What You Can Do With SolidWorks Flow Simulation
With the full SolidWorks Flow Simulation product, you have the following
advanced functionality:
Heat Transfer Analysis
Calculate heat flow in the adiabatic walls approximation
or in solid bodies.
Specify different types of heat sources.
Assign to models a broad range of solid materials
that are stored in the engineering database.
Define your own materials by assigning them values
for physical properties such as thermal conductivity, heat capacity, etc.
Calculate radiation heat. The engineering database
contains radiative surfaces such as Blackbody Wall, Whitebody Wall, Grey
Body with an arbitrary albedo,
and a broad range of surfaces of real materials.
Fluids and Flow Types
Analyze the flow of up to ten fluids of different
types (liquids, gases/steam, real gases, non-Newtonian liquids and compressible
liquids). The database contains numerous fluids with predefined properties.
Analyze a problem with multiple fluids of different
types, provided you separate the areas of the different fluids from each
other using fluid subdomains.
Analyze mutual dissolution of fluids. Mixing fluids
must be of the same type.
Define your own fluids.
Initial Settings
Before you start the calculation, Flow Simulation offers additional
settings. If you set the initial condition values closer to the anticipated
final parameters, calculation performance improves.
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Initial fluid parameters.
You can set these parameters globally. For an assembly, you can set them
locally for a sub-assembly or individual part.
Temperature
Pressure
Flow velocity
Fluid composition
Initial temperature.
Set the initial temperature of a solid.
Initial mesh
parameters. Set additional parameters that control how the analysis
resolves the solid/fluid interface, curved surfaces, narrow channels,
small solid features, etc. You can apply these settings globally or, for
assemblies, to a sub-assembly or an individual part.
Boundary Conditions
You can set these boundary conditions.
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For inlet and outlet:
Mass volume Volume flow Velocity Mach number Static pressure Total pressure Environment pressure Wall pressure |
For inlet only:
Flow velocity profile, swirl, or vector Temperature Composition (for assemblies) Turbulence parameters |
Black Box Entities
To reduce analysis time, Flow Simulation includes several pre-built
"black boxes." Black boxes have tabulated integral input and
output parameters and are included in calculations. Flow Simulation does
not resolve them during an analysis.
Fan.
An idealized fan that is fully defined by its fan curve, which means the
tabulated dependency of volume flow versus pressure drop. You can use
the fan as an inlet, outlet, or internal fan. The database contains fan
curves for selected industrial fans. You can also define fan curves yourself.
Heat Sink.
An idealized fan combined with the heat sink. Flow Simulation defines
the heat sink by the fan curve and the heat resistance curve.
Thermoelectric
Cooler. An idealized Peltier cooling device defined by the maximum
temperature difference it can develop.
Viewing Results
Flow Simulation includes these features to view the results:
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Plots
3D-profile plots
Cut Plots
Surface Plots
XY Plots |
Animations
Flow Trajectories
Goals
Iso surfaces
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Particle studies
Reports
Point, surface, and volume parameters |
You can also obtain the final value of any physical parameter, including
flow rate, pressure drop, etc., at a given point, or the maximum, minimum,
average, or weighted averaged over a surface or volume area.