The propagation of negative pulsed discharges facilitated by artificially injected gas bubble in water

Abstract The artificial injection of bubbles into the electrode gap can effectively enhance the performance of underwater pulsed spark discharge. It is crucial to investigate the morphology and propagation characteristics of discharges for a comprehensive understanding of bubble-stimulated underwater pulsed spark discharge. This paper presented an extensive study of negative discharges facilitated by the injected large bubble (with a diameter of 3 mm) in underwater pulsed spark discharge. The bridging effect of the bubble and the morphology and propagation of discharges were observed through the shadowgraph images captured by a high-speed camera. A numerical model was built to analyse the influence of the bubble on the initial electric field distribution between the electrodes. The characteristics of discharges were notably influenced by bubble parameters and energisation conditions. Not in all cases could the bubble play the bridging effect role. The effective range of the bubble was roughly confined to a small region near the HV electrode tip. The experimental results obtained in this paper have certain guiding significance for the practical application of underwater pulsed spark discharge.