Effects of different water percentages in non-surfactant emulsion fuel on performance and exhaust emissions of a light-duty truck

The interest in emulsion fuel grows worldwide because it is potentially more environment friendly than its base fuel. Nonetheless, it has yet to be widely used as it is pricier than conventional diesel fuel due to its dependency on surfactant. This paper highlights the application of non-surfactant...

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Bibliographic Details
Main Authors: Mazlan, Nurul Aiyshah, Yahya, Wira Jazair, Ithnin, Ahmad Muhsin, Hasannuddin, A. K., Ramlan, Nur Atiqah, Sugeng, Dhani Avianto, Muhammad Adib, A. R., Koga, Tsuyoshi, Mamat, Rizalman, Che Sidik, Nor Azwadi
Format: Article
Published: Elsevier Ltd 2018
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Online Access:http://eprints.utm.my/id/eprint/86364/
http://dx.doi.org/10.1016/j.jclepro.2018.01.143
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Institution: Universiti Teknologi Malaysia
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Summary:The interest in emulsion fuel grows worldwide because it is potentially more environment friendly than its base fuel. Nonetheless, it has yet to be widely used as it is pricier than conventional diesel fuel due to its dependency on surfactant. This paper highlights the application of non-surfactant emulsion fuel in a light-duty truck (1 ton). The fuel is produced on demand with the so-called Real-Time Non-Surfactant Emulsion Fuel Supply System (RTES) just before being transferred into the engine. The emission characteristics and performance of the truck were then evaluated. To identify the optimum water percentage, the RTES is controlled to produce an emulsion with various water percentages during the testing. The experiment was performed on a chassis dynamometer using the West Virginia University (WVU) 5-Peak Cycle. The variants of fuel used throughout this experiment are Euro 5 diesel (D) and emulsion fuel based from it with varying water percentage of 5% (E5), 6.5% (E6.5), 10.8% (E10.8), and 30% (E30). The smoke number and nitrogen oxides, NOx emission of the truck are reduced with the use of emulsion fuel. E6.5 shows the highest average reduction of NOx at 45%. E30 emits higher carbon monoxide, CO than D while its carbon dioxide, CO2 is reduced by about 0.13%. E6.5's fuel consumption is the lowest; it is around 8.56% lower than D, followed by E10.8, E5 and E30. Overall, the concept of non-surfactant emulsion fuel appears to have the potential for application in diesel-powered vehicles to reduce harmful emissions.