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Mesh independence study 6

Study 6 J:0.497 lvl 7 (9 boundary layers) - s6 l7 - SimulationRun

3D

Study 6 J:0.497 lvl 6 (8 boundary layers) - s6 l6 - SimulationRun

3D

Study 6 J:0.497 lvl 5 (7 boundary layers) - s6 lvl 5 - SimulationRun

3D

Study 6 J:0.497 lvl 4 (6 boundary layers) - 6 lvl 4 - SimulationRun

3D

Study 6 J:0.497 lvl 3 (5 boundary layers) - 6 lvl 3 - SimulationRun

3D

Study 6 J:0.497 lvl 2 (4 boundary layers) - 6 lvl 2 - SimulationRun

3D

Study 6 J:0.497 lvl 1 (3 boundary layers) - 6 lvl 1 - SimulationRun

3D

APCSLO838_-_TE_LE_refine - Geometry

3D

APC-SF-8x38 - Geometry

3D

307

1

Created

7 years ago

Last modified

5 years ago

Statistics

2 Geometries

7 Meshes

7 Simulation setups

7 Results

About this project

This project is intended towards validating the performance of a generic propeller geometry. Such a validation project enables the user to enhance their knowledge in leveraging CFD for modelling the performance of an existing drone or estimating the design parameters such as motor size, material property requirements, etc. during the development phase of a drone.

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Project History

Filiptheking created this project
7 years ago