Prebreakdown phenomena in liquids: propagation ‘modes’ and basic physical properties

“…Research in [12,29,30] suggested that both electronic and gaseous processes at streamer tips are responsible for the development of fast streamers. In addition, streamer propagation models shown in Figure 12 indicated that charge splitting process is dominant for the branching of dark channels, whereas charge amplification process is dominant for the branching of bright channels.…”

Pre-breakdown and breakdown mechanisms of an inhibited gas to liquid hydrocarbon transformer oil under negative lightning impulse voltage

“…Research in [12,29,30] suggested that both electronic and gaseous processes at streamer tips are responsible for the development of fast streamers. In addition, streamer propagation models shown in Figure 12 indicated that charge splitting process is dominant for the branching of dark channels, whereas charge amplification process is dominant for the branching of bright channels.…”

Pre-breakdown and breakdown mechanisms of an inhibited gas to liquid hydrocarbon transformer oil under negative lightning impulse voltage

“…Additives with a low IP have been found to facilitate the growth of slow streamers [11] and increase the threshold for fast propagation, the acceleration voltage [1]. An electric field lowers the IP [5].…”

“…Positive streamers are classified into different modes by their propagation speed. While streamers in the 2nd mode propagate at speeds on the order of km/s, the speed of 4th mode streamers may exceed 100 km/s [1]. The present work concerns modeling positive streamers in liquid cyclohexane, propagating in a tube, in a needle-plane gap.…”

“…Streamer experiments are often carried out in a needleplane geometry [1]. The strongly divergent electric field in the region close to the needle makes it possible to control where the streamer inception will occur, and to study the inception and propagation of a streamer not resulting in a complete breakdown.…”

Modeling the transition to fast mode streamers in dielectric liquids

“…Однако на сегодняшний день в основ-ном систематически изучался электрический разряд в диэлектриках с малой начальной проводимостью. Детально исследованы быстрые стадии развития разряда в дистилли-рованной и деионизованной воде в наносекундном и микросекундном диапазонах вре-мени [7][8][9][10]. Экспериментально установлено, что в дистиллированной воде, так же, как и в органических диэлектриках (трансформаторное масло, гексан, спирт и др.…”

The dynamics of the electric discharge in the water with microbubbles