吴田,阮江军,胡毅,等.500 kV输电线路的山火击穿特性及机制研究[J].中国电机工程学报,2011,31(34):163-170. Wu Tian,Ruan Jiangjun,Hu Yi,et al.Study OU forest fire induced breakdown of 500 kV transmission line in terms of characteristics and mechanism[J].Proceedings of the CSEE,2011,31(34):163-170(in Chinese).
[2]
宋嘉婧,郭创新,张金江,等.山火条件下的架空输电线路停运概率模型[J].电网技术,2013,37(1):100-105. Song Jiajing,Guo Chuangxin,Zhang Jinjiang,et al.A probabilistic model of overhead transmission line outage due to forest fire[J].Power System Technology,2013,37(1):100-105(in Chinese).
[3]
吴田,胡毅,阮江军,等.交流输电线路模型在山火条件下的击穿机理[J].高电压技术,2011,37(5):1115-1122. Wu Tian,Hu Yi,Ruan Jiangjun,et al.Air gap breakdown mechanism of model AC transmission line under forest fires[J].High Voltage Engineering,2011,37(5):1115-1122(in Chinese).
[4]
Fonseca J R,Tan A L,Silva R P,et a1.Effects of agricultural fires on the performance of overhead transmission lines[J].IEEE Transactions on Power Delivery,1990,15(2):687-694.
[5]
Wang Liming,Guan Zhicheng,Hu Qihao,et al.Air breakdown during fires[J].Tsinghua Science and Technology,2001,6(5):497-499.
[6]
Mphale K,Heron M.Measurement of electrical conductivity for a biomass fire[J].International Journal of Molecular Sciences,2008,9(8):1416-1423.
[7]
郑伟,邵佳丽,王萌,等.多源卫星遥感草原火灾动态监测分析[J].自然灾害学报,2013,22(3):54-61. Zheng Wei,Shao Jiali,Wang Meng,et al.Dynamic monitoring and analysis of grassland fire based on multi-source satellite remote sensing data [J].Journal of Natural Disasters,2013,22(3):54-61(in Chinese).
[8]
刘诚,李亚军,赵长海,等.气象卫星亚像元火点面积和亮温值估算方法[J].应用气象学报,2004,15(3):273-280. Liu Cheng,Li Yajun,Zhao Changhai,et al.Meteorological Satellite sub-pixel fire point area and bright temperature estimation method[J].Journal of Applied Meteorological Science,2004,15(3):273-280(in Chinese).
[9]
Pereira J M C.A comparative evaluation of NOAA- AVHRR vegetation indices for burned surface detection and mapping[J].IEEE Transactions on Geoscience and Remote Sensing,1999,37:217-226.
[10]
叶立平,陈锡阳,何子兰,等.山火预警技术在输电线路的应用现状[J].电力系统保护与控制,2014,42(6):145-153. Ye Liping,Chen Xiyang,He Zilan,et al.Present situation of forest fire early warning technology used for transmission line[J].Power System Protection and Control,2014,42(6):145-153(in Chinese).
[11]
Wang S D,Miao L L,Peng G X.An improved algorithm for forest fire detection using HJ data[J].Procedia Environmental Science,2012,13:140-150.
[12]
Giglio L,Csiszar I,Jeffrey T,et al.Active fire detection and characterization with the advanced spaceborne thermal emission and reflection radiometer (ASTER) [J].Remote Sensing of Environment,2008,112(6):3005-3063.
[13]
李家国,顾行发,余涛等.澳大利亚东南部森林山火HJ卫星遥感监测[J].北京航空航天大学学报,2010,36(10):1221-1224. Li Jiguo,Gu Xingfa,Yu Tao,et al.Detection of Australian southeast forest fire using HJ satellite [J].Journal of Beijing University of Aeronautics and Astronautics,2010,36(10):1221-1224(in Chinese).
[14]
朱时阳,邓雨荣.输电线路走廊山火监测技术研究与应用[J].广西电力,2013,36(3):25-27. Zhu Shiyang,Deng Yurong.Research and application of wildfire monitoring technology for transmission line corridor[J].Guangxi Electric Power,2013,36(3):25-27(in Chinese).
[15]
梁允,李哲,曲燕燕,等.极轨气象卫星在输电线路防山火监测中的应用[J].河南科学,2013,31(10):1664-1667. Liang Yun,Li Zhe,Qu Yanyan,et al.The polar orbit meteorological satellite and its application in monitoring mountain fire for transmission line[J].Henan Science,2013,31(10):1664-1667(in Chinese).
[16]
陈曦.流动及传热过程的熵分析[D].成都:四川大学:2006. Chen Xi.Entropy analysis on process of fluid flow and heat transfer[D].Chengdu:Sichuan University,2006(in Chinese).
[17]
朱时阳,邓雨荣.输电线路走廊山火监测技术研究与应用[J].广西电力,2013,36(3):25-27. Zhu Shiyang,Deng Yurong.Research and application of wildfire monitoring technology for transmission line corridor[J].Guangxi Electric Power,2013,36(3):25-27(in Chinese).
[18]
梁允,李哲.极轨气象卫星在输电线路防山火监测中的应用[J].河南科学,2013,31(10):1664-1667. Liang Yun,Li Zhe.The polar orbit meteorological satellite and its application in monitoring mountain fire for transmission line[J].Henan Science,2013,31(10):1664-1667(in Chinese).
[19]
叶立平,陈锡阳.山火预警技术在输电线路的应用现状[J].电力系统保护与控制,2014,42(6):145-153. Ye Liping,Chen Xiyang.Present situation of forest fire early warning technology used for transmission line[J].Power System Protection and Control,2014,42(6):145-153(in Chinese).
[20]
黄永义.普朗克黑体辐射定律的建立过程[J].广西物理,2011,32(3):32-37. Huang Yongyi.Derivation process of Plank’s radiation law[J].Guangxi physics,2011,32(3):32-37(in Chinese).
[21]
李享.浅议输电线路防山火故障措施[J].中国电力教育,2009,25(S1):240-240. Li Xiang.Discussion on measures of preventing forest fire on transmission lines[J].China Electric Power Education,2009,25(S1):240-240(in Chinese).
[22]
胡湘,陆佳政,曾祥君,等.输电线路山火跳闸原因分析及其防治措施探讨[J].电力科学与技术学报,2010,25(2):73-78. Hu Xiang,Lu Jiazheng,Zeng Xiangjun,et a1.Analysis on transmission 1ine trip caused by mountain fire and discussion on tripping preventing measures[J].Journal of Electric Power Science and Technology,2010,25(2):73-78(in Chinese).
[23]
宋嘉婧.恶劣灾害下的架空输电线路时变停运模型[D].杭州:浙江大学,2013. Song Jiajing.Time-varying outage models of overhead transmission line based on adverse natural disaster [D].Hangzhou:Zhejiang University,2013(in Chinese).
[24]
普子恒,阮江军,黄道春,等.火焰条件下间隙的直流电压击穿特性研究[J].中国电机工程学报,2014,34(3):453-459. Pu Ziheng,Ruan Jiangjun,Huang Daochun,et al.Study on DC voltage breakdown characteristics of gap under fire conditions[J].Proceedings of the CSEE,2014,34(3):453-459(in Chinese).
