![Simulation Simulation](https://c.radikal.ru/c02/1903/07/f095015adddf.jpg)
Go to ansys academic site, where you can get ansys student version for free.
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. Initial fluid parametersYou can set these parameters globally. For an assembly, you can set them locally for a subassembly or individual part. Temperature. Pressure. Flow velocity. Fluid compositionInitial temperatureSet the initial temperature of a solid.Initial mesh parametersSet additional parameters that control how the analysis resolves the solid/fluid interface, curved surfaces, narrow channels, small solid features, etc.
![Solidworks Flow Simulation Torrrent Solidworks Flow Simulation Torrrent](/uploads/1/2/5/4/125428873/854678337.jpg)
You can apply these settings globally or, for assemblies, to a subassembly or an individual part. FanAn 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 SinkAn idealized fan combined with the heat sink.
Flow Simulation defines the heat sink by the fan curve and the heat resistance curve.Thermoelectric CoolerAn idealized Peltier cooling device defined by the maximum temperature difference it can develop.