Abstract
An important parameter in the reduction of fuel consumption of heavy-duty diesel engines is the Power Cylinder Unit (PCU); the PCU is the single largest contributor to engine frictional losses. Much attention, from both academia and industry, has been paid to reducing the frictional losses of the PCU in the boundary and mixed lubrication regime. However, previous studies have shown that a large portion of frictional losses in the PCU occur in the hydrodynamic lubrication regime. A novel texturing design with large types of surface features was experimentally analyzed using a tribometer setup. The experimental result shows a significant reduction of friction loss for the textured surfaces. Additionally, the textured surface did not exhibit wear. On the contrary, it was shown that the textured surfaces exhibited a smaller amount of abrasive scratches on the plateaus (compared to the reference plateau honed surface) due to entrapment of wear particles within the textures. The decrease in hydrodynamic friction for the textured surfaces relates to the relative increase of oil film thickness within the textures. A tentative example is given which describes a method of decreasing hydrodynamic frictional losses in the full-scale application.
Highlights
Tremendous demands are put on the combustion engines of today
The results from this study suggest that friction can be reduced in the hydrodynamic lubrication regime by the use of textured surfaces
T100-1 T100-2 T100-3 (c) surfaces is textured, the problem has to be divided into two perspectives: either the contact is between the plateaus of the two surfaces or the contact is between the plateau part of the piston ring and the texture element of the textured surface
Summary
Tremendous demands are put on the combustion engines of today. A significant parameter, perhaps the most significant parameter within engine development, is the reduction of fuel consumption and CO2 emission. Reducing frictional losses in the combustion engine means a reduction in CO2 emission. The largest contributor to frictional losses in the engine is the Power Cylinder Unit (PCU); around 50% of the total frictional losses in the engine can be attributed to the PCU [1,2,3,4] Much attention, from both academia and industry, has been paid to reducing the frictional losses in the boundary and mixed lubrication regime [5,6,7,8]; previous studies [9, 10] have shown that a large portion of the frictional losses in the engine occur in the hydrodynamic lubrication regime. There are several known techniques for reducing the hydrodynamic losses; a reduction can be effected, there are disadvantages:
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