Litcius/Paper detail

Numerical Analysis of Blade Stress of Marine Propellers

Kai Yu, Peikai Yan, Jian Hu

2020Journal of Marine Science and Application13 citationsDOIOpen Access PDF

Abstract

Abstract In this study, a series of numerical calculations are carried out in ANSYS Workbench based on the unidirectional fluid–solid coupling theory. Using the DTMB 4119 propeller as the research object, a numerical simulation is set up to analyze the open water performance of the propeller, and the equivalent stress distribution of the propeller acting in the flow field and the axial strain of the blade are analyzed. The results show that FLUENT calculations can provide accurate and reliable calculations of the hydrodynamic load for the propeller structure. The maximum equivalent stress was observed in the blade near the hub, and the tip position of the blade had the largest stress. With the increase in speed, the stress and deformation showed a decreasing trend.

Topics & Concepts

PropellerWorkbenchBlade (archaeology)Blade element momentum theoryStructural engineeringStress (linguistics)Offshore geotechnical engineeringFluentDeformation (meteorology)Blade element theoryEngineeringCoupling (piping)Computer simulationMarine engineeringMechanicsMechanical engineeringPhysicsGeotechnical engineeringSimulationRotor (electric)Turbine bladeMeteorologyTurbineLinguisticsVisualizationPhilosophyCavitation Phenomena in PumpsShip Hydrodynamics and ManeuverabilitySpacecraft and Cryogenic Technologies