Скачать или смотреть Ship Hull Propeller KWDES Transient CFD Simulation | Ship Hull CFD Simulation | CFD Support

Ship Hull Propeller KWDES Transient CFD Simulation | Ship Hull CFD Simulation | CFD Support
Ship Hull with Propeller. When designing and simulating a ship propeller, the first step is to consider the speed, size, and weight of the vessel, as well as the type of material and water conditions. With this information, engineers can narrow down the range of design parameters needed, such as the number of blades and the diameter and pitch of each blade. Once a broad design is selected, engineers then need to turn to specialized software in order to create a virtual model of the propeller. This model will include parameters such as fluids, mass, torque, and force data, as well as velocity. The model then needs to be tested against the environmental conditions of the water in which the propeller will be used, such as temperature, ocean current, and wave height. By entering their design parameters into the simulation software, engineers can then adjust elements of the design and observe how changes in one component will affect other areas, allowing for a more precise design. This process of refinement may be done iteratively until an optimal solution is found. Once the simulation is complete, a physical prototype of the propeller can then be constructed. This prototype can then be tested in a water tunnel or other environment for practical performance testing. Feedback from the prototype testing can then be incorporated into the design, further refining the simulation and its results. Overall, propeller design and simulation is an iterative process that combines engineering principles common to all kinds of engineering, together with specialized software and hardware, in order to create solutions that are tailored to the task at hand. CFD & FEA + FSI simulation. By TCAE.
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