http://www.cnr.it/ontology/cnr/individuo/prodotto/ID194030
Application of bioethanol/RME/diesel blend in a Euro5 automotive diesel engine: potentiality of closed loop combustion control technology (Articolo in rivista)
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- Application of bioethanol/RME/diesel blend in a Euro5 automotive diesel engine: potentiality of closed loop combustion control technology (Articolo in rivista) (literal)
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- 2013-01-01T00:00:00+01:00 (literal)
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Chiara Guido, Carlo Beatrice, Pierpaolo Napolitano (2013)
Application of bioethanol/RME/diesel blend in a Euro5 automotive diesel engine: potentiality of closed loop combustion control technology
in Applied energy
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- Chiara Guido, Carlo Beatrice, Pierpaolo Napolitano (literal)
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- Pierpaolo Napolitano - Università degli Studi di Napoli Federico II (literal)
- Titolo
- Application of bioethanol/RME/diesel blend in a Euro5 automotive diesel engine: potentiality of closed loop combustion control technology (literal)
- Abstract
- The latest European regulations require the use of biofuels by at least 10% as energy source in transport
by 2020. This goal could be reached by means of the use of different renewable fuels; bioethanol (BE) is
one of the most interesting for its low production cost and availability. BE usually replaces gasoline in
petrol engines but it can be also blended in low concentrations to feed diesel engines.
In this paper the results of an experimental activity aimed to study the impact of a BE/biodiesel/mineral
diesel blend on performance and emissions in a last generation automotive diesel engine are presented.
The tests were performed in steady-state in eight partial load engine conditions and at 2500 rpm in full
load. Two fuel blends have been compared: the Rapeseed Methyl Ester (RME)/diesel with 10% of biodiesel
by volume (B10), and the BE/RME/diesel with 20% of BE and 10% of biodiesel by volume (E20B10).
The experimental campaign was carried out on a 2.0 L diesel engine compliant with Euro5 regulation.
The engine features the closed loop combustion control (CLCC), which enables individual and real-time
control of injection phasing and cylinder inner torque by means of in-cylinder pressure sensors connected
with the Electronic Control Unit (ECU).
As expected, the results showed a strong smoke emissions reduction for E20B10 in all tested conditions,
mainly due to the high oxygen content of BE. Also a reduction of NOx emissions were observed with
BE addiction. The results confirm that the CLCC adoption enables a significant improvement in the
robustness of the engine performance and emissions when blends with low heat content and very low
cetane number (as BE blends) are burnt. Nevertheless, high CO and HCs emissions for BE blends still
remain a critical issue, even with the CLCC technology. (literal)
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