Fluid : Fluid Liquid PBD

Owned by thomas (Unlicensed)
Last updated: 22 Oct, 2018 by Alex Ribao

This is the place where the type of fluid/material is defined together with its properties.

 

 

All fluid containers inside the field will be affected by the fluid currently selected.

  • Connections to other containers can be established by clicking on "Add". From the appearing list you can choose other nodes.
  • To break a connection select one or more containers from the field and click "Remove".
Fluid Type

There are six different types of fluids and materials. All types, except "Dumb", are GPU-accelerated:

  • "Dumb” particles are often used for spray or foam. These particles cannot react with each other and do not have the characteristic fluid properties, but they are simulated very fast.
  • "Liquid - SPH" is a very accurate fluid solver.
  • "Liquid - PBD" is a very fast fluid type (faster than “Liquid - SPH”).
  • "Granular" is suitable for substances like sand or snow.
  • "Viscous" fluids are suited for substances like caramel, yogurt, oil, or lava.
  • "Viscoelastic" is the choice of materials such as rubber, caoutchouc, silicone, or "memory foam".

Not all materials are able to interact. For a complete list of possible interactions please visit → this page.

Resolution

With this setting you can change the amount of particles. “Resolution” mainly depends on scene scale and emitter scale, but it also affects the material's mass and therefore depends on “Density”, too:

  • With “Resolution” set to 1.0, a volume of 1 m x 1 m x 1 m contains exactly 1,000 particles.
  • The parameter accepts any positive value.
Density

This parameter is defined as mass per volume unit and is different for each substance. “Density” does not change the fluid's behaviour, but it is possible to mix fluids from different domains. This way you are able to simulate substances like oil and water. The unit is kilograms per cubic metre. The density of water is 1,000 kg/m3. Avoid very small values close to 0, because they can lead to instabilities.

Max Particles

Please enter a value to stop emission at a certain amount of particles. "Max particles" is based on the total amount of emitted particles. Let's say you have entered "50,000". If there are currently 1,000 particles in your scene, but you have already deleted 49,000 particles RealFlow will stop the emission.

Compute Vorticity

Vorticity channel computation is disabled by default by default to improve performance. Activate this option before the simulation starts if you need it for → filtering or shading purposes.

Int Pressure

Internal pressure simulates the forces between nearby particles and pushes them apart - this makes the fluid fill a greater volume. The parameter's range goes from 0 to 1.

Ext Pressure Scale

“External Pressure Scale" tries to limit a fluid’s expansion tendency and can be compared to atmospheric pressure. Particles tend to "stick" together with higher values and the parameter's range goes from 0 to 1.

The substeps and iterations settings in the "Scene" node's → "Global" tab influence how this parameter acts on the fluid.

Tensile strength

Higher settings increase a fluid's tendency to contract and form string-like structures in conjunction with "Surface tension". As a side-effect, the fluid's borders become thicker:

  • "Tensile strength" accepts any value between 0 and 10, but should not be greater than 1.
  • To get similar results as with SPH fluids, "Surface tension" can be up to 1000.
Damping

Damping smoothens the relative velocities between nearby particles. A small amount of damping helps to stabilize a simulation, while higher values introduce viscosity to the material. The range goes from 0 to 10.

Surface tension

A fluid's tendency to contract and create drops and tendrils is increased with higher settings. You can enter any positive value and 0. The substeps and iterations settings in the "Scene" node's → "Global" tab influence how this parameter acts on the fluid.

Vorticity boost

To get a more turbulent and water-like fluid, increase this factor, but try to avoid very high values (unless necessary), because they can completely distort the fluid. In many cases, values between 1.0 and 50.0 produce good results. Any positive value is accepted, including 0.