Bubble Dynamics and Channel Formation for Cathode Initiated Discharges in Transformer Oil
Cevallos, M.
Butcher, M.
Dickens, J.
Neuber, A.
Krompholz, H.
Depts. of Electr. & Comput. Eng. & Phys., Texas Tech Univ., Lubbock, TX
This paper appears in: Pulsed Power Conference, 2005 IEEE Publication Date: 13-17 June 2005
On page(s):
1235
- 1238
Location: Monterey, CA
ISBN: 0-7803-9189-6
Digital Object Identifier: 10.1109/PPC.2005.300578
Current Version Published: 2007-02-05
Abstract
The development of cathode initiated low density channel formation and propagation leading to self breakdown in transformer oil is investigated using high speed electrical and optical diagnostics in a coaxial system with a point/plane axial discharge at various hydrostatic pressures. A cathode initiated channel formation and propagation model based upon single bubble dynamics has been presented by Kattan [1]. Experiments based on high-speed shadowgraphy were conducted to decide if the principles that govern single bubble dynamics could be applied to cathode initiated channel formation. These experiments show bubble motion away from the cathode, with separation velocities on the order of 10's m/s. This separation is similar for single bubbles generated at the cathode and for bubble chains developing into low-density channels. Lifetimes of these channels are recorded and show good correlation with the Rayleigh model [2] used to predict lifetimes of single bubbles. Experiments at reduced hydrostatic pressure reveal a critical pressure below which low density channel expansion occurs, further corroborating the presence of a gas phase. Finally, the pressure dependence of the breakdown voltage due to the expansion of the low density channels is examined and a model for this dependence is presented. The experiments conducted confirm the presence of a gas phase channel, its correlation with single bubble dynamics, and its importance to final breakdown.
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