Thermal Behavior of Radial Foil Bearings Supporting an Oil-Free Gas Turbine: Design of the Cooling Flow Passage and Modeling of the Thermal System

Abstract: Gas foil bearings (GFBs) have many noticeable advantages over the conventional rigid gas bearings, such as frictional damping of the compliance structure and tolerance to the rotor misalignment, so they have been successfully adopted as the key element that makes possible oil-free turbomachinery. As the adoption of the GFB increases, one of the critical elements for its successful implementation is thermal management. Even though heat generation inside the GFB is small due to the low viscosity of the lubricant… Show more

“…Zhang et al 20 proposed a thermohydrodynamic model to calculate the heat transfer through the rotor shell to the surrounding ambient. Lee et al 21 developed a 3D thermohydrodynamic model considering the surrounding structure and a secondary flow cooling passage for the journal foil bearing. Guo et al 22 applied both the multi-leaf foil journal and thrust bearings in the high-speed turbomachinery.…”

Numerical and experimental studies on the thermal and static characteristics of multi-leaf foil thrust bearing

“…Zhang et al 20 proposed a thermohydrodynamic model to calculate the heat transfer through the rotor shell to the surrounding ambient. Lee et al 21 developed a 3D thermohydrodynamic model considering the surrounding structure and a secondary flow cooling passage for the journal foil bearing. Guo et al 22 applied both the multi-leaf foil journal and thrust bearings in the high-speed turbomachinery.…”

Numerical and experimental studies on the thermal and static characteristics of multi-leaf foil thrust bearing

Fluid-solid coupled simulation on thermal management of hydrodynamic gas foil bearing with an axial cooling throughflow

Trends and advances in micro gas turbine technology for sustainable energy solutions: A detailed review