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Charakterystyki obciążeniowe turbodoładowanego silnika 1.3 Multijet

Ambrozik A., Ambrozik T., Kurczyński D., Łagowski P., Suchecki A.

Postępy Nauki i Techniki

2012

Nr 15

7-20

W artykule przedstawiono wyniki hamownianych badań silnika o zapłonie samoczynnym 1.3 Multijet z wieloetapowym wtryskiem paliwa produkowanego w Polsce przez Firmę Fiat-GM Powertrain Polska. Badania przeprowadzono na stanowisku hamownianym zbudowanym w Laboratorium Silników Cieplnych Politechniki Świętokrzyskiej. Zakres badań obejmował wyznaczenie wskaźników ekonomiczno-energetycznych silnika oraz jego wskaźników ekologicznych takich jak stężenia NOx, CO i CO2 oraz stopień zadymienia spalin. Podczas badań silnik pracował według charakterystyk obciążeniowych przy prędkościach obrotowych wału korbowego: n = 1200, 1750, 2400, 3800, 4000 i 4200 obr/min. Prędkości te wybrano ze względu na realizację w badanym silniku wieloetapowego wtrysku paliwa oraz ze względu na możliwości rozwijania przez silnik maksymalnego momentu obrotowego Mo = 200 Nm, przy prędkości obrotowej wału korbowego n = 1750 obr/min oraz maksymalnej mocy Ne = 66 kW osiąganej przy n = 4000 obr/min.

The paper presents the results of test bench investigations into compression ignition 1.3 Multijet engine with multistage fuel injection, which is manufactured in Poland by Fiat-GM Powertrain Polska Company. The tests were conducted at the stand constructed at the Heat Engines Laboratory of the Kielce University of Technology. The scope of investigations included determining economic and energetic parameters of the engine work, and also environmental parameters, such as the concentration of nitrogen oxides NOx, carbon monoxide CO and carbon dioxide CO2 in exhaust gases and exhaust gas smokiness. During the tests, the engine operated under load conditions at the crankshaft rotational speed: n = 1200, 1750, 2400, 3800, 4000 and 4200 rpm. Such values of speed were selected because of the multi-stage fuel injection and the engine's being able to reach the maximum torque Mo = 200 Nm at the crankshaft rotational speed n = 1750 rpm and the maximum power output Ne = 66 kW, delivered at n = 4000 rpm.

External speed characteristics in engine with multi-stage fuel injection

Ambrozik A., Ambrozik T., Kurczyński D., Łagowski P.

Journal of KONES

2010

Vol. 17, No. 1

9-16

Increasingly higher demands pnt on piston internal combustion engines arę aimed at reducing their harmful impact on the natural environment. This refers primarily to nitrogen oxides, particulate matter and noise emissions. The reduction in emissions ofnoxious components oj exhaust gases in engines is achieved by means of, among others, the use of catalysts decreasing nitrogen oxide emissions, particulate matter filters and oxidising catalysts decreasing carbon monoxide and hydrocarbon emissions. Common Rail injection systems make it possible to increase the engine power, and to reduce fuel consumption, exhaust gas toxicity and noise produced by engines. With Common Rail systems, the pattern of fuel injection process can be designed, consequently the combustion process can be controlled. The paper presents the results of test bench investigations into a compression ignition 1.3 Multijet engine with multistage fuel injection, which is manufactured in Poland by Fiat-GM Powertrain Polska Company. The tests were conducted at a stand constructed at the Heat Engines Laboratory ofthe Kielce University of Technology. The scope of investigations included determining economic and energetic parameters of the engine work, and also environmental parameters, such as the concentration of nitrogen oxides NOX, carbon monoxide CO and carbon dioxide CO2 in exhaust gases, and exhaust gas smokiness. In tests, the engine operated under speed conditions and it was fuelled by two commercial diesel oils that had different physical and chemical properties.