地線融冰自動接線裝置遠程控制系統(tǒng)的供電方案設計
曹偉偉��,張利娜,李成濤��,張?zhí)N昕��,顧莉
(中國能源建設集團南京線路器材有限公司�����,江蘇 南京 211500)
摘 要:為了使安裝于高壓鐵塔上的地線融冰自動接線裝置實現(xiàn)遠程控制�����,需提供合適的在線取能方式�。通過對自然能發(fā)電和輸電線路抽取電能方式的優(yōu)缺點進行對比,提出應以光伏儲能為系統(tǒng)提供就地能源���,分析了遠程控制系統(tǒng)在不同工作階段的功耗情況�,對不同材料蓄電池容量和光伏方陣進行了計算�,選擇三元鋰電池作為儲能電池,并指出應設置智能電源管理系統(tǒng)以保證遠程控制系統(tǒng)能夠長期無故障運行��。
關(guān)鍵詞:遠程控制�;高壓取電;三元鋰電池�;智能電源管理系統(tǒng)
中圖分類號:TM726;TM764.2 文獻標識碼:A 文章編號:1007-3175(2020)08-0028-05
The Design of Power Supply Scheme for Remote Control System of Earth Wire De-Icing Automatic Connection Device
CAO Wei-wei, ZHANG Li-na, LI Cheng-tao, ZHANG Yun-xin, GU Li
(Nanjing Line Accessories Co., Ltd. of China Energy Engineering Group, Nanjing 2115 00, China)
Abstract: In order to achieve remote control of the earth wire de-icing automatic connection device installed on the high-voltage transmission tower, suitable online energy extraction methods need to be provided. This paper compares the advantages and disadvantages of natural energy power generation and transmission line extraction of electric energy, and proposes that photovoltaic energy storage should be used to provide on-site energy for the system; the power consumption of remote control system in different operating stages is analyzed, and the battery capacity and photovoltaic square array of different materials are calculated; draw a conclusion to choose the NCM battery as energy storage battery, and point out that an intelligent power management system should be set up to ensure that the remote control system can operate without failure for a long time.
Key words: remote control; high voltage power extraction; NCM battery; intelligent power management system
參考文獻
[1] 邵德軍�����,尹項根�,陳慶前���,等.2008年冰雪災害對我國南方地區(qū)電網(wǎng)的影響分析[J]. 電網(wǎng)技術(shù),2009��,33(5):38-43.
[2] 黃新波���,李國倡���,劉家兵�,等. 智能電網(wǎng)輸電線路在線監(jiān)測與故障診斷綜合系統(tǒng)[C]//2010 年全國輸變電設備狀態(tài)檢修技術(shù)交流研討會論文集,2010:702-709.
[3] 張江濤�,李川,趙振剛����,等. 微氣象因素和導線溫度對輸電線路覆冰的影響研究[J]. 軟件,2018����,39(2):16-21.
[4] 趙永貴. 鄂爾多斯地區(qū)桿塔傾斜監(jiān)測系統(tǒng)應用研究[D]. 保定:華北電力大學,2014.
[5] 貴州南源電力科技股份有限公司. 輸電線路監(jiān)測方法及用于檢測輸電線路的巡檢機器人:CN105406400A[P].2016-03-16.
[6] 方伊莉����,顧莉���,李其,等. 地線融冰自動接線裝置設計與分析[J]. 機電信息�����,2016(27):98-99.
[7] 沈宏濤. 山區(qū)風資源特點和風電場選址方法[J].電力建設����,2013,34(12):92-96.
[8] 陳文哲. 高壓輸電線路監(jiān)控設備感應取電裝置的設計[J]. 寧夏電力����,2015(2):46-50.
[9] 謝彥斌. 高壓架空輸電線路在線取能方法研究[D].重慶:重慶大學,2017.
[10] 韓立. 基于三元鋰電池的電池管理系統(tǒng)研究[D].西安:長安大學���,2018.
[11] 郎春艷��,羅卜爾思. 某三元材料鋰離子電池低溫性能研究[J]. 機械與電子��,2016���,34(5):7-12.
