SES Enviro - SES technologies

By: Ses  09-12-2011
Keywords: Software Package, Conductors, Electric Field


For transmission lines with operating voltages in excess of 345 kV, the key cost-determining factor of the design are legally imposed measures taken to limit radio noise and audio noise, generated by corona resulting from high electric field levels at the conductor surface. Reduction of this noise can be accomplished by increasing the conductor size or the number of conductors per bundle or by moving the conductors further away from one another, keeping in mind that the overall geometry is important. All of these measures have a considerable impact on cost: for example, simply raising 735 kV tower cross-arms by 1 m has been known to increase the cost of a line by as much as 10%! Power loss due to corona, during operation, represents another concern. Despite the obvious economic importance of optimizing a design with respect to corona effects, until now, no commercially available software adequately addresses this design problem at present. SESEnviroPlus has eliminated this heavy burden.

The new SESEnviroPlus software package is an analysis tool developed for the design of overhead AC and DC transmission lines. It quickly estimates line parameters, electric fields, magnetic fields, scalar potentials and corona parameters (loss, radio noise, audio interference) associated with arbitrary configurations of parallel transmission and distribution electric lines, with any number and type of aerial conductors. The field and corona parameters can be evaluated at any location in the vicinity of the line. The corona parameters calculated for high voltage AC lines are the surface gradient, the corona loss (W), the radio interference level (RI), and the audible noise level (AN). To aid the designer, the corona impact of individual phases, circuits or lines on corona-related parameters can be evaluated. The program is able to handle AC and DC lines as well as hybrid lines for the calculation of the static electric field, the scalar potential (non-ionized field), the magnetic field and the gradient.

Technical Features

  • Using SESEnviroPlus, you can compute the following line parameters: Maxwell potential coefficients, shunt capacitances, self and mutual impedances, and admittances for all conductors on a per-conductor basis and a per-phase basis, with shield wires being either eliminated or treated as distinct conductors.
  • Corona-related parameters are based on the best evaluation methods currently available: i.e., EdF, IREQ, BPA, CRIEPI, ENEL, FGH, and GE.
  • SESEnviroPlus takes into account power frequency, skin effects, and earth characteristics in the evaluation of the corona and line parameters.
  • For overhead conductor arrangements with little regularity, conductors are specified one at a time and may be completely different from one another.
  • For regular overhead conductor arrangements, the conductor characteristics are specified on a per-circuit basis and the phase bundle configuration is specified to reduce data entry time.
  • The per-circuit basis and phase bundle input configuration allow asymmetrical bundles to be entered.
  • An extensive conductor database is available to ease input operations.

Analytical Methods Used in SESEnviroPlus

SESEnviroPlus is based on the following analytical methods:

  • Line Parameters. All line parameters are computed using an enhanced algorithm based on the work of Gary, Deri and Abuel Ma'atti, which is the method used by FCDIST. The bundle reduction, ground-wire elimination and sequence components algorithms are all derived from the TRALIN module.
  • Option to Examine the Individual Contributions of Bundles and Circuits to the Corona Performance of a System. The effect of each phase bundle or circuit upon the corona performance of the system can be evaluated independently by forcing the corona on any number of circuits or phase bundles to zero while keeping all the others. Note that it would not suffice to simply de-energize or physically remove phase bundles or circuits from the system under study to perform such an analysis, as the high frequency behavior of one circuit is modified by the presence of another parallel circuit, energized or not. SESEnviroPlus thus allows the user to evaluate, conveniently and accurately, the impact on an existing circuit of the addition of a new circuit, in terms of the surface gradient, the high frequency propagation characteristics, the radio interference and the audio noise.
  • Magnetic Field. The currents in the ground return conductors (i.e., neutral, shield, or static wires) contribute significantly to the magnetic fields in a balanced three-phase transmission system. The determination of the currents in the ground return conductors is based on the assumption that the impedances of the terminations are always small compared with the total self-impedance of the ground return conductors (this is true when these conductors are sufficiently long). With this assumption, the value of the termination can be set to zero.
  • Electric Field and Space Potential. The electric field and space potential are computed using a modified successive images method. This method yields a very accurate evaluation of the (modified) Maxwell coefficient matrix, the charges on the conductors, and the surface gradient. The program can compute the static electric field (non-ionized field) and space potential (scalar potential) anywhere in the vicinity of the line for a general case where AC and DC lines can coexist.
  • Corona Parameters. There are three main corona parameters evaluated by the SESEnviroPlus program for AC lines: corona loss, radio interference, and audio noise. For each of these parameters, several alternative evaluation methods have been introduced, based on the current state of the art. Each of these published methods is valid for a certain range of conductor radius and surface gradient, determined by the field testing conducted in the elaboration of these methods.The generating functions which convert conductor surface electric fields into radio interference, audio noise levels and corona losses are separated in two types of methods: semi-empirical and empirical methods. In general, the semi-empirical methods are less specific to a particular type of transmission line and cover a wider range of designs. The evaluation methods used are based on the work of several individuals and research centers, the latter including: EdF, IREQ, GE, BPA, CRIEPI, ENEL and FGH.


The following shows the main screen when SESEnviroPlus is loaded.

A large variety of plots can be produced easily using the SESEnviroPlot tool. The following shows this tool as well as a few sample plots that it produces.

Keywords: Conductors, Electric Field, Software Package,

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