NOx Removal Using Indriect Plasma oxidation and Chemical Hybrid Process Comparison of Air Radical Injection with Direct oxidation

Previous results have shown that the plasma-chemical hybrid process was effective for simultaneous removal of NOx, SOx and diesel particulate. In the present study, two types of plasma supplies, the direct oxidation method and the indirect plasma oxidation (air radical injection) method, were evalua...

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Published in	Transactions of the Japan Society of Mechanical Engineers Series B Vol. 71; no. 711; pp. 2816 - 2822
Main Authors	FUJISHIMA, Hidekatsu, HARUNA, Shunji, KUROKI, Tomoyuki, OKUBO, Masaaki, YAMAMOTO, Toshiaki
Format	Journal Article
Language	Japanese
Published	The Japan Society of Mechanical Engineers 25.11.2005
Subjects	Indirect Plasma Hybrid System NO Oxidation Non-equilibrium NOx Removal Plasma Radical Injection
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Abstract	Previous results have shown that the plasma-chemical hybrid process was effective for simultaneous removal of NOx, SOx and diesel particulate. In the present study, two types of plasma supplies, the direct oxidation method and the indirect plasma oxidation (air radical injection) method, were evaluated with regard to NO and NOx removal efficiencies and applied power. The air radical injection method showed that both NO and NOx removal efficiencies were better than those the direct oxidation method even at around 1/3 applied power. Furthermore, performance parameters of NO oxidation were investigated. As a result, more than 80% of NO removal efficiency was achieved when the ratio of air radical gas to exhaust gas was in the range of 20%.
AbstractList	Previous results have shown that the plasma-chemical hybrid process was effective for simultaneous removal of NOx, SOx and diesel particulate. In the present study, two types of plasma supplies, the direct oxidation method and the indirect plasma oxidation (air radical injection) method, were evaluated with regard to NO and NOx removal efficiencies and applied power. The air radical injection method showed that both NO and NOx removal efficiencies were better than those the direct oxidation method even at around 1/3 applied power. Furthermore, performance parameters of NO oxidation were investigated. As a result, more than 80% of NO removal efficiency was achieved when the ratio of air radical gas to exhaust gas was in the range of 20%.
Author	HARUNA, Shunji FUJISHIMA, Hidekatsu OKUBO, Masaaki KUROKI, Tomoyuki YAMAMOTO, Toshiaki
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SubjectTerms	Indirect Plasma Hybrid System NO Oxidation Non-equilibrium NOx Removal Plasma Radical Injection
Subtitle	Comparison of Air Radical Injection with Direct oxidation
Title	NOx Removal Using Indriect Plasma oxidation and Chemical Hybrid Process
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