Optimize Your Fan & Heat Sink with CFD Conjugate Heat Transfer Analysis in SolidWorks
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- Опубликовано: 1 авг 2024
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Our cordial effort through erudireplus.com offers online courses and training programs in CAD, CAM, CAE, CFD, FEA, and other software to improve engineering design and analysis skills. The courses are flexible and accessible to everyone, including engineering and Ph.D. students. Erudireplus.com also provides industrial training and project assistance with competitive pricing to make education affordable and accessible to everyone. ------------------------------------------------------------------------------------------------------------------------------------------------
In this video, we will be using CFD analysis to optimize a fan and heat sink in a wind tunnel. We will be using conjugate heat transfer analysis to optimize the fan and heat sink for maximum performance.
If you are looking to improve the performance of your fan or heat sink in a wind tunnel, then this is the video for you. By using CFD analysis, we can optimize the fan and heat sink for maximum performance. This video will teach you the basics of CFD analysis and how to use it to optimize your fan or heat sink.
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Time Stamp:
00:00 - Introduction
00:15 - Problem Statement
00:42 - Conduction & Convection both
01:08 - Input variable will be fan speed
01:24 - Wizard
01:32 - Unit as SI
01:37 - Internal Analysis
01:45 - Gravity
02:32 - Default Thermal & Outer Wall Conditions
02:36 - Thermodynamic Parameters
03:06 - Initial Conditions & Boundary Conditions
03:13 - Computational Domain
03:51 - Segmented vie of the model
04::08 - Dummy Space
06:05 - Rotating Regions
09:08 - Temperature of Fluid across right plane
09:27 - Let us play this cut plot
12:01 - Dynamics of flow particles
14:00 - Goal Plots
15:32 - Simulation Parameters from Boundary conditions
15:41 - Angular velocities
16:39 - Design of Experiments
17:12 - Solver window has finished iterations
17:17 - Parametric results
19:16 - Further scope
19:17 - Goal Optimization
19:36 - Conclusion
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Hash Tags:
#CFDConjugateHeatTransfer #Fan&HeatSink #WindTunnelAnalysis #SolidWorks #ParametricStudy&Optimization #FlowSimulation #UpfrontSimulationSolutions #AirflowSimulation #SimulationTesting #Optimization #FEASimulation
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Contact Info:
smajumder.nitdgp@gmail.com
www.erudireplus.cf
/ sabyasachi-majumder
join.smajumder.skype.ID
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Credits to:
www.designhill.com/tools/logo...
www.naturalreaders.com/online/
ruclips.net/user/subscription_c...
• Video
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how did you able to select rotating region after assembly? Can you help me cause i cannot select rotating region after I assembled the fan with other part
Dear friend, In CFD it is always better to simulate with simple models. I always try to make single object as sldprt model. Anyways if it is an assembly then convert it into single model with stp extension or sldprt then perform analysis
this may be a long shot, but can you please re-do this in the new fluent meshing with water-tight geometry workflow? I would like to know if it handles the mutizone body. I tired to use interface boundary for the MRF approach but always fail to run the simulation. I think it is because the shared topology erases the interface. thank you.
I have already done these type of videos in my Udemy course. It is containing all the models also. If you are interested write to me
@@CFD_GUIDE can you please give the link to the Udemy course, there are too many of them sharing the same CFD analysis title, dont want to buy the wrong one. thanks
@@CFD_GUIDE never mind, found it. CFD a Pro Approach to Solve Industrial Problems with ANSYS. bought. thanks
Please write to me
If you face any problem please let me know. I will be there to provide any kind of technical support, any time
why did you consider internal analysis because fan is open from front side it will transfer the heat to environment
Internal or external analysis that doesn't matter. In both cases you can have same results depending on boundary conditions. If you are considering external surface and heat transfer from walls to atmosphere in that case it should be external analysis.
@@CFD_GUIDE sir i was having a problem of unable to resolve rotating region what could be the possible fix for that?
You have to model one dummy space surrounding fan blades and on that dummy space you have to create rotating space and apply rotational speed.
@@CFD_GUIDE yes I did that but still it says unable to resolve rotating region
Rotating region should be un-merged extrude boss base and from component control option it should be disabled.