The paper presents the application of interval mathematics as a new method to, rigorously,
address uncertainties associated with designing substation earthing system. While several
methods exist to determine the important factors for personnel safety in and around substations
such as earth resistance, different potentials of substation earthing grid, these methods usually
require data which may be uncertain in nature. To account for such uncertainties the interval mathematics
is developed with the integration of input parameters’ uncertainties, in interval format, into
the governing standard expressions mentioned on IEEE STD 80-2000. The effects of uncertain
inputs within the proposed model are examined for various assumed levels of overall uncertainties.
To assess the relative contribution of each uncertain input, an interval sensitivity analysis is carried
out. Successful implementation of the proposed method is described for the design and configuration
arrangement of a 115/13 kV substation earthing rectangular grid with ground rods system. |
