Comparative study of using multi-wall carbon nanotube and two different sizes of cerium oxide nanopowders as fuel additives under various diesel engine conditions

Zhang, Zhichao, Lu, Yiji, Wang, Yaodong, Yu, Xiaoli, Smallbone, Andrew, Dong, Chenxuan and Roskilly, Anthony Paul (2019) Comparative study of using multi-wall carbon nanotube and two different sizes of cerium oxide nanopowders as fuel additives under various diesel engine conditions. Fuel, 256. p. 115904. ISSN 0016-2361

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Official URL: https://doi.org/10.1016/j.fuel.2019.115904

Abstract

This research reports the study of using Cerium oxide (CeO2) nano additive with two different sizes (25 nm and 50 nm) blended with standard diesel fuel (DF-Ce25 and DF-Ce50) at various engine speed and load conditions. Moreover, carbon nanotube (CNT) is employed as a single additive (DF-CNT). Results indicate that the in-cylinder pressure of DF-CNT is slightly lower than that of DF under the most conditions due to more heat absorption during the evaporation process. In contrast, the in-cylinder pressure of DF-Ce25 and DF-Ce50 is higher than that of DF at relatively low speed due to the improved fuel spray and faster combustion. In terms of emissions, all fuels with nano-additives are overall lower than DF. DF-CNT can reduce CO, HC, NOx and PN by 20%, 22.6%, 21% and 5.5% respectively compared with DF, due to its improved spray and lower combustion temperature. Meanwhile, DF-Ce25 and DF-Ce50 produce the overall higher level of emissions of CO, NOx and HC than DF-CNT except for PN. A minimum engine (load-speed) limit and a maximum engine limit are found for CO emissions. Furthermore, DF-Ce25 emits higher NOx and lower HC than DF-Ce50, because CeO2 of 25 nm has a higher reaction rate of CeO2 due to its larger surface area and in return hinders the reaction of Ce2O3. The difference of PN emissions between the two sizes of CeO2 is the comprehensive result of the oxidization of particulate matters and the aggregation of unburnt fuel.

Item Type: Article
Uncontrolled Keywords: Cerium oxide (CeO2), Nanopowder size, Carbon nanotube (CNT), Pollutant emissions, Diesel engine
Subjects: H900 Others in Engineering
Department: Faculties > Engineering and Environment > Mechanical and Construction Engineering
Depositing User: John Coen
Date Deposited: 20 Nov 2020 15:13
Last Modified: 20 Nov 2020 15:15
URI: http://nrl.northumbria.ac.uk/id/eprint/44811

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