Abstract
Longitudinal and radial stresses in a hvdc cable through joint are computed using a finite difference method. The joint and associated cable are rated at 266 kV d. c., 1200A and assumed buried to a depth of l.lm in homogeneous soil of thermal resistivity 1.2 deg C-m W-1. Initially the temperature distribution is determined and the node to node finite difference resistances in the electrical representation calculated using the relationship, ?= ?exp(??+ sE) with an assumed voltage and stress distribution. A revised stress distribution is then computed, the nodal resistances adjusted to the new stresses and the iterative process repeated until the nodal voltage changes are below a prescribed limit.
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