Abstract

To improve NO oxidation and energy efficiency, the effect of dielectric barrier discharge reactor structure on NO oxidation was studied experimentally in simulated diesel exhaust at atmospheric pressure. The mixture of 15% O2/N2 (balance)/860 ppm NOX (92% NO + 8% NO2) was used as simulated diesel exhaust. The results show that DBD reactor with 100-mm electrode length has the highest oxidation degree of NOX and energy efficiency. NO oxidation efficiency is promoted and the generation of NO is inhibited significantly by increasing the inner electrode diameter. Increasing the inner electrode diameter not only improve the E/N, but also makes the distribution of E/N more concentrated in the gas gap. The secondary electron emission coefficient (γ) of electrode material is closely related to electron energy and cannot be considered as a constant, which causes the different performance of electrode material for NO oxidation under different gas gap conditions. Compared with the rod electrode, the screw electrode has a higher electric field strength near the top of the screw, which promotes the generation of N radicals and inhibits the generation of O radicals. Rod electrode has a higher NO oxidation and energy efficiency than screw electrode under oxygen-enriched condition.

Highlights

  • Ocean transportation undertakes more than 90% of the global freight transportation which has the advantages of low cost and high security [1]

  • The secondary electron emission coefficient (γ) of electrode material is closely related to electron energy and cannot be considered as a constant, which causes the different performance of electrode material for NO oxidation under different gas gap conditions

  • This paper investigates the effect of DBD structure parameters on NO oxidation, including the effects of electrode length, electrode diameter, electrode material and electrode shape on discharge characteristics and NO oxidation

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Summary

Introduction

Ocean transportation undertakes more than 90% of the global freight transportation which has the advantages of low cost and high security [1]. Of NOX in the exhaust gas of marine diesel engine is NO, and NO has low solubility in water and does not react with alkali solution. Studied the effect of inner electrode shape(more on discharge of while, DBD for NOXThey removal, wetthat scrubbing a lowwith removal efficiency. The structure of DBD reactor has been studied in many previous investigations, most (VDBD), surface barrier discharge (SDBD). DBD treatment is absorbed by alkali liquor, of DBD has been studied in many previous investigations, most denitrification was carried out under the condition of NOX/N2 In such circumstance, NOX is mainly removed by reduction reaction. There are few studies on the effect of DBD reactor structure parameters on NO oxidation under

Methods
Evaluation
Effect of Electrode
Effect
Effect of Inner Electrode Material
Conclusions

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