Prediction of Gas Thrust Foil Bearing Performance for Oil-Free Automotive Turbochargers

Abstract: Green technologies are a mandate in a world concerned with saving resources and protecting the environment. Oil-free turbocharger systems for passenger and commercial vehicles dispense with the lubricant in the internal combustion engine, hence eliminating not just oil coking, but also suppressing nonlinear behavior, instability and excessive noise; all factors to poor reliability and premature mechanical failure. The work hereby presented is a stepping stone in a concerted effort towards developing a computat… Show more

“…There is good agreement between predicted and measured data for small to moderate loads. This is also reported by San Andrés et al [26] where it is also noted that the rapid increase in drag at the highest applied load in the tests is caused by rubbing contact between the top foil and the shaft collar. Simulations for these highest load values are not performed.…”

“…[96]. This approach is widely used in literature [26]. However, it was found that these models tend to underestimate the magnitude of the bump foil stiffness, since the interactions between bumps are not considered.…”

“…Since air was used as operating fluid in these experiments, viscous heating effects will be low, and the results can be used as a test case for fluid-structure coupled simulation of foil thrust bearings. [26]. Dickman [73] did not release all information about the tested foil thrust bearings so some geometric items in Table 2.1 have been obtained from San Andrés et al [26].…”

“…[26]. Dickman [73] did not release all information about the tested foil thrust bearings so some geometric items in Table 2.1 have been obtained from San Andrés et al [26].…”

“…This approach provided a significant performance improvement in efficiency, speed, Introduction and reliability. The typically applications of foil bearings are in ranging from the magnetic disk drive read/write heads in personal computers to the air cycle machines (aeroengine and turbochargers) [26].…”

Development and application of multiphysics simulation tools for foil thrust bearings operating with carbon dioxide

“…There is good agreement between predicted and measured data for small to moderate loads. This is also reported by San Andrés et al [26] where it is also noted that the rapid increase in drag at the highest applied load in the tests is caused by rubbing contact between the top foil and the shaft collar. Simulations for these highest load values are not performed.…”

“…[96]. This approach is widely used in literature [26]. However, it was found that these models tend to underestimate the magnitude of the bump foil stiffness, since the interactions between bumps are not considered.…”

“…Since air was used as operating fluid in these experiments, viscous heating effects will be low, and the results can be used as a test case for fluid-structure coupled simulation of foil thrust bearings. [26]. Dickman [73] did not release all information about the tested foil thrust bearings so some geometric items in Table 2.1 have been obtained from San Andrés et al [26].…”

“…[26]. Dickman [73] did not release all information about the tested foil thrust bearings so some geometric items in Table 2.1 have been obtained from San Andrés et al [26].…”

“…This approach provided a significant performance improvement in efficiency, speed, Introduction and reliability. The typically applications of foil bearings are in ranging from the magnetic disk drive read/write heads in personal computers to the air cycle machines (aeroengine and turbochargers) [26].…”

Development and application of multiphysics simulation tools for foil thrust bearings operating with carbon dioxide

Estimation of friction losses in oil-free turbomachinery