Stefan Heitzig
Institute for Fluid Power Drives and Controls (IFAS), RWTH Aachen University, Aachen, Germany
S. Drumm
Institute for Fluid Power Drives and Controls (IFAS), RWTH Aachen University, Aachen, Germany
Hubertus Murrenhoff
Institute for Fluid Power Drives and Controls (IFAS), RWTH Aachen University, Aachen, Germany
Ladda ner artikelhttp://dx.doi.org/10.3384/ecp1392a43Ingår i: 13th Scandinavian International Conference on Fluid Power; June 3-5; 2013; Linköping; Sweden
Linköping Electronic Conference Proceedings 92:43, s. 437-446
Publicerad: 2013-09-09
ISBN: 978-91-7519-572-8
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
In the scope of the cluster of excellence "Tailor-Made Fuels from Biomass" new biofuels are developed within an interdisciplinary research approach at RWTH Aachen University. The most promising fuel candidates so far tend to have a low viscosity and a low lubricity compared to diesel fuel. It is the task of the authors to develop a guideline for designing injection systems that are especially adapted to these fuels. The main focus is on high pressure pump within common rail systems. In this paper; the effects of those fuel candidates on the tribological contacts in standard common rail pumps are investigated by means of experiments and simulations. On the experimental side a test rig is presented; which allows the measurement of the transversal force on a piston and the friction force; which occur in the piston/bushing- contact. On the simulation side; elastohydrodynamic simulation models of several tribological contacts within the standard pump are presented. Results of simulation and measurement are presented
Elastohydrodynamic simulation; friction forces; tribological contacts; common rail pump; fuels; journal bearings
[1] A Fatemi; K Mausch; H Murrenhoff; K Leonhard. Experimental investigation and theoretical prediction of the lubricity of biofuel components. In: Fluid power and motion control: (FPMC 2010). Basildon : Hadleys; 2010. – ISBN 978–0–86197–181–4; pp. 39–51
[2] K Mausch; A Fatemi; H Murrenhoff; K Leonhard. A COSMO-RS based QSPR model for the lubricity of biodiesel and petro-diesel components. In: Lubrication Science 23 (2011); Nr. 6; pp. 249–262. – ISSN 1557–6833
[3] K Reif. Moderne Diesel-Einspritzsysteme. Wiesbaden : Vieweg + Teubner Verlag / GWV Fachverlage GmbH; 2010. – ISBN 978–3834813121
[4] K-Th Renius. Untersuchungen zur Reibung zwischen Kolben und Zylinder bei Schrägscheiben-Axialkolbenmaschinen. In: VDI Forschungsheft 561; VDI-Verlag; Düsseldorf; 1974
[5] O Koehler. Anlaufreibungsverluste eines Schrägscheiben-Axialkolben-Motors. In: Ölhydraulik und Pneumatik Nr. 31; Jahrgang 11; 1987
[6] S Donders. Kolbenmaschinen für HFA-Flüssigkeiten – Verlustanteile einer Schrägscheibeneinheit. Verlag Mainz; Aachen; 1998
[7] A Kleist. Berechnung von Dicht- und Lagerfugen in hydrostatischen Maschinen. Shaker Verlag; Aachen; 2002
[8] R Lasaar. Eine Untersuchung zur mikro- und makrogeometrischen Gestaltung der Kolben-/Zylinderbaugruppe von Schrägscheibenmaschinen. VDI Verlag; Düsseldorf; 2003
[9] D Breuer. Reibung am Arbeitskolben von Schrägscheibenmaschinen im Langsamlauf. Shaker Verlag; Aachen; 2007
[10] S Drumm; S Heitizg; H Murrenhoff. Friction measurement of plunger bushing contact in fuel injection pumps. Proc. of Bath/ASME Symposium on Fluid Power & Motion Control; ISBN: 978-0-86197-187-9; S./Art.: 51-58
[11]G Knoll; R Schönen; K Wilhelm. Full Dynamic Analysis of Crank-shaft and Engine Block with Special Respect to Elastohydrodynamic Bearing Coupling. In: Proceedings of the ASME Internal Combustion Engine (ICE) Division Meeting Bd. 28; 1997; pp. 1–8
[12]R Schönen. Strukturdynamische Mehrkörpersimulation des Verbrennungsmotors mit elastohydrodynamischer Grundlagerkopplung. Kassel: Kassel Univ. Press; 2003 (Fortschrittsberichte Strukturanalyse und Tribologie; Teil 15). – ISBN 3–89958–507–0
[13]N Patir; H S Cheng. Application of Average Flow Model to Lubrication Between Rough Sliding Surfaces. In: Journal of Lubrication Technology 101 (1979); Nr. 2; pp. 220–229
[14]S Drumm; A Wohlers; A Fatemi; H Murrenhoff. Viscosity and bulk modulus measurements under high pressure conditions. In: Society of Tribologists and Lubrication Engineers annual meeting and exhibition 2010: Las Vegas; Nevada; USA; 16 - 20 May 2010. Red Hook; NY : Curran; 2010. – ISBN 978–1–61738–727–2; pp. 413–416
[15] S Heitzig; S Drumm; L Leonhard; H Murrenhoff; J Lang; G Knoll. Simulative Analysis of the Tribological Contacts of Common Rail Injection Pumps Lubricated by Tailor-Made Biofuels. In: Tribologie und Schmierungstechnik
[16] S. M. Drumm. Entwicklung von Messmethoden hydraulischer Kraftstoffeigenschaften unter Hochdruck. Shaker Verlag; Aachen; 2012
[17]T. Illner;. Oszillierendes kippbewegliches Axialgleitlager bei Grenzreibung und Kraftstoffschmierung. Shaker Verlag; Aachen; 2010
[18]J Blume. Druck- und Temperatureinfluß auf Viskosität und Kompressibilität von flüssigen Schmierstoffen; RWTH Aachen; Diss.; 1987