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The dynamic monitoring of oil consumption in IC engines is approached with various techniques ranging from radioactive counting to detection of halogenated tracer compounds or polyaromatic hydrocarbon tracers, to monitoring unburned hydrocarbons as residues from engine oil. This article discusses the method of gaseous SO2 measurement in raw exhaust it's benefits and limitations of today’s status. Modern engines consume about 2 to 5 g/h of engine oil under low and medium load but consumption may go up to 130 g/h in negative load conditions. Particulate filters must be desulfated every 5000 km even when sulfur free fuel is in use. For the oil measurement in the raw exhaust all possible Sulfur compounds are converted to SO2 in a hot oxidizing atmosphere. Additional pure oxygen in the form of ozone is added to the oxidizer for very low lambda engine conditions and the conversion of sulfur on particulates into SO2. A sensitive mass spectrometer operating in an ion molecule ionization mode measures gaseous SO2 from concentrations of 0.02 ppm to 50 ppm in measurement cycles from 2 Hz to 0.2 Hz depending on if long term measurement or dynamic operation is chosen. Technical description of pressure reduction, gas transfer, oxidation efficiencies and lower detection levels of the instrumentation are given as well as data on a complete engine map and data on reproducibility of the SO2 method are presented.
Czasopismo
Rocznik
Tom
Strony
34--38
Opis fizyczny
Bibliogr. 11 poz., wykr.
Twórcy
autor
- Research and Application development, V&F Analysetechik Austria
autor
- Design, production, electronic and mechanical development, V&F Analysetechik Austria
autor
- Commercial Management, V&F Analysetechik Austria
autor
- Application development, V&F Analysetechik Austria
Bibliografia
- [1] Method of Measuring Oil Consumption in an Engine, J Mayer et al. 1969, General Motors cooperation, Detroit, patent.
- [2] Püffel, K., Thiel, W., Boesl, U. Application of a New Method for On-Line Oil Consumption Measurement. SAE Tech. Paper, 1991-01-3460, doi:10.4271/1999-01-3460.
- [3] Püffel, P., Thiel, W., Frey, R., Boesl, U. A New Method for the Investigation of Unburned Oil Emissions in the Raw Exhaust of SI Engines. SAE Tech. Paper, 1998, 982438, doi: 10.4271/982438.
- [4] Püffel, P. Reonante Lasermassenspektrometrie zum Spurennachweis von Ölbestandteilen in Abgasen von Verbrennungsmotoren. Herbert Utz Verlag, München, 1998.
- [5] Dibromenaphtalene as tracer in engine oil for cold start oil consumption measurements. V&F Analysetechnik 1996.
- [6] Gohl, Matz Oil consumption measurement by heavy hydrocarbon analysis in raw exhaust. University Hamburg Harburg 2005.
- [7] Artmann, C., Rabl, H.P. Thesis: Evaluation of SO2 in raw exhaust of IC engines for oil consumption monitoring 2012 Technische Hochschule Regensburg.
- [8] Da Vinci. Emissions Services Ltd. www.davinci-limited. com
- [9] Spandan, A.V., Singh, O.P., Singanamalli, A., Marudachalam, K. A Simple and Accurate Experimental Method for Measurement of Engine Oil Consumption. AMAE Int. J. on Manufacturing and Material Science 1(2), 2011, doi: 01.IJMMS.01.02.525.
- [10] Villinger, J., Federer, W., Resch, R., Dornauer, A., Lubich, M., Sejkora, W. SIMS 500 – Rapid Low Energy Secondary Ion Mass Spectrometer for In-Line Analysis of gaseous Compounds – Technology and Applications in Automotive Emission Testing. SAE Tech Paper 932017. doi:10.4271/932017.
- [11] Villinger, J., Federer, W., Dornauer, A., Weissnicht, A., Hönig, M., Mayr, T. Dynamic Monitoring of Differentiated Hydrocarbons in Direct Engine Exhaust: A Versatile Tool in Engine Development. SAE Technical Paper 960063, doi: 10.4271/960063.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-09e80bf1-76be-4313-9680-15c73b20f13e