超导电力技术前沿技术PPT课件

2020/6/11,.,1,超导电力技术,王银顺华北电力大学电气与电子工程学院2011年03月.北京,电气工程前沿技术专题系列之四,2020/6/11,.,2,美国能源部超导电力技术是21世纪电力工业唯一的高技术储备；日本新能源开发机构发展超导电力技术是在21世纪的国际高技术竞争中保持尖端优势的关键之一；,超导电力科学技术,2020/6/11,.,3,21世纪是新能源时代,2020/6/11,.,4,报告内容,超导简介超导电力装置常规电力装置新型超导电力装置其他电力应用总结,2020/6/11,.,5,超导体具有零电阻：R=0超导电工/电力完全抗磁性Meissnereffect：B=0超导磁悬浮宏观量子效应Josephson效应超导电子学,一超导简介,2020/6/11,.,6,SQUID-SuperconductingQuantumInterferenceDevice,Quantaflux,2020/6/11,.,7,超导电力装置市场份额,2020/6/11,.,8,超导电力应用常规电力装置_优点（1）,2020/6/11,.,9,超导电力应用常规电力装置_优点（2）,2020/6/11,.,10,新型超导电力装置（1）,2020/6/11,.,11,新型超导电力装置SMES（2）,2020/6/11,.,12,超导电力装置_环境友好,2020/6/11,.,13,超导电缆,WD,CD,Tri-axial,2020/6/11,.,14,2020/6/11,.,15,超导电力电缆容量,2020/6/11,.,16,超导电缆示范运行,2020/6/11,.,17,超导电缆示范运行,NY,USA,TEPCO,Japn,Innover,China,IEE,China,2020/6/11,.,18,拟建、正建超导电缆（AC),美国，1760m,3相，35kV/2kA荷兰，50km,3相，50kV/1.5kA中国，国家电力公司，1km，3相，110kV/33kA.中国，中天科技,电力大学，10m，单相，220kV/3kA。,2020/6/11,.,19,意大利德国,2020/6/11,.,20,场合,2020/6/11,.,21,DC超导电缆可再生能源,2020/6/11,.,22,在建DCcable-输电枢纽TresAmigasProject,2020/6/11,.,23,电网电力交换,2020/6/11,.,24,中国在建项目，2011-2012年底完成中国IEE，河南中孚电解铝10kA,DCHTScable,singlephase,380m,2020/6/11,.,25,2020/6/11,.,26,LowLoss,2020/6/11,.,27,对超导材料的要求,2020/6/11,.,28,超导电机,中国：712所,2020/6/11,.,29,超导电机特性,2020/6/11,.,30,超导电机结构,2020/6/11,.,31,超导电机样机,2020/6/11,.,32,超导风力发电机,2020/6/11,.,33,超导发电机效率,2020/6/11,.,34,节能减排,2020/6/11,.,35,超导电机发展进程,2020/6/11,.,36,对超导材料要求,2020/6/11,.,37,超导变压器,2020/6/11,.,38,超导电力应用常规电力装置_优点,1高压套管，2低压套管，3液氮导管，4高压套管，5铁芯，6玻璃钢低温杜瓦容器，7原边/副边高温超导绕组，8液氮，9铁芯夹件,2020/6/11,.,39,变压器样机,ABB,Simenz,KushuUni,TECPO,IEE,China,2020/6/11,.,40,限流变压器,2020/6/11,.,41,电网变压等级,2020/6/11,.,42,自恢复智能装备？,2020/6/11,.,43,高效,2020/6/11,.,44,2020/6/11,.,45,对超导材料的要求,2020/6/11,.,46,高温超导限流器HTSFCL,高温超导限流器主要类型及原理,电阻型超导限流器磁屏蔽型超导限流器桥路型超导限流器饱和铁芯型超导限流器感应型超导限流器混合型超导限流器三相电抗器型,2020/6/11,.,47,电阻型超导限流器,磁屏蔽型超导限流器,2020/6/11,.,48,桥路型超导限流器,饱和铁芯型超导限流,2020/6/11,.,49,感应型超导限流器,混合型超导限流,2020/6/11,.,50,感应型超导流器,三相电抗器型,2020/6/11,.,51,2020/6/11,.,52,新型超导电力装置超导限流器,Innover,Chia,220kV,2020/6/11,.,53,型式实验,2020/6/11,.,54,限流特性,2020/6/11,.,55,样机,2020/6/11,.,56,中压挂网运行,2020/6/11,.,57,长期挂网实验运行,2020/6/11,.,58,高效、减少CO2排放,2020/6/11,.,59,比较,2020/6/11,.,60,对超导材料的要求,2020/6/11,.,61,超导储能SMES,2020/6/11,.,62,SMES样机,2020/6/11,.,63,提高电能质量柔性输电(FACTS),2020/6/11,.,64,SMES样机,国内：清华、华中、电科院、IEE实验室样机。,2020/6/11,.,65,2020/6/11,.,66,对超导材料额要求,2020/6/11,.,67,超导电力技术智能电网重要技术之一,2020/6/11,.,68,2020/6/11,.,69,超导电力其他应用热核聚变,InternationalThermonuclearExperimentalReactor,2020/6/11,.,70,优点,2020/6/11,.,71,2020/6/11,.,72,2020/6/11,.,73,2020/6/11,.,74,2020/6/11,.,75,2020/6/11,.,76,对超导材料的要求,2020/6/11,.,77,高场磁体,2020/6/11,.,78,2020/6/11,.,79,2020/6/11,.,80,对超导材料的要求,2020/6/11,.,81,生物、医学应用,心图,眼图,肌图,胎儿,脑室,视网,皮质,2020/6/11,.,82,2020/6/11,.,83,脑成像,2020/6/11,.,84,交通应用磁悬浮,2020/6/11,.,85,2020/6/11,.,86,2020/6/11,.,87,磁分离,2020/6/11,.,88,电流引线,2020/6/11,.,89,电流引线节能,2020/6/11,.,90,对超导材料的要求,2020/6/11,.,91,电磁感应加热,2020/6/11,.,92,效率,2020/6/11,.,93,Thristor产品,2020/6/11,.,94,电磁感应加热器应用现场,2020/6/11,.,95,结论,2020/6/11,.,96,几种超导电力装置超导线用量,2020/6/11,.,97,高温超导电力应用展望,CableWindPowerGen.PowerGeneratorMediumVoltageFCLHighVoltageFCLFCLTransformerHTSEnergyStorage,2005,2015,2025,2010,2020,Prototypeapplications,Functionalmodels,Firstpre-commercialinstallations,Marketpenetration,2020/6/11,.,98,技术价值；知识？,2020/6/11,.,99,高温超导线/带已经实现商业化；超导电力装置样机已挂网试验运行；超导材料价格有待进一步降低；低温制冷设备安全可靠性需要进一步提高；超导技