华南理工大学学报(自然科学版)
華南理工大學學報(自然科學版)
화남리공대학학보(자연과학판)
JOURNAL OF SOUTH CHINA UNIVERSITY OF TECHNOLOGY(NATURAL SCIENCE EDITION)
2015年
4期
119-125
,共7页
赵东生%戴栋%邓红雷%李立浧%翟少磊%曹敏
趙東生%戴棟%鄧紅雷%李立浧%翟少磊%曹敏
조동생%대동%산홍뢰%리립영%적소뢰%조민
输电线路%杆塔%电势能%能量采集
輸電線路%桿塔%電勢能%能量採集
수전선로%간탑%전세능%능량채집
electric transmission line%tower%electric potential energy%energy harvesting
基于电容式电势能采集器采集交流输电杆塔周围空间的电势能,为安装于杆塔上的输电线路在线监测装置供电。文中首先分析了电容式电势能采集的电路模型和负载阻值对采集器输出功率的影响,得到了获取最大能量的条件。然后针对交流双回500 kV干字型输电杆塔的塔头电场分布情况进行了数值仿真,得到电势能采集器适合的安装位置。最后通过实验测量到直径40 cm、间距15 cm的电容式采集器在电场发生单元工频电压为50 kV时,24 s内采集的能量为5 mJ,可以等效为208 mW 的输出功率,满足无线传感器的最小功率要求。实际的架空输电线路运行电压更高,如能在杆塔上有效利用高场强区域,优化电容采集器结构,则完全可能实现更高的功率输出,并最终为安装于杆塔上的在线监测装置供电。
基于電容式電勢能採集器採集交流輸電桿塔週圍空間的電勢能,為安裝于桿塔上的輸電線路在線鑑測裝置供電。文中首先分析瞭電容式電勢能採集的電路模型和負載阻值對採集器輸齣功率的影響,得到瞭穫取最大能量的條件。然後針對交流雙迴500 kV榦字型輸電桿塔的塔頭電場分佈情況進行瞭數值倣真,得到電勢能採集器適閤的安裝位置。最後通過實驗測量到直徑40 cm、間距15 cm的電容式採集器在電場髮生單元工頻電壓為50 kV時,24 s內採集的能量為5 mJ,可以等效為208 mW 的輸齣功率,滿足無線傳感器的最小功率要求。實際的架空輸電線路運行電壓更高,如能在桿塔上有效利用高場彊區域,優化電容採集器結構,則完全可能實現更高的功率輸齣,併最終為安裝于桿塔上的在線鑑測裝置供電。
기우전용식전세능채집기채집교류수전간탑주위공간적전세능,위안장우간탑상적수전선로재선감측장치공전。문중수선분석료전용식전세능채집적전로모형화부재조치대채집기수출공솔적영향,득도료획취최대능량적조건。연후침대교류쌍회500 kV간자형수전간탑적탑두전장분포정황진행료수치방진,득도전세능채집기괄합적안장위치。최후통과실험측량도직경40 cm、간거15 cm적전용식채집기재전장발생단원공빈전압위50 kV시,24 s내채집적능량위5 mJ,가이등효위208 mW 적수출공솔,만족무선전감기적최소공솔요구。실제적가공수전선로운행전압경고,여능재간탑상유효이용고장강구역,우화전용채집기결구,칙완전가능실현경고적공솔수출,병최종위안장우간탑상적재선감측장치공전。
Proposed in this paper is a method of utilizing a capacitive transducer to harvest the electric potential energy stored in the space around the AC transmission line, which helps to supply power to the on-line-monitoring system installed on a transmission tower.First, the circuit model of the potential energy-harvesting system and the relationship between the load resistance and the output power are analyzed, and a way to harvesting the maximum energy is presented.Then, the electric field distribution at the tower head of a 500 kV AC double-loop transmission line is simulated, and the places suitable for transducer installation are determined.Finally, an experiment is con-ducted by adopting a capacitive transducer with a radius of 40 cm and an interval of 15 cm, and about 5 mJ of energy is obtained at 50 kV in 24 s, which means that the capacitive transducer can afford an output power of 208 mW to meet the minimum power limit of wireless sensor nodes.In practically application, there is higher operating voltage compared with the experiment, by utilizing the high-intensity electric field efficiently on the tower with optimized capacitive transducer, enough energy will be harvested to power the on-line -monitoring system.
