Theoretical investigation on the influence of H2 ${{\rm{H}}}_{2}$ additions on the He + 1% O2 ${{\rm{O}}}_{2}$ plasma reactivity for water treatment applications

Theoretical investigation on the influence of H2 ${{\rm{H}}}_{2}$ additions on the He + 1% O2 ${{\rm{O}}}_{2}$ plasma reactivity for water treatment applications

Plasma‐based technologies offer environmentally friendly means of effective water purification. Here, we present a discharge system with He + 1% . Tunable amounts of were introduced to control the yield of reactive species. Detailed exploration of the system provides a deeper understanding of some o...

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Veröffentlicht in:Plasma processes and polymers 2024-11, Vol.21 (11)
Hauptverfasser: Shabaek, Osama A., Kher‐Elden, Mohammad A., Abd El‐Fattah, Zakaria M., Elakshar, Farouk F., Yassin, Osama
Format: Artikel
Sprache:eng
Schlagworte:
Oxidation
Reaction kinetics
Wastewater treatment
Water discharge
Water purification
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Zusammenfassung:Plasma‐based technologies offer environmentally friendly means of effective water purification. Here, we present a discharge system with He + 1% . Tunable amounts of were introduced to control the yield of reactive species. Detailed exploration of the system provides a deeper understanding of some of the fundamental chemical kinetics related to plasma‐based wastewater treatment. A global model was used to investigate the effect of additions on the yield of some important reactive species for advanced oxidation treatment of wastewater. Humidity leakage was considered to simulate the effect of humidified environments. The pathway analysis module provides deeper insight into chemical kinetics. It was concluded that additives can be used in tailoring plasma yield for water treatment applications.
ISSN:1612-8850
1612-8869
DOI:10.1002/ppap.202400105