What question did this study set out to answer?

To investigate the efficiency of hydrogen-rich synthesis gas production through nanosecond pulsed plasma discharges in alcohol-water mixtures.

March 10, 2026Open Access

Evidence of Nanobubbles Generated by Plasma Streamers in Nanosecond Pulsed Production of Hydrogen‐Rich Synthesis Gas

Key Points

To investigate the efficiency of hydrogen-rich synthesis gas production through nanosecond pulsed plasma discharges in alcohol-water mixtures.
Compared three alcohols in water for plasma production
Utilized 9 ns 9 kV negative pulses for submerged discharges
Measured gas production rates and compositions
Analyzed bubble formation using high-resolution optical microscopy
Achieved production of about 0.5 L/min synthesis gas
Gas composition reached up to 65% hydrogen
Confirmed formation of submicron nanobubbles
Demonstrated high production efficiency linked to nanobubble properties

Abstract

ABSTRACT Three alcohols in water were compared in plasma production of the hydrogen‐rich synthesis gas H 2 + CO. The 9 ns 9 kV negative pulses generated submerged discharges at very low average power of about 10 W, which was enough for the production of about 0.5 L/min synthesis gas containing up to about 65% H 2 . The fastest production of the gas in all tested liquids required tuning of intense streamer discharges with the formation of small gas bubbles, including those with submicron diameters. The presence of submicron bubbles–nanobubbles was confirmed by high‐resolution optical microscopy. Extraordinary properties of nanobubbles can explain the high production efficiency of the hydrogen‐rich gas from mixtures of alcohol with water generated by the nanosecond pulsed plasma.

Evidence of Nanobubbles Generated by Plasma Streamers in Nanosecond Pulsed Production of Hydrogen‐Rich Synthesis Gas

Key Points

Abstract

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