烟雾场

Reference

Panel:Physics ‣ Smoke
Type:Domain

The domain object contains the entire simulation. Smoke and fire cannot leave the domain,it will either collide with the edge or disappear, depending on the domain's settings.

Keep in mind that large domains require higher resolutions and longer bake times.You will want to make it just large enough that the simulation will fit inside it,but not so large that it takes too long to compute the simulation.

To create a domain, add a cube Add ‣ Mesh ‣ Cube, Shift-Aand transform it until it encloses the area where you want smoke. Translation, rotation,and scaling are all allowed. To turn it into a smoke domain, click Smoke_in Properties ‣ Physics, then select _Domain as the Smoke Type.

Note

You can use other shapes of mesh objects as domain objects,but the smoke simulator will use the shape's bounding boxas the domain bounds. In other words, the actual shape of the domain will still be rectangular.

../../../_images/physics_smoke_types_domain_settings.pngSmoke Domain options.

Options

  • Resolution
  • The smoke domain is subdivided into many "cells" called voxels (see voxel)which make up "pixels" of smoke. This setting controls the number of subdivisions in the domain.Higher numbers of subdivisions are one way of creating higher resolution smoke (see Smoke High Resolution).

Since the resolution is defined in terms of subdivisions,larger domains will need more divisions to get an equivalent resolution to a small domain.

Also see Note on Divisions and High Resolution.

  • Time Scale
  • Controls the speed of the simulation. Low values result in a "slow motion" simulation,while higher values can be used to advance the simulation faster(useful for generating smoke for use in still renders).
  • Border Collisions
  • Controls which sides of the domain will allow smoke "through" the domain,making it disappear without influencing the rest of the simulation,and which sides will deflect smoke as if colliding witha Collision Object.

    • Vertically Open
    • Smoke disappears when it hits the top or bottom of the domain, but collides with the walls.
    • Open
    • Smoke disappears when it hits any side of the domain.
    • Collide All
    • Smoke collides with all sides of the domain.
  • Density
  • Controls how much smoke is affected by density.

    • Values above 0 will cause the smoke to rise (simulating smoke which is lighter than ambient air).
    • Values below 0 will cause smoke to sink (simulating smoke which is heavier than ambient air).
  • Temperature Difference
  • The Temperature Difference setting controls how much smoke is affected by temperature.

The effect this setting has on smoke depends onthe per flow object Temperature Difference:

  • Values above 0 will result in the smoke rising when the flow object Temperature Difference isset to a positive value, and smoke sinking when the flow object Temperature Difference isset to a negative value.
  • Values below 0 will result in the opposite of positive values, i.e.smoke emitted from flow objects with a positive Temperature Difference will sink,and smoke from flow objects with a negative Temperature Difference will rise.Note that smoke from multiple flow objects with different temperatureswill mix and warm up/cool down until an equilibrium is reached.
  • Vorticity
  • Controls the amount of turbulence in the smoke. Higher values will make lots of small swirls,while lower values make smoother shapes.

../../../_images/physics_smoke_types_domain_vorticity.jpgComparison of different amounts of vorticity. The domain on the left has a vorticity of 3,while the domain on the right has a vorticity of 0.01.

  • Dissolve
  • Allow smoke to dissipate over time.
  • Time
  • Speed of smoke's dissipation in frames.
  • Slow
  • Dissolve smoke in a logarithmic fashion. Dissolves quickly at first, but lingers longer.

Smoke Flames

Reference

Type:Domain
Panel:Physics ‣ Smoke Flames
  • Speed
  • How fast fuel burns. Larger values result in smaller flames (fuel burns before it can go very far),smaller values result in larger flames (fuel has time to flow farther before being fully consumed).
  • Smoke
  • Amount of extra smoke created automatically to simulate burnt fuel.
  • Vorticity
  • Additional vorticity for flames.
  • Ignition
  • Minimum temperature of flames.
  • Maximum
  • Maximum temperature of flames.
  • Smoke Color
  • Color of smoke created by burnt fuel.

Smoke Adaptive Domain

Reference

Type:Domain
Panel:Physics ‣ Smoke Adaptive Domain

When enabled, the domain will adaptively shrink to best fit the smoke,saving computation time by leaving voxels without smoke out of the simulation.Unless the Additional option is used, the adaptive domain will not exceed the bounds of the original domain.

  • Additional
  • Number of voxels to add around the outside of the domain.
  • Margin
  • Amount of extra space to leave around smoke, measured in voxels.With very fast-moving smoke larger margins may be required to prevent the smoke from being cut offby the adaptive boundary, but note this will increase the number of voxels which need to be computed.
  • Threshold
  • Smallest amount of smoke a voxel can contain before it is considered emptyand the adaptive domain is allowed to cut it out of the simulation.

Smoke High Resolution

Reference

Type:Domain
Panel:Physics ‣ Smoke High Resolution

The High Resolution option lets you simulate at a low resolution and then it uses noise techniquesto enhance the resolution without actually computing it. This allows animators to set up a lowresolution simulation quickly and later add details without changing the overall fluid motion.Also see Note on Divisions and High Resolution.

  • Resolution: Divisions
  • Factor by which to enhance the resolution of smoke using the specified noise method.
  • Show High Resolution
  • Show the high resolution version in the viewport (may cause viewport responsiveness to suffer).
  • Noise Method
  • The two options, Wavelet and FFT, are very similar.

../../../_images/physics_smoke_types_domain_high-resolution-method.jpgComparison of noise methods. Wavelet on the left, FFT on the right.

Note

Wavelet is an implementation of Turbulence for Fluid Simulation.

  • Strength
  • Strength of noise.

../../../_images/physics_smoke_types_domain_high-resolution-strength.jpgFrom left to right, the domains' high resolution strengths are set to 0, 2, and 6.

Smoke Groups

Reference

Type:Domain
Panel:Physics ‣ Smoke Groups
  • Flow Group
  • If set, only objects in the specified Groupwill be allowed to act as flow objects in this domain.
  • Collision Group
  • If set, only objects in the specified Groupwill be allowed to act as collision objects in this domain.

Smoke Cache

Reference

Type:Domain
Panel:Physics ‣ Smoke Cache

See Baking.

Smoke Field Weights

Reference

Type:Domain
Panel:Physics ‣ Smoke Field Weights

These settings determine how much gravity and Force Fields affect the smoke.

  • Effector Group
  • When set, smoke can only be influenced by force fields in the specified group.
  • Gravity
  • How much the smoke is affected by Gravity.
  • All
  • Overall influence of all force fields.The other settings determine how much influence individual force field types have.

../../../_images/physics_smoke_types_domain_force-field-demo.jpgSmoke with a wind force field.

Note on Divisions and High Resolution

High Resolution Divisionsand Domain Subdivisions are not equivalent.By using different combinations of these resolution settings, you can obtain a variety of different styles of smoke.

../../../_images/physics_smoke_types_domain_high-resolution-comparison.jpgComparison between a domain with 24 divisions and 4 High Resolution divisions (left),and a domain with 100 divisions and 1 High Resolution division (right).

Low division simulations with lots of _High Resolution_divisions generally appear smaller in real-world scale(larger flames, etc.) and can be used to achieve pyroclastic plumes such as this:

../../../_images/physics_smoke_types_domain_note-on-resolution.jpg

High Domain Division simulations tend to appear larger in real-world scale, with many smaller details.