Oil change due? Optimal date is to be determined during normal operation
On the other hand, each oil change especially for large equipment is time consuming and expensive. Engineers at Saarland University and the new Center for Mechatronics and Automation (ZeMA) are developing a new method for determining the oil quality during normal operation. The measurement approach will indicate exactly when the oil should be changed. The development will be presented from April 19 to 23 at the Saarland research booth at the Hannover Industrial Trade Fair (Hall 2, Stand C 44).
Today additives are used to make lubricants for gears or hydraulic fluids more durable. However, when the additives are worn out by aging processes, the oil quality will deteriorate rapidly. “Due to this fact the oil is changed very early to prevent damaging the expensive equipment in many applications”, Andreas Schütze, Professor for measurement technology at Saarland University, says. His team is currently developing a measurement cell together with academic and industrial partners, which can be mounted directly in hydraulic systems. Using an infrared light source based on silicon micromachining the oil is screened. An infrared detector determines which wavelengths pass through the fluid. The more the oil is aged the more the detected light pattern is changed. “This allows indicating the optimal time for the next oil change. In addition, we can also determine if the system was contaminated by water”, the engineer explains.
The measurement cell can currently be used up to a pressure of 100 bar. In the future this range will be expanded to address further applications, e.g. in airplane hydraulics. Also the method will be applied to other fluids like alcohol or glycol. “Today laboratory analytical techniques are used to determine the aging of fluids. We are trying to measure the wear during normal operation”, Andreas Schütze says. This is especially important for closed hydraulic systems , e.g. in airplanes. But also application areas like automotive could benefit, if the cell can be produced cheaply in high volumes. “Considering the high oil volumes, e.g. in large hydraulic installations, optimized oil change intervals are not only much more cost effective. The environment will also benefit, by less waste of oil. So the total demand of oil can be reduced and the consumption of this expensive resource is more economic”, Schütze explains.
The method is developed in close cooperation with the new Center for Mechatronics and Automation (ZeMA) in Saarbrücken. The primary goal of ZeMA is application oriented research and the transfer of new methods from academia to industrial application. ZeMA works together with Saarland University, the University of Applied Sciences (HTW) as well with partners from industry. ZeMA addresses challenging projects with the goal of improving the efficiency of industrial processes.
For further questions:
Prof. Dr. Andreas Schütze
Laboratory for Measurement Technology at Saarland University
Phone +49 (0) 681 / 302 4663
E-Mail: schuetze@lmt.uni-saarland.de
Dipl.-Ing. Torsten Bley
Phone +49 (0) 681 / 302 5017
Phone +49 (0) 511 / 89 497101 (at the Hannover Fair booth)
E-Mail: torsten.bley@mechatronikzentrum.de
Dr.-Ing. Alexander Kraus
ZeMA – Zentrum für Mechatronik und Automatisierungstechnik gemeinnützige GmbH
Tel. +49 (0) 681 / 58 67600
E-Mail: info@mechatronikzentrum.de
Information for radio journalists:
You can do phone interviews in studio-quality with scientists from the University of the Saarland, on radio ISDN codec. For interview requests please contact the press office (0681/302-3610)
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