# Uniform Refinement
Uniform refinement creates regions of consistent mesh resolution, particularly useful for capturing off-body flow features such as wakes, shocks, and vortices, while maintaining computational efficiency in regions of uniform flow.
# Available Options
| Option | Description |
|---|---|
| Spacing | Target mesh spacing in the region |
| Assigned boxes and cylinders | Target volumes for refinement application |
# Detailed Descriptions
# Spacing
Defines the uniform mesh spacing within the refinement region.
- Required
- Example:
0.1 m
Note: Should be chosen based on flow feature size and resolution requirements.
# Assigned boxes and cylinders
Specifies the volumes where uniform refinement will be applied.
- Required
Notes:
- Must reference valid box or cylinder entities in the geometry.
- Assign the entity by selecting from the list using the + button or select graphically in the viewer region.
💡 Tips
- Size refinement region 10% larger than expected flow feature
- Extend wake regions 2-3 characteristic lengths downstream
- Align refinement with expected shock angles
- Use
times surface spacing for near-body regions - Consider flow direction when positioning refinement regions
❓ Frequently Asked Questions
How do I size uniform refinement regions?
Consider the expected size of flow features and extend 10% beyond to ensure complete capture.
What happens if uniform refinements overlap?
The finest (smallest) spacing will be applied in overlapping regions.
🐍 Python Example Usage
from flow360 import UniformRefinement, u
# Wake region refinement
wake_ref = UniformRefinement(
name="wake_region",
entities=[wake_box],
spacing=0.1 * u.m
)
# Shock region refinement
shock_ref = UniformRefinement(
name="shock_region",
entities=[shock_box],
spacing=0.05 * u.m # Finer spacing for shock resolution
)
# Near-body refinement
near_body_ref = UniformRefinement(
name="near_body",
entities=[near_body_box],
spacing=0.02 * u.m # √3 times surface spacing
)