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Emissions of diesel engine have been received much more attention since the Volkswagen Emission Scandal. The Euro VI emission standard has already included cold start emissions in the legislative emission driving cycles which is one of the hardest part of emission control. High altitude performance is also considered in the latest regulations which will be stricter in the future. Heating the coolant is one of the most common method to improve the cold start performance. But researches focus on the emission of a diesel engine in different coolant temperature at high altitude which up to 4500m have not been seen. The present research investigated the effect of coolant temperature on performance and exhaust emissions (gaseous and particulate emissions) during the cold start of a diesel engine. A plateau simulation system controlled the inlet and exhaust pressure to create altitude environments from 0m to 4500m, and the coolant temperature was controlled from 20°C to 60°C.

To meet the increasingly stringent nitrogen oxides (NOx) emission regulations of diesel engines, the selective catalytic reduction (SCR) of NOx with ammonia (NH3) has become the current mainstream technical route. Experiments in the present study included the performance of Cu-Beta catalyst and Cu-CHA catalyst before and after hydrothermal aging, and the effects of Cu content, feed gas space velocity (GHSV), NH3/NOx ratio, and sulfur poisoning on the performance of Cu-CHA catalyst. In the low temperature range (T≤250 °C), the T50 and T90 of Cu-Beta catalyst are 139 °C and 165 °C, respectively, while those of Cu-CHA catalyst are 150 °C and 183 °C, respectively. In the high temperature range (T>400 °C), the NOx conversion of Cu-CHA catalyst is generally higher than that of Cu-Beta catalyst. The temperature window of Cu-Beta catalyst is 154 to 514 °C, while that of Cu-CHA catalyst is 168 to 522 °C. Cu-CHA catalyst exhibits better catalytic activity at medium and high temperatures.