Experiments and Multi-Dimensional Simulation of Dual-Fuel Diesel/Natural Gas Engines University of "Tor Vergata", Roma, Italy

Format:

Conference/Event

Author/Creator:

Cordiner, S., author.

Conference Name:

8th International Conference on Engines for Automobiles (2007-09-16 : Capri (Naples), Italy)

Language:

English

Physical Description:

1 online resource

Place of Publication:

Naples, ITALY Consiglio Nazionale delle Ricerche 2007

Summary:

Dual-fuel engines, based on the use of natural gas (NG) as the main fuel in internal combustion engines (ICE) and using diesel injection as the ignition source instead of the spark plug, are one of the possible ways to reduce the trade off PM-NOX problem of traditional diesel engines. The high octane number (NOR) of NG allows to easily covert existing diesel engine, without varying the original compression ratio, with great advantages in terms of costs. The only modifications concern with the introduction of feeding system for NG and the reduction of diesel quantity injected into the combustion chamber, by acting on injection pump control. For high degrees of substitution, diesel oil can be considered only as the ignition source for the fresh air/NG mixture, with consequent beneficial effects on PM emissions. The real drawback regarding dual-fuel engines is the wide increase in HC and CO emissions and efficiency worsening, especially under part-load conditions. To reduce such emissions, further devices like intake throttle, three-way catalyst and EGR were utilized during experimental tests.In this paper the experimental results concerning with the conversion of the IVECO 8360.46R diesel engine, used for public transportation, to dual-fuel operations are argued. Experiments were performed to define engine performance and to reduce exhaust emissions. Experimental pressure data also were used to develop numerical tools, characterized by a mixed 1D-3D approach. A 1D code was utilized to calculate the real boundary inflow and outflow pressure conditions. Concerning with 3D simulation, a modified version of KIVA-3V code was used to simulate the whole working cycle of the engine. The examined test-case is characterized by low admission of diesel fuel so to represent diesel ignition and NG combustion

Notes:

Vendor supplied data

Publisher Number:

2007-24-0124

Access Restriction:

Restricted for use by site license