Title :
Ammonia Production From Solid Urea Using Nonthermal Plasma
Author :
Iitsuka, Yoshihiro ; Yamauchi, Hiroki ; Sato, Satoshi ; Takashima, Kazunori ; Mizuno, Akira ; Prieto, Graciela
Author_Institution :
Cosmo Oil Co., Ltd., Tokyo, Japan
Abstract :
Among various NOx reduction technologies, selective catalytic reduction (SCR) methods have been studied for the cleaning of diesel engine exhaust. The urea SCR system, in which ammonia is used as a reducing agent, is thought to be one of the most promising methods. However, further improvement of the performance is required for low-temperature exhaust below 400 K. The purpose of this paper is the plasma reforming of solid urea to generate ammonia. In this paper, a dielectric-barrier-discharge plasma reactor in which dielectric pellets and urea powder were packed was experimentally investigated. The reactor was fed with humid gas and driven by pulsed high voltage at 400 K or lower. The effect of the pellet material, the gas humidity, and the gas flow rate were experimentally examined. The application of discharge plasma enhanced the ammonia production significantly. These results suggest that our method can provide a plasma-assisted solid-urea reforming system to generate ammonia.
Keywords :
ammonia; catalysis; diesel engines; discharges (electric); exhaust systems; nitrogen compounds; plasma applications; plasma chemistry; plasma diagnostics; plasma flow; reduction (chemical); NH3; SCR system; ammonia production; dielectric barrier discharge plasma reactor; dielectric pellet; diesel engine exhaust cleaning; gas flow rate; gas humidity; nonthermal plasma; plasma assisted solid urea reforming system; selective catalytic reduction; solid urea; temperature 400 K; urea powder; Aluminum oxide; Discharges; Fluid flow; Inductors; Plasma temperature; Thyristors; $hbox{NO}_{rm x}$; Ammonia; dielectric barrier discharge (DBD); selective catalytic reduction (SCR); urea;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2012.2193832
