The effects of whirl frequency and lubricant viscosity on the experimental pressure field and film forces in an open-ended squeeze film damper test rig are presented. The measurements refer to circular centered journal motion of amplitude equal to one half the damper clearance (ε = 0.5). The whirl frequency varied between 16 Hz and 85 Hz, while the lubricant temperature increased from 25°C to 45°C. The damper operated with levels of external pressurization that supressed lubricant cavitation. The experimental results show conclusively that the radial film force is purely an inertial effect, i.e., it depends solely on the fluid density and the second power of the whirl frequency. The tangential film force shows a variation that depends on the viscous and inertial flow conditions in the squeeze film region. Correlation of experimental forces with conventional SFD models shows the radial force to be π times larger than the theoretical prediction, while the tangential force correlates well for low whirl frequencies and large lubricant viscosities.
We have identified complex coupled physical processes exist in CO 2 sequestration or development of unconventional resources including shale gas plays and gas hydrate deposits. These coupled physical processes include multiphase flow, geomechanics, and geophysics, which requires a simulator that integrates those individual simulators to understand the complex physics in reservoir engineering. In this study, we first introduce how to integrate the individual existing simulators stably and effectively. Specifically, we focus on a sequential method that can provide numerical stability and accuracy. Then, we introduce an example of electromagnetic application to CO 2 sequestration.
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