SOLIDWORKS Flow Simulation Electronics Cooling 

i was able to optimize my 'gut-feeling' passive heatsink and add heatpipes on the bottom, many thanks!

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Great and thorough video. By the way, what would you do if the fans are blowing air that's not ambient, how would you set that up?

Amazing video!!! This has helped me better understand ECM in Flow Simulation. One question I have is regarding Thermal Joints, I am a little bit confused by this. Do you have any info or experience on this? Mainly, I would like to know when it is ok to use this, for example, do I use it in surfaces that thermal paste is going to be applied, or do I use it wherever there are two surfaces in contact? Thank you!

Amazing video dude... can you tell me any guidebook or series of tutorial which you recommend to have a sound grip of flow simulations taking into account the thermal effects ?? I badly need guidance in this regard....thanks looking for your reply

very useful videos...thank you sir....kindly upload vibration videos also

Hi, I am working on a clone of a Vox guitar amp and wanted to use thermal flow simulation to assess the 60's cab design and orientation of the amp chassis. In the Vox amp the tubes face down (like many amps) inside the cabinet. I am not sure how to apply a value for the tubes in the chassis which for the simulation is input as Watts. Forgive my obvious lack of electronics knowledge but is there a relation ship between the Watts and external Temperature reached by a tube. The tube data sheets dont show a working temperature range. The flow simulation should show if the heat convection to the components in the chassis is better or worse depending on its orientation, which is the aim of the study. Some people have added fans to their old amps as they have a concern about heat, and some swear that the hotter an amp runs the better it sounds. However there must be an ideal temp range or at least max that a tube should run before its life span is dramatically reduced. I can also use the simulation to see if adding a fan will improve the air flow and therefore heat dissipation. There is also transfer of heat through the chassis from the tubes to other components on the turret board and I have often wondered if the amp is better off in an 'upright' config whereby the heat from the tube rises up and out of the cab, without passing over the rest of the components as apposed to the 'upside down' config.

I have a board with top layer resistor generating heat 6W each and there are 16 resistors. There are vias connecting the tab for the DPAK packages to the bottom layer. Vias are 20 mils drills on Arlon 85N. On the bottom layer there is a heatsink connecting the thermal vias and between the board bottom Exposed copper there is thermal material. I run the sim in SW flow sim and I know I am setting it up wrong because the results show 900C which is ridiculous, and the heat sink shows no heat on it. How do I set up a the sim so that the top layer have the heat sources and the heat goes through the vias to Layer2 copper and Layer3 copper and Layer 4 copper. Copper in each layer is 10inches x 2 inches. Sim results are ridiculous and I don't know how to get real results. Anyone?

I have got a problem. Fan is added to a box but it gives error. "Face@60x60x15 12V fan-1 is not laying on the boundary between solid and fluid region." Please Help me ASAP. I have deadline.

Sir need help....can i do therml simulation of inductor

great pun 20:00 . All jokes aside this demonstration is bitchen.