Title :
Feasibility study to reduce injuries and fatalities caused by contact of cranes, drill rigs, and haul trucks with high-tension lines
Author :
Sacks, H. Kenneth ; Cawley, James C. ; Homce, Gerald T. ; Yenchek, Michael R.
Author_Institution :
Pittsburgh Res. Lab., Nat. Inst. for Occupational Safety & Health, Pittsburgh, PA, USA
Abstract :
Overhead electric power lines present a serious electrocution hazard to personnel in a variety of industries. Overhead lines, typically uninsulated conductors supported on towers or poles, are the most common means of electric power transmission and distribution, and are exposed to contact by mobile equipment such as cranes and trucks. Equipment contacting energized overhead lines becomes elevated to a high voltage, and simultaneous contact by personnel of the “hot” frame and ground can cause serious electrical shock and burns. Industries where risk of these accidents is greatest include construction, mining, agriculture, and communications/public utilities. An estimated 2300 accidental overhead line contacts occur each year in the US. This paper describes a practical low-cost concept to detect actual contact of mobile equipment with a high-voltage line and provide a warning. Accident statistics indicate that more than half of the fatalities could be prevented by such a device
Keywords :
accidents; cranes; electric shocks; power overhead lines; accidental overhead line contacts; accidents; burns; contact detection; cranes; drill rigs; electric power distribution; electric power transmission; electrical shock; electrocution hazard; energized overhead lines; fatalities reduction; haul trucks; high voltage; high-tension lines; injuries reduction; mobile equipment; overhead electric power lines; personnel; poles; simultaneous contact; towers; uninsulated conductors; Accidents; Conductors; Contacts; Cranes; Electrical equipment industry; Hazards; Injuries; Personnel; Poles and towers; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
