Abstract
Abstract The recent supercritical CO2 (sCO2) power turbine configuration development introduced a cooling zone parametric model to overcome the existing technical challenges. The parametric model is the annulus cooling passage with a supercritical CO2 coolant consisting of radial clearance, length, and shaft diameter are the geometrical parameters. This study aims to investigate the pressure profile and stiffness coefficient of the cooling passage using computational fluid dynamics and to explore the validity of the assumptions that exist in the simplified analysis. The effect of eccentricity ratio, shaft speed, and axial length are investigated. The result showed that, like the hydrodynamic bearing, the supercritical CO2 swirling in the annulus passage produces substantial mechanical support on the shaft. Hence, the cooling zone stiffness contribution should be included in the supercritical CO2 turbine shaft vibration analysis which is not presently taken into consideration.
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