The effects of pulse frequency on chemical species formation in a nanosecond pulsed plasma gas-liquid film reactor

Wandell, R. J.; Bresch, D.; Wang, H.; Babický, Václav; Lukeš, Petr; Locke, B. R.

doi:https://dx.doi.org/10.34343/ijpest.2020.14.e01008

Počet záznamů: 1

The effects of pulse frequency on chemical species formation in a nanosecond pulsed plasma gas-liquid film reactor

1.

SYSNO ASEP	0541267
Druh ASEP	J - Článek v odborném periodiku
Zařazení RIV	J - Článek v odborném periodiku
Poddruh J	Článek ve SCOPUS
Název	The effects of pulse frequency on chemical species formation in a nanosecond pulsed plasma gas-liquid film reactor
Tvůrce(i)	Wandell, R. J. (US) Bresch, D. (FR) Wang, H. (US) Babický, Václav (UFP-V)_RID Lukeš, Petr (UFP-V)_{RID, ORCID} Locke, B. R. (US)
Celkový počet autorů	6
Číslo článku	e01008
Zdroj.dok.	International Journal of Plasma Environmental Science and Technology. - : Seidenki Gakkai - ISSN 1881-8692 Roč. 14, č. 1 (2020), s. 1-9
Poč.str.	9 s.
Jazyk dok.	eng - angličtina
Země vyd.	JP - Japonsko
Klíč. slova	Filamentary discharge ; Hydrogen peroxide ; Nanosecond discharge ; Non-thermal plasma ; Pulse frequency ; Wet plasma
Vědní obor RIV	BL - Fyzika plazmatu a výboje v plynech
Obor OECD	Fluids and plasma physics (including surface physics)
CEP	GA19-25026S GA ČR - Grantová agentura ČR
	EF16_027/0008354 GA MŠMT - Ministerstvo školství, mládeže a tělovýchovy
Způsob publikování	Omezený přístup
Institucionální podpora	UFP-V - RVO:61389021
EID SCOPUS	85085592924
DOI	10.34343/ijpest.2020.14.e01008
Anotace	The influence of pulse frequency (1−60 kHz) in a nanosecond filamentary discharge propagating along a flowing liquid water film was assessed with regards to the formation of chemical species with argon and helium carrier gasses. The production rate and energy yield for H2O2 and H2 were measured for both carrier gases, and O2 formation was determined for helium. The effect of pulse frequency on the energy dissipated per pulse as well as electron density was also investigated. The results indicate that the energy yield for H2O2 decreases with increasing pulse frequency while the energy yields of H2 and O2 remain relatively unaffected. It is proposed that the difference in the trends of the liquid versus gas phase products can be attributed to the significantly longer residence time of the liquid phase allowing for more degradation of formed hydrogen peroxide before it is able exit the reactor.
Pracoviště	Ústav fyziky plazmatu
Kontakt	Vladimíra Kebza, kebza@ipp.cas.cz, Tel.: 266 052 975
Rok sběru	2022
Elektronická adresa	http://ijpest.com/Contents/14/1/e01008.html

Počet záznamů: 1