Diesel engine emission analysis using fuel from diverse emulsification methods

The focus of this work is to investigate the emission characteristics of a stationary diesel engine while utilizing an emulsion fuel from a novel preparation process. The emulsion preparation was performed in real time without using any surfactant. Instead of mechanically breaking the water down int...

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Bibliographic Details
Main Authors: Sugeng, Dhani Avianto, Yahya, Wira Jazair, Ithnin, Ahmad Muhsin, Abdul Rashid, Muhammad Adib, Mohd. Syahril Amri, Nur Salsabilla, Abd. Kadir, Hasannuddin, Abdul Halim, Mohd. Naim
Format: Article
Published: Springer-Verlag GmbH Germany 2018
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Online Access:http://eprints.utm.my/id/eprint/84495/
http://dx.doi.org/10.1007/s11356-018-2760-1
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Summary:The focus of this work is to investigate the emission characteristics of a stationary diesel engine while utilizing an emulsion fuel from a novel preparation process. The emulsion preparation was performed in real time without using any surfactant. Instead of mechanically breaking the water down into droplets, the water is delivered thermally, by changing its phase from gas to liquid. Steam is used in this proposed process, where it will be converted into suspended water droplets once it meets colder diesel. The product is called steam-generated water-in-diesel emulsion fuel (S/D). The method is expected to reduce the moving components of a previous surfactant-less system; therefore, reducing costs and increasing the system reliability. The emission characteristics of S/D were compared with EURO 2 diesel (D2), and a conventional emulsion denoted as E10. E10 was prepared using 10% water (volumetric) and SPAN80 as a surfactant. The emission characterizations were carried out based on the exhaust gas of a single cylinder naturally aspirated CI engine fueled with D2, S/D, and E10. Compared to D2, both emulsions significantly reduced the emissions of nitrogen oxides (NOx) (E10 max ↓58.0%, S/D max ↓40.0%) and particulate matter (PM) (E10 max ↓20.0%, S/D max ↓57.0%).