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This paper discusses the possibility of equipping Euro 3 and older vehicles with a universal retrofit kit to reduce the NOX and the PM emissions without producing any secondary effect. Out of several configurations, the optimal setup for EGR and DPF regeneration was evaluated and tested on a passenger car engine testbench. Stationary results showed that with a low pressure EGR it was possible to reduce the NOX emissions by more than 50%, and the filtration efficiency of the DPF was greater than 99%. After various dynamic tests on the test bench to improve the control algorithm, the system was designed to be installed on a garbage truck.

1 Small off-road 2-stroke SI-engines have very high pollutant emissions. The Swiss environmental protection agency (BUWAL) investigates the state of the technology and emissions with the scope to show the potential of improvements by means of the best available technology (BAT) and to motivate the consumers to use the more sophisticated equipment and cleaner fuels to protect their health and the environment. In the present work emission measurements of chainsaws were performed with a special concern of particulate emissions. Particulates were analysed by means of: gravimetry, SMPS, NanoMet and differential analysis of filter residue. The varied conditions were: A/F-ratio, lube-oil content and the fuel quality. It has been shown, that the particulate mass and the nanoparticle numbers, which both consisting almost exclusively of unburned lube-oil, attain very high values. They are strongly influenced by the mixture tuning and by the lube-oil content.

Exhaust emissions measurements of a small 2-S Scooter Peugeot TSDI*), 50cc with different particle filters have been performed in this present work according to the measuring procedures, which were established in the previous research in the Swiss Scooter Network, [1, 2, 3, 4, 5, 6, 7, 8, 9]. The investigated particle filtration materials were supplied from different manufacturers as samples without specifications and they were applied by the research laboratory in a special muffler able to be taken apart. The investigated scooter represented a modern (2002) 2-stroke technology with direct injection, with oxidation catalyst and with injection of the lube oil to the intake air. Since there is a special concern about the particle emissions of the small engines, the particle mass and nanoparticle measurements were systematically carried out. The nanoparticulate emissions were measured by means of SMPS (CPC) and NanoMet*).

The pressure wave supercharger Comprex(R) has already found wide scale application to passenger car diesel engines. The ideal throughput characteristic and instantaneous pressure build-up make it an interesting alternative supercharger for all vehicular engines, particularly under stringent emission regulations. A new control mechanism substantially increases pressure and efficiency at part load. And, the ability to promote catalytic post-oxidation in the cellular rotor itself is gaining in attractiveness. Over 1 million kilometers have been logged and 13'000 hours recorded in utility vehicles. This demonstrates that technical maturity, a prerequisite for utility fleet applications, has been attained.

The use of alternative fuels and among them the biofuels of 1st generation - fatty acid methyl esters FAME's and pure plants oils - for propulsion of IC engines is an important objective in several countries in order to save the fossil fuels and to limit the CO₂ production. The properties of bio-fuels and bio-blend-fuels can vary and this has an impact on the operation and emissions of diesel engines and on the modern exhaust aftertreatment systems. The present paper represents the most important results obtained with RME at AFHB, EMPA and EC-JRC. Most of the activities were performed in the network project BioExDi (Biofuels, Exhaust Systems Diesel) in collaboration between industry and research institutes.

The Comprex is the first pressure wave machine to reach series maturity. The direct contact between the media exhaust gas and combustion air permits a transfer of energy at high efficiency. Because of its basic characteristics, the pressure wave machine is especially well suited for the supercharging of passenger car diesel engines. It exhibits a spontaneous response and achieves high supercharging rates over a wide operation range, thereby contributing to an improvement in fuel economy. For the purpose of reducing emissions, it offers a simple means of providing EGR, thermal conditioning of the charge air, catalytic aftertreatment of the exhaust gas in the cell wheel and a compact particulate trap arrangement.

The Swiss 1998 Ordinance on Air Pollution Control (OAPC) mandates curtailment of carcinogenic Diesel particle emissions at construction sites [4]. In addition particle traps are compulsory at underground workplaces [3]. In compliance, more than 6,000 Diesel engines were retrofitted with different particle trap systems. Many traps surpassed 99% filtration efficiency, from the beginning, and secondary emissions were mostly prevented. However, trap failure due to mechanical and thermal damage was initially rather high at about 10%. By Y-2000 the failure rate was halved to about 6%. Thanks to focussed improvements, the Y-2003 statistics show yearly failures of “only” about 2%. The Swiss target is to retrofit 15,000 construction machines with traps, fully compliant with environmental directives, having 5,000 operating hours durability and failure rates below 1%. Construction machines have much higher PM-emission factors than trucks, and are operated more intensely than tractors.