The UHVAC 1 000-kV transmission system is so far the one with the most advanced transmission technique applied and highest operation voltage.There are no guidelines or standards available for the design of 1 000-kV ov...The UHVAC 1 000-kV transmission system is so far the one with the most advanced transmission technique applied and highest operation voltage.There are no guidelines or standards available for the design of 1 000-kV overhead transmission line in China.Study on key technologies and design schemes shall be carried out to ascertain the technical principles and construction standards for project construction,which are presented in this paper based on the Southeast Shanxi-Nanyang-Jingmen test and demonstration transmission line.A comparison and analysis of technical data and economic indices between UHV line and other lines are also described.展开更多
为解决35 k V交流输电线路直线塔巡检无人机自适应能力差,导致巡检作业易出错中断的问题,该文设计一种新型无人机巡检自动化控制系统。此系统由MPU9250九自由度惯性传感器、加速度计、磁力计,采集输电线路直线塔无人机巡检状态数据,通...为解决35 k V交流输电线路直线塔巡检无人机自适应能力差,导致巡检作业易出错中断的问题,该文设计一种新型无人机巡检自动化控制系统。此系统由MPU9250九自由度惯性传感器、加速度计、磁力计,采集输电线路直线塔无人机巡检状态数据,通过积分法、三角函数关系、倾斜补偿方法,解算获取直线塔无人机巡检的姿态、速度、位置数据信息;使用基于模糊PID的自动化控制器,计算无人机巡检的姿态、速度、位置偏差与偏差率,自动调整无人机旋翼转速,控制无人机巡检状态,完成35 kV交流输电线路直线塔无人机巡检自动化控制。实验中,此系统使用下,无人机巡检状态与指定轨迹一致,俯仰角、横滚角、航向角偏差值为0°。展开更多
文摘The UHVAC 1 000-kV transmission system is so far the one with the most advanced transmission technique applied and highest operation voltage.There are no guidelines or standards available for the design of 1 000-kV overhead transmission line in China.Study on key technologies and design schemes shall be carried out to ascertain the technical principles and construction standards for project construction,which are presented in this paper based on the Southeast Shanxi-Nanyang-Jingmen test and demonstration transmission line.A comparison and analysis of technical data and economic indices between UHV line and other lines are also described.
文摘为解决35 k V交流输电线路直线塔巡检无人机自适应能力差,导致巡检作业易出错中断的问题,该文设计一种新型无人机巡检自动化控制系统。此系统由MPU9250九自由度惯性传感器、加速度计、磁力计,采集输电线路直线塔无人机巡检状态数据,通过积分法、三角函数关系、倾斜补偿方法,解算获取直线塔无人机巡检的姿态、速度、位置数据信息;使用基于模糊PID的自动化控制器,计算无人机巡检的姿态、速度、位置偏差与偏差率,自动调整无人机旋翼转速,控制无人机巡检状态,完成35 kV交流输电线路直线塔无人机巡检自动化控制。实验中,此系统使用下,无人机巡检状态与指定轨迹一致,俯仰角、横滚角、航向角偏差值为0°。