Nanofluid CFD Training Package, Beginners, 10 Practical Exercises
- Nanofluid and Twisted Tape Inserts in a Tube, Validation
- Magnetic Field Effect on Nanofluid, CFD Simulation, ANSYS Fluent Training (2-D)
- Magnetic Field Effect on Nanofluid Heat Transfer (MHD)
- Nanofluid Porous Mixer for Increasing Heat Transfer
- Nano Fluid Heat Transfer in a Porous Heat Exchanger
- Nanofluid Flow Heat Transfer in a Wave Sine Channel
- Heat Exchanger with Baffle Cut and Mixture Nano Fluid
- Shell and Tube Heat Exchanger, Helical Fin, NanoFluid
- Nano Fluid in Heat Source Channel, Mixture Multiphase
- Radiator Heat Transfer Simulation by Hot Nanofluid Flow, ANSYS Fluent
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Nanofluid CFD Training Package, 10 ANSYS Flueny Products for Beginners
The Nanofluid CFD Training Package is prepared for Beginners of ANSYS Fluent software, including ten practical exercises. You will learn and obtain comprehensive training on how to simulate projects. The knowledge you have will help you choose the most appropriate modeling approaches and methods for applications and CFD simulations.
This problem simulates the Al2O3-water flow inside a circular tube with twisted tape inserts by ANSYS Fluent software. The simulation is based on the reference article “Study on heat transfer and friction factor characteristics of Al2O3-water through circular tube twisted tape inserts with different thicknesses’’.
the present problem simulates a magnetic field’s effect on a nanofluid in a two-dimensional channel using ANSYS Fluent software. Also, in this simulation, the effect of a magnetic field on the nanofluid behavior and its heat transfer has been investigated. Therefore, the magnetic hydro-dynamic model or MHD has been used.
In this project, nanofluid flows in a solid aluminum channel in the presence of an applied magnetic field are simulated by ANSYS Fluent software.
In this project, mixing hot (303k) and cold (293) nanofluid flows were investigated while mixing these two streams, once using 28 mixers and once using 54 mixers modeled as a porous medium.
In this project, Nanofluid flow heat transfer in a porous medium heat exchanger is simulated and analyzed by ANSYS Fluent software.
the present problem simulates the wave motion of a nanofluid within a sinusoidal channel using ANSYS Fluent software. The nanofluid current in the channel is defined as Al2O3-water, So it has nanoparticles with a volume fraction of 1%.
A Shell and tube heat exchanger with baffle cut applying a Nanofluid is simulated by ANSYS Fluent software.
This simulation is about a shell and tube heat exchanger with helical fins via ANSYS Fluent software.
The present problem simulates the flow of an Al2O3-water nanofluid into a channel with a heat source using ANSYS Fluent software. This channel has a square cross-section and has ten obstacles inside.
The present problem simulates heat transfer inside a radiator with nanofluid flow using ANSYS Fluent software. The working mechanism of these radiators is such that the flow of hot fluid passes through the pipes inside the radiator, and on the other hand, the air flow also passes through the pipes.