Title :
Examination of Grizzly Mountain database to determine effects of relative air density and conductor temperature on HVDC corona phenomena
Author :
Chartier, Vernon L. ; Stearns, R.D.
Author_Institution :
Bonneville Power Adm., Vancouver, WA, USA
fDate :
7/1/1990 12:00:00 AM
Abstract :
A summary is presented of the results of an effort to determine the effect of relative air density (RAD) and conductor temperature on HVDC (high-voltage direct current) corona phenomena by statistically examining fair weather audible noise (AN), radio noise (RI), ion-enhanced electric field, and ion current density data in the 1986 database from the Grizzly Mountain HVDC Research Project. Since wind has such a strong effect on DC electric fields and ions, this comparison was made under the calm wind conditions of speeds less than 1 m/s. The results of this effort demonstrated that AN, RI, negative electric field, and negative ion current density increase with increasing ambient and conductor temperature and decrease with increasing RAD. However, positive electric fields and positive ion current densities showed essentially no correlation with either conductor temperature or RAD
Keywords :
acoustic noise; corona; electric fields; overhead line conductors; power engineering computing; radiofrequency interference; Grizzly Mountain database; HVDC corona phenomena; calm wind conditions; conductor temperature; fair weather audible noise; ion current density; ion-enhanced electric field; negative electric field; negative ion current density; overhead power lines; positive electric fields; positive ion current densities; radio noise; relative air density; Acoustic noise; Circuit testing; Conductors; Corona; Current density; Databases; HVDC transmission; Magnetic field measurement; Ocean temperature; Sea measurements;
Journal_Title :
Power Delivery, IEEE Transactions on
