Title :
Hybrid Nutation Damper for Controlling Galloping Power Lines
Author :
Lu, M.L. ; Popplewell, N. ; Shah, A.H. ; Chan, J.K.
Author_Institution :
Manitoba Hydro, Winnipeg, Man.
Abstract :
A novel add-on device, called a hybrid nutation damper (HND), is proposed to control galloping on both single and bundled conductors of overhead power lines. An HND employs a nutation damper (also called a tuned liquid damper) as an energy dissipator, and a tuned mass damper as the mechanism to transfer a conductor´s plunge motion into a nutation damper´s rotational motion. An HND is in principle effective for any type of galloping. It is particularly effective for a plunge galloping-the one most often observed in the field and existing control devices have difficulty handling. An HND is simplified as an equivalent two degrees-of-freedom model and is then incorporated into existing three degrees-of-freedom based, galloping software. A two-tiered procedure is established to optimize an HND´s performance. Numerical examples show that an HND is invariably very promising in controlling galloping
Keywords :
overhead line conductors; overhead line mechanical characteristics; add-on device; bundled conductors; energy dissipator; galloping power line control; hybrid nutation damper; overhead power lines; two-tiered procedure; Aerodynamics; Conductors; Damping; Drag; Flashover; Ice; Power overhead lines; Power transmission lines; Shock absorbers; Springs; Conductor; damper; galloping; transmission line;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2006.876653
