Empa - The Clean Engine Vehicle Project

language

sitemap

contact



	alphabetisch
	hierarchisch



	Deutsch
	English
	Français

Empa - eine Forschungsinstitution im ETH-Bereich


Sie sind hier:	empa.ch	>	Departments	>	Mobilität	>	Verbrennungsmotoren	>	Projekte


	empa.ch

	Die Empa im Profil
	Departments and Labs
	Empa-Akademie


	Departments and Labs

	Moderne Materialien, Oberflächen und Grenzflächen
	Bau- und Maschineningenieurwesen
	Materials meet Life
	Information, Zuverlässigkeit, Simulation
	Mobilität, Energie und Umwelt
	Support
	Zentren
	Kompetenzzentren des ETH-Bereichs
	Forschungskommission
	Direktion


	Mobilität, Energie und Umwelt

	Verbrennungsmotoren
	Luftfremdstoffe / Umwelttechnik
	Analytische Chemie
	Festkörperchemie und Katalyse
	Hydrogen & Energy


	Verbrennungsmotoren

	Team Abteilung Verbrennungsmotoren
	Labors Abteilung Verbrennungsmotoren
	Projekte Abteilung Verbrennungsmotoren
	Dissertationen Abteilung Verbrennungsmotoren
	Lehraufträge Abteilung Verbrennungsmotoren
	TAP2010


	Projekte Abteilung Verbrennungsmotoren

Verbrennungsmotoren


Team Abteilung Verbrennungsmotoren

Labors Abteilung Verbrennungsmotoren

Projekte Abteilung Verbrennungsmotoren

Dissertationen Abteilung Verbrennungsmotoren

Lehraufträge Abteilung Verbrennungsmotoren

TAP2010

The Clean Engine Vehicle Project

A joint project between Empa (Internal Combustion Engines Laboratory) and ETH (Aerothermochemistry and Combustion Systems Laboratory and Measurement and Control Laboratory).

Natural gas and biogas are counted among the cleanest fuels. Modern natural gas vehicles emit less pollutants as gasoline or diesel driven vehicles and also the effect based assessment of the exhaust emissions is better: the ozone forming potential of the hydrocarbon fraction is much lower, the content on carcinogenic components as benzene, 1.3-butadiene, formaldehyde or acetaldehyde is nearly not measurable and the particulate emissions are near zero.

Natural gas vehicles have additionally a big potential for a CO₂ reduction. Alone, based on the lower content of carbon in the fuel, the CO₂ reduction of a natural gas driven vehicle is about 20%, compared with a gasoline vehicle. Based on the high knock resistance of natural gas, advanced dedicated natural gas vehicles can be optimized regarding higher energy efficiency. Such vehicles have the potential for a CO₂ reduction of 30%.

With the project “Clean Engine Vehicle”, Empa and ETH demonstrated the potential of such an optimized natural gas vehicle regarding pollutants and CO₂ reduction with todays engine technology. Within the project, an actual gasoline driven engine was converted to dedicated natural gas operation, the compression ratio has been optimized, a catalytic converter was developed and a downsizing concept (supercharging with boost control and gear box modifications) was realized. Aim of the project was a CO₂-reduction of 30% in the official European driving cycle compared with a similar powered gasoline vehicle and the compliance with the most stringent European and Californian exhaust gas limits for Euro-4 and Super-Ultra-Low-Emission-Vehicles (SULEV).

Fig. 1

The pollutants could be reduced below the targeted limits (Fig. 1). The NOx concentrations were after a driving distance of about 300 m after cold start even in transient driving always lower at tailpipe then in the intake air of the engine (Fig. 2).

Fig. 2

Compared with a gasoline engine with similar performance, the CO₂emissions could be reduced at 31% (Fig 3). The most important CO₂ reduction of 22% could be realised by the conversion to natural gas operation and is based on the lower carbon content of natural gas compared with gasoline.

Fig. 3

Simultaneously, the maximum engine power was reduced at about 15% by the gas induced reduction of engine filling. The increase of compression ratio resulted in a further CO₂ reduction of 2.7% and the maximum engine power could be increased by 6.5%. The supercharging and gearbox modifications reduced the CO₂ emissions again by 3.4% and increased the maximum engine power by 33%. With all this measures, the maximum engine power was increased by 20% compared with the basic 1.0 l gasoline engine.

With the project can be shown, that advanced dedicated natural gas vehicles can achieve significantly lower pollutant and CO₂ emissions compared with gasoline or diesel vehicles.

The project has been carried out by Empa Dubendorf and ETH Zurich in cooperation with Volkswagen AG, Robert Bosch GmbH, Corning GmbH and Engelhard-Technologies GmbH. The project was co-financed by the Swiss Federal Office of Energy, the Research Fund of the Swiss Gas Industry, the German Association of Gas and Water and the Austrian Association of Gas and Water.

Publications: Bach Ch., Lämmle, Ch., Bill, R., Soltic, P., Dyntar, D., Onder, Ch., Boulouchos, K., Guzzella, L., Landenfeld T., Kercher L., Seel O., Clean Engine Vehicle - A Natural Gas Driven Euro-4/SULEV with 30 % Reduced CO₂-Emissions, SAE-Paper 2004-01-0645

Contact

Christian Bach, Phone +41-(0)44-823 4137, E-Mail: christian.bach@empa.ch

Weitere Dokumente

CEV Schlussbericht: 1462 KB


ExpertInnen:

Christian Bach