NO&lt;sub&gt;x&lt;/sub&gt; reduction effect of two-stage combustion using tubular flame

NO x reduction for oxygen enriched combustion with two-stage tubular flame Abstract Oxygen-enriched combustion is frequently applied to industrial furnaces for requiring high temperature heating. The burned gas temperature in the oxygen-enriched combustion becomes high because of a decrease of inert gas (nitrogen). However, it is difficult to avoid the increase of NO x formation. This research tries to reduce the NO x emission from the oxygen-enriched combustion by the two-stage combustion using the tubular flame in the first combustion zone. The oxygen-enriched combustion experiments were implemented using enriched air (the oxygen concentration; up to 27%) with a prototype tubular flame burner of 1 kW output. The NO x emission from the first combustion zone became approximately zero even when using oxygen-enriched air by applying the rich premixed combustion at the nearly upper flammability limit. The NO x was 58% at 21% O 2 air, 73% at 24% O 2 and 79% at 27% O 2. As the oxygen concentration rose, the NO x reduction rate became higher. Since the heat release rate in the second combustion zone can be mild when introducing the tubular combustion as a flame of the first stage, the NO x emission became decreased. This effect may become clear under the higher temperature condition of higher oxygen concentration.

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NOx reduction for oxygen enriched combustion with two-stage tubular flame

Shiraga

Hori

Hayashi

et al. 2016

Transactions of the JSME (In Japanese)

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NO<sub>x</sub> reduction effect of two-stage combustion using tubular flame

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NO<sub>x</sub> reduction for oxygen enriched combustion with two-stage tubular flame

NO<sub>x</sub> reduction for oxygen enriched combustion with two-stage tubular flame

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