Mini-projects with ANSYS Student license
Mini-projects with ANSYS Student license
Embedded Files
Heat-exchanger
Heat-exchanger
Physics: Steady incompressible internal flow.
Turbulence: 5% at inflow, solved with k-epsilon realizable model.
Mesh cell count: 297.504.
Description: Heat transfer analysis on the cooling fluid of a heat-exchanger of 186kW capacity. Entry liquid-water flow of 1 kg/s @ 300K (Re = 35200) and inner tubes at 450 K.
Cyclone
Cyclone
Physics: Steady incompressible internal flow.
Turbulence: 5% at inflow, solved with k-epsilon realizable model.
Mesh cell count: 96,131.
Description: Cyclone of D = 2.42 m and length L = 9.68 m with air entry of 6.1 m3/s. Fully 3D simulation.
Pump
Pump
Physics: Steady MRF incompressible internal flow.
Turbulence: 5% at inflow, solved with k-omega-SST.
Mesh cell count: 400,000.
Description: [CFX] Centrifugal pump for water flux of 85 kg/s @ 1bar, 1500 rpm. Fully 3D simulation.
Compressor
Compressor
Physics: Steady MRF compressible internal flow.
Turbulence: 5% at inflow, solved with k-epsilon model.
Mesh cell count: 400,000.
Description: [CFX] Centrifugal air compressor design of PR = 2.0 and 12000 rpm. Partial solution achieved by solving a 1/5 of the domain.
Mixing-elbow
Mixing-elbow
Physics: Steady incompressible internal flow.
Turbulence: Laminar approach.
Mesh cell count: 86,424.
Description: Mix of liquid water, main entry of 20 m/s @ 60ºC and small injection pipe of 30 m/s @ 100ºC. 3D case.
Vortex-shedding
Vortex-shedding
Physics: Unsteady incompressible external flow.
Turbulence: Laminar approach.
Mesh cell count: 23,666.
Description: Air entry of 1 m/s over 1 m in diameter cylinder. 2D case with Re = 100, St = 0.167.
Natural convection
Natural convection
Physics: Steady incompressible internal flow with bouyancy effects.
Turbulence: Laminar approach.
Mesh cell count: 23,666.
Description: Open housing of a 75W heat-source with fins. Temp. avg at entry of 26ºC, outlet approx. 45º, max. temp of 93ºC.
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