Wei Xing Lin scite author profile

Abstract:Since the Euro-III standard was adopted, the main methods to inhibit NO x production in diesel engines are exhaust gas recirculation (EGR) and select catalyst reduction (SCR). On these methods SCR offers great fuel economy, so it has received wide attention. However, there also exists a trade-off law between NO x conversion efficiency and NH 3 slip under dynamic conditions. To inhibit NH 3 slip with high NO x conversion efficiency, a dynamic control method for a urea water solution (UWS) injection was investigated. The variation phenomena of SCR conversion efficiency with respect to the cross-sensitivity characteristics of the NO x sensor to NH 3 have been thoroughly analyzed. The methodology of "uncertain conversion efficiency curve tangent analysis" has been applied to estimate the concentration of the slipped NH 3 . The correction factor "ϕ" of UWS injection is obtained by a comparative calculation of the NO x conversion ability and subsequent NH 3 slip. It also includes methods of flow compensation and flow reduction. The proposed control method has been authenticated under dynamic conditions. In low frequency dynamic experiments, this control method has accurately justified the NH 3 slip process and inhibits the NH 3 emission to a lower level thereby improving the conversion efficiency to a value closer to the target value. The results of European transient cycle (ETC) experiments indicate that NH 3 emissions are reduced by 90.8% and the emission level of NO x is close to the Euro-V standard.

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Wei Xing Lin

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