元计算方法[J].变压器,2007(3):21-25. |
[12] | 索南加乐;王莉;夏经德;何世恩.特高压交流线路故障谐波分析[J].高电压技术,2010(1):37-43. |
[13] | 毛晓明;管霖;张尧;吴小辰;彭显刚.含有多馈入直流的交直流混合电网高压直流建模研究[J].中国电机工程学报,2004(9):68-73. |
[14] | 史丹;任震;余涛.高压直流输电系统的谐波分析方法综述[J].电力自动化设备,2006(4):93-97. |
[15] | 郝巍;李兴源;金小明;吴小辰;颜泉;李峰.直流输电引起的谐波不稳定及其相关问题[J].电力系统自动化,2006(19):94-99. |
[16] | 双辊连铸法制备硅钢薄带的组织和性能[J].机械工程材料,2011(8):55-57,61. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%