文档名:输电线路单导线覆冰形状对直流大电流融冰时间的影响
摘要:直流大电流融冰是输电线路冰灾防御的有效手段.根据实际运行条件下输电线路单导线覆冰形状在导线各处不一的情况,计算分析单导线圆形覆冰和翼形覆冰的直流大电流融冰时间.计算结果表明,翼形冰融冰时间仅为圆形冰融冰时间的10%左右.在重庆大学雪峰山能源装备安全国家野外观测研究站对LGJ—300/50和LGJ—400/35两种型号单导线进行直流大电流融冰实验.实验结果表明:LGJ—300/50导线翼形冰融冰时间为圆形冰融冰时间的10.6%,LGJ—400/35导线翼形冰融冰时间为圆形冰融冰时间的8.3%.基于此,该文提出抑制导线形成圆形冰促使其生长为翼形冰可降低直流大电流融冰时间,减少融冰能量消耗.
Abstract:Inwinter,theicingoftransmissionlineshasemergedasasignificantthreattopowergridsafety.Scholarshavediligentlyresearchedanddevelopednumerousde-icingmethods,categorizingthembasedontheirworkingprinciplesintomechanical,thermalmelt-icing,passive,andothermethods.Despitethesealternatives,DChighcurrentmelt-icingtechnologyremainsthepreferredchoicefortransmissionlinede-icing.Thisstudyfocusesontheactualoperatingconditionsofsinglewireicingshapesontransmissionlines,usingthreewiretypes(LGJ-240/30,LGJ-300/50,andLGJ-400/35)tocalculateandanalyzetheDChighcurrentmelt-icingtimeforbothcircularandwing-shapedice.Underthesamewiretype,anincreaseinmelt-icingcurrentdensityleadstoashortermelt-icingtimeforcircularice.Forinstance,whenthecurrentdensityincreasedfrom1.5A/mm2to3A/mm2,themelt-icingtimeforcircularicedecreasedby21.78%,22.13%,and22.55%forthethreewiretypes.Similarly,withthesamemelt-icingcurrentdensity,alargerwirecross-sectionresultsinashortercircularicemelt-icingtime.ComparingwiretypesfromLGJ-240/30toLGJ-400/35,thelatter'smelt-icingtimewas70.73%,72.26%,and73.25%oftheformeracrossthethreecurrentdensities.Theimpactofmelt-icingcurrentdensityoncircularicemelt-icingtimeismoresignificantthanthewiretypeunderthesameice-coveredenvironment.Thepatternofmelt-icingtimevariationwithcurrentdensityandwiretypeforwing-shapedicemirrorsthatofcircularice,butnumerically,themelt-icingtimeforwing-shapediceisnotablysmaller.Theratioβ,representingthewing-shapedicemelt-icingtimetocircularicemelt-icingtime,rangesfrom9.27%to11.55%,withanaverageof10.49%.InnaturalDChigh-currentmelt-icing,LGJ-300/50wire'swing-shapedicemelt-icingtimewas10.6%ofthecircularicemelt-icingtime,andforLGJ-400/35wire,itwas8.3%.Consequently,thepapersuggestsinhibitingcirculariceformationtopromotewing-shapedicegrowthasameanstoreduceDChighcurrentmelt-icingtimeanddecreaseenergyconsumption.
作者:杨国林 蒋兴良 王茂政 胡建林 张志劲Author:YangGuolin JiangXingliang WangMaozheng HuJianlin ZhangZhijin
作者单位:重庆大学雪峰山能源装备安全国家野外科学观测研究站重庆400044
刊名:电工技术学报
Journal:TransactionsofChinaElectrotechnicalSociety
年,卷(期):2024, 39(9)
分类号:TM85
关键词:输电线路 圆形冰 翼形冰 融冰时间 直流大电流
Keywords:Powertransmissionlines circularice wing-shapedice ice-meltingtime DChighcurrent
机标分类号:S151.91F426.2S24
在线出版日期:2024年5月13日
基金项目:中央高校基本科研业务费,国家自然科学基金输电线路单导线覆冰形状对直流大电流融冰时间的影响[
期刊论文] 电工技术学报--2024, 39(9)杨国林 蒋兴良 王茂政 胡建林 张志劲直流大电流融冰是输电线路冰灾防御的有效手段.根据实际运行条件下输电线路单导线覆冰形状在导线各处不一的情况,计算分析单导线圆形覆冰和翼形覆冰的直流大电流融冰时间.计算结果表明,翼形冰融冰时间仅为圆形冰融冰时间...参考文献和引证文献
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