纳米氧化铈对汽油发动机尾气污染物排放的影响

通过非水微乳液法制备了纳米氧化铈，并将之添加到90^#汽油中，研究了纳米氧化铈对汽油动力性能、尾气污染物CO、HC、PM、NOx排放的影响。结果表明：非水微乳液法制备的纳米氧化铈粒径在30～50nm之间，粒径分布较窄；添加浓度为100mg／L时，不会对汽油的动力性能产生明显影响，但可以明显降低90。汽油尾气中的CO、HC、PM、NOx排放。其中，800r／min的正常怠速下可以降低CO排放19．39％、HE排放19．92％、NOx排放51．19％、PM排放25％；在2000r／min的高怠速下可降低CO排放16．17％、NOx排放46．92％、PM排放16．67％。

Effect of cerium oxide nanoparticles on pollutants emission from gasoline engine

Cerium oxide (CeO₂) nanoparticles were prepared by nonaqueous microemulsion and were added into 90^# gasoline. The effect of CeO₂ nanoparticle on engine power performance and the emission of CO, HC, PM, NO_x in engine exhausts were evaluated. It was found that the CeO₂ powders synthesized within nonaqueous microemulsions had an average particle size of 30~50 nm in narrow size distribution. The addition of CeO₂ in gasoline (100 mg/L) did not obviously affect the engine power performance. CeO₂ nanoparticles markedly decreased the pollutants emission levels in engine exhausts, especially CO, HC, NO_x, PM levels at 800 r/min idle speed was respectively reduced about 19.39%, 19.92%, 51.19% and 25%. For the 2 000 r/min idle speed, the CO, NO_x, PM exhaust levels was reduced about 16.17%, 46.92% and 16.67%, respectively.