Title :
Modified values for geometric factor of external thermal resistance of cables in duct banks
Author :
El-Kady, M.A. ; Anders, G.A. ; Motlis, J. ; Horrocks, D.J.
Author_Institution :
Ontario Hydro, Toronto, Ont., Canada
fDate :
10/1/1988 12:00:00 AM
Abstract :
The authors previously described a technique for calculating the geometric factor Gb for extended ranges of the height/width ratio of the duct bank or backfill that enabled the Neher-McGrath method to be applied to a wider range of cable configurations. However, the technique was based on the assumption that the duct bank surface represents an isothermal boundary, which can result in some errors in the derived Gb-values. A finite-element-based technique is described for calculating modified values of Gb on the basis of the actual heat-transfer mechanism (constant total heat flux) around the duct bank surface. The technique was applied to several cable configurations, yielding more accurate values
Keywords :
finite element analysis; power cables; thermal resistance; Neher-McGrath method; cable external thermal resistance; duct bank; finite-element-based technique; geometric factor; heat-transfer mechanism; isothermal boundary; Cables; Ducts; Earth; Finite element methods; Heat transfer; Isothermal processes; Surface resistance; Temperature; Thermal factors; Thermal resistance;
Journal_Title :
Power Delivery, IEEE Transactions on
