Browse Publications Technical Papers 2014-01-2605
2014-10-13

Achieving Very Low PN Emissions with an Advanced Multi-Hole Injector Functionality and Adapted Spray Targeting Under High Fuel Pressure Conditions 2014-01-2605

In the near future, emissions legislation will become more and more restrictive for direct injection SI engines by adopting a stringent limitation of particulate number emissions in late 2017. In order to cope with the combustion system related challenges coming along with the introduction of this new standard, Hitachi Automotive Systems Ltd., Hitachi Europe GmbH and IAV GmbH work collaboratively on demonstrating technology that allows to satisfy EU6c emissions limitations by application of Hitachi components dedicated to high pressure injection (1).
This paper sets out to describe both the capabilities of a new high pressure fuel system improving droplet atomization and consequently mixture homogeneity as well as the process of utilizing the technology during the development of a demonstrator vehicle called DemoCar. The Hitachi system consists of a fuel pump and injectors operating under a fuel pressure of 30 MPa.
Revised spray patterns have been developed following an IAV process using optical spray vessel investigations as well as CFD simulation for a specific engine (boosted engine with 1.4L engine displacement and direct injection). For the system evaluation on the engine test-bench and inside the vehicle on the chassis roller dyno, Hitachi Automotive Systems, Ltd. manufactured the new spray patterns accordingly.
The chosen test engine has been equipped with the Hitachi components and has been optimized on the engine test-bench in steady state conditions. Subsequently, the high pressure injection system has been installed onto a DemoCar in order to also improve the calibration in transient operation on the chassis roller dyno. Since injector properties are different from the reference injectors, the injection strategy has been modified and re-calibrated at catalyst heating, warm-up operation and hot condition operation.
The final calibration with 30 MPa maximal injection pressure enabled a reduction by 60% of particulate number over NEDC compared to the reference without a strong penalty on fuel consumption.

SAE MOBILUS

Subscribers can view annotate, and download all of SAE's content. Learn More »

Access SAE MOBILUS »

Preview Document Add to Cart
Members save up to 17% off list price.
Login to see discount.
We also recommend:
TECHNICAL PAPER

Combustion Characteristics of Emulsified Blends of Aqueous Ethanol and Diesel Fuel in a Diesel Engine with High Rates of EGR and Split Fuel Injections

2011-01-1820

View Details

TECHNICAL PAPER

Appliance of High EGR Rates With a Short and Long Route EGR System on a Heavy Duty Diesel Engine

2007-01-0906

View Details

TECHNICAL PAPER

EXPERIMENTAL ANALYSIS OF A TWO-STROKE DIRECT INJECTION ENGINE PROTOTYPE

2001-01-1840

View Details

X