The Polymer Flow Module has a range of physics interfaces to use for fluid flow in a variety of circumstances. Often the selection of a particular physics interface implies certain assumptions about the equations of flow. If it is known in advance which assumptions are valid, then the appropriate physics interface can be added. However, when the flow type is unclear from the outset, or if it is difficult to reach a solution easily, starting with a simplified model and adding complexity subsequently is often a good approach. Using this approach, the results of a simulation are tested against the underlying assumptions and against experimental results, and the simulation can then be refined if necessary. For complex models it is often beneficial to take this approach even when the fluid flow is well characterized from the outset because a model with simplifying assumptions can be easier to solve initially. The solution process can then be fine-tuned for the more complex problem. Typically, The Laminar Flow Interface is a good starting point for problems involving Newtonian and inelastic non-Newtonian fluids, whereas The Viscoelastic Flow Interface must be chosen for problems involving viscoelastic non-Newtonian fluids.

The following sections describe the options available for simulating Single-Phase Flow, Multiphase Flow, Chemical Species Transport, and Heat Transfer and Nonisothermal Flow.