Title :
Lattice tower member fatigue and its control using a novel damping scheme
Author :
Havard, D.G. ; Perry, O.C.
Author_Institution :
Harvard Eng. Inc., Mississauga, Ont., Canada
Abstract :
Hangers of a large number of cross arms of L-type, steel lattice towers in TransAlta Utilities Corporation´s system developed fatigue cracks within fifteen years of erection. The flat terrain and relatively thin hangers suggested that the fatigue could be due to wind-induced vibration. Field measurements showed that direct action of the wind on the tower members, rather than conductor motion, was the driving mechanism. Solutions investigated were: heavier hangers, increased bracing, and dampers developed using a full-scale model of a tower section. The dampers were assessed, with strain gauges and accelerometers mounted on the vibration prone members, in a five month field study. The field data showed that, under comparable wind exposure, the dampers reduced the vibration and increased fatigue life to an estimated ten times that of the original design. At this time some 40% of TransAlta´s about 3000 L-towers have been damped
Keywords :
acceleration measurement; accelerometers; damping; fatigue cracks; poles and towers; steel; strain gauges; strain measurement; vibration control; L-type steel lattice towers; TransAlta Utilities Corporation´s system; accelerometers; cross arm hangers; damping scheme; fatigue life increase; flat terrain; full-scale model; heavier hangers; increased bracing; lattice tower member fatigue control; strain gauges; thin hangers; tower section; vibration prone members; vibration reduction; wind-induced vibration; Arm; Conductors; Construction; Damping; Fatigue; Lattices; Motion measurement; Poles and towers; Shock absorbers; Steel;
Conference_Titel :
Power Engineering Society Summer Meeting, 2000. IEEE
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-6420-1
DOI :
10.1109/PESS.2000.867393
