Effect of Lubricant contaminated with Waste Ayurvedic Oil Biodiesel on Tribological Behavior of Cylinder Liner-Piston Ring Tribo pair Material

Depletion of fossil fuels and environmental problems are triggering the researches on alternative fuels. Biodiesel becomes very attractive fuel and easy to produce to replace the commercially available petroleum based fossil fuels. The waste management system and processes play a vital attention to the researchers because the utilization of wastes may lead reduction in the original feed stocks used. Waste oils were high pollutant material that needs responsible management. Waste oil will cause more damages to the environment when it dumped into the ground or into water streams including sewers. Among many waste oils (waste cooking oils, waste transformer oils, waste engine oils) the Waste Ayurvedic Oil (WAO) is observes a major attention as alternate fuels utilized. In a year more than one lakh liters of ayurvedic oil getting wasted in India and to dispose the oil becomes very tedious process. In this article we report the utilization of Waste Ayurvedic Oil energy source as biodiesel for compression ignition engines. The WAO had undergone simple transesterification process to convert as Waste Ayurvedic Oil Methyl Ester (WAOME) and the blends were prepared viz., B10, B15, and B20. Additionally, engine lubricating oil (SAE 15W40) was contaminated with a known percentage of prepared biofuel blends in order to simulate the fuel dilution effect. Further the compatibility of cylinder liner/piston ring tribo pair material is analyzed using Pin-On-Disc Tribometer under standard test condition. The disc was made out of engine cylinder liner material (i.e.) AISI-316 and the pin was made out of piston ring material (i.e.) AISI-304. The tribological experiments were carried out in accordance with ASTM G99 with an applied load of 5Kg; sliding speed 300 rpm and for the period of one hour. Under similar experimental conditions, B20 blend exhibited excellent tribological behavior in comparison with the other blends and diesel. The wear surfaces of pin morphology were examined using Scanning Electron Microscopy (SEM). The image gives a positive impact that the compatibility of pin material was good and less wear scars were observed in blend B20 than other blends and diesel. Thus, the results prove that the liner ring pair material of AISI-316 and AISI-304 along with WAOME Blended fuel were adaptable for diesel engines. (C) 2017 Elsevier Ltd. All rights reserved. Selection and/or Peer-review under responsibility of International Conference on Materials Manufacturing and Modelling (ICMMM - 2017).