Hey folks, I’m working on a project involving the design of a heat exchanger, and I’ve hit a bit of a wall. I’m trying to optimize the fin design for maximum thermal efficiency while keeping the pressure drop within acceptable limits. I know the general principles, but I’m struggling with the specifics of selecting the right fin geometry and material.

Any tips or resources you could recommend for tackling this?

Appreciate any advice from those who’ve been down this road before!

  • Kevin@hilariouschaos.comOP
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    4 months ago

    Thanks for the response! Every bit of info helps, so no worries if it’s not exactly what I’m looking for. HVAC design guides on YouTube might actually be a good starting point for understanding some practical design principles. I hadn’t considered that angle before.

    And yeah, I totally get what you mean about CFD being a minefield of spam and sales pitches. It’s frustrating trying to wade through all that just to find some solid advice.

    Appreciate the tip—I’ll check out those HVAC guides and see if I can apply any of their insights to my project. If you come across any other resources or have more suggestions, feel free to share!

    • j4k3@lemmy.world
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      4 months ago

      If you’re doing practical design, it is hard to beat empirical observation. While you could get crazy with test setups, it is not necessary.

      • a bright lighting setup will allow you to capture maximum frame rates, even with your phone.
      • think about your background and use anything you have on hand like a black tee-shirt, but think about contrast. Most cameras use a point of sharp contrast to focus, so setup with this in mind.
      • ideally, use a vape pen as your smoke machine. These make an ideal dense smoke source for cheap. Alternatively, an ultrasonic fog setup can do some very small scale stuff, but is a joke next to a vape pen setup.
      • if you can duct air in a way that partially restricts flow to a fan, you can use the voltage or the RPM to determine how iterations compare to each other without an expensive qualified measurement tool or calibration.

      That’s what I messed around with when designing and comparing various 3d printer tool head duct designs for part cooling.