Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition

Artículo

Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition

Ju Won Kim et al · Elsevier · 2026

Material complementario disponible

Lectura rápida. Revisá los datos básicos del recurso y luego accedé al contenido desde el botón principal. En esta ficha solo se muestra la información necesaria para identificar la obra, citarla y abrirla.

Autor / responsable

Ju Won Kim et al

Editorial

Elsevier

Año

2026

ISSN

0378-3820

ISSN

0378-3820

Idioma

eng

Acceso al recurso

Entrá al contenido desde la opción principal o elegí otra fuente disponible.

Acceso principal

Material complementario disponible

El enlace apunta a material asociado, anexos, tablas, datos o página complementaria. No se marca como libro/texto completo.

Abrir material

Resumen

Descripción general del contenido del recurso.

This study investigates an AC-driven rotating arc plasma reactor for ammonia decomposition using pure NH₃ at 10 NLPM. Nitrogen and N₂/H₂ (1:3 vol%) mixtures were employed as reference gases to elucidate the intrinsic discharge behavior of ammonia, while the effect of reactor geometry was examined by introducing a converging nozzle. Stable discharges were achieved at ∼20 kHz and 0.75–1.6 A. Ammonia discharge exhibited distinct hysteretic VI behavior and higher re-ignition voltages due to reduced discharge memory, accompanied by an ammonia-derived orange emission region. Unlike previous studies that mainly emphasized overall conversion performance, the present work focuses on the NH₃-specific discharge physics of an AC-driven rotating arc and its linkage to reactor performance. NH₃ conversion increased with power, reaching 41.7% at 1.21 kW, yielding 6.3 NLPM H₂ with an SEI of 174.4 kJ/mol_NH3 (7.3 kJ/L), corresponding to an H₂ energy yield of 310.2 L/kWh. A converging nozzle reduced gas residence time by ∼17%, resulting in up to 9% lower conversion. The results indicate that maintaining a sufficiently high arc voltage and preserving gas–arc interaction time are more critical for efficient NH₃ decomposition than simply increasing the applied current.

Cómo citar

Elegí el formato que necesitás y copiá la referencia al portapapeles.

APA 7

al, J. W. K. E. (2026). Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition. https://doi.org/10.1016/j.fuproc.2026.108460

MLA

al, Ju Won Kim et. "Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition." 2026. https://doi.org/10.1016/j.fuproc.2026.108460.

Chicago

al, Ju Won Kim et. 2026. "Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition.". https://doi.org/10.1016/j.fuproc.2026.108460.

Harvard

al, J. W. K. E. 2026, Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition, Elsevier, available at: https://doi.org/10.1016/j.fuproc.2026.108460 [Accessed 28 Jun. 2026].

Compartir e imprimir

Guardá la ficha, copiá su enlace permanente o imprimila como PDF.

Exportar referencia

Si usás un gestor bibliográfico, podés exportar el registro en los formatos más comunes.

RIS BibTeX

Detalles del recurso

Información bibliográfica útil para confirmar que se trata del material correcto.

Título: Experimental investigation of discharge characteristics in AC-driven rotating arc plasma for ammonia decomposition

Autor / colaboradores: Ju Won Kim et al

Editorial: Elsevier

Año de publicación: 2026

ISSN: 0378-3820

ISSN: 0378-3820

Idioma: eng

Materias

Explorá otros recursos relacionados a partir de estas materias.

Arc discharge; Alternating current; Rotating arc; Ammonia decomposition; Discharge characteristic; Nozzle shape