ECAM Could Revolutionize Liquid Cooling 

3:51 wrong laminar flow is exactly what you don’t want for heat transfer, you want turbulent flow. Laminar flow acts like some form of insulation and slows down heat transfer.

There are metal printed gyroid structured heat exchangers for helicopters and machineries, interesting to see this being used for PC cooling 😃

4:10 I'm no expert, but I've heard that you don't actually want all laminar flow, because you run the risk of having only the surface water getting warm, but the centre of the water jet just pass by so linearly that it won't allow the proper transfer of heat. so having some turbulent flow that can impact against hot surfaces is more beneficial then only having linear flow. Once again, i could be wrong. fluid dynamics are hard.

1:40 skiving is actually a cost saving measure and worse all around compared to CNC milling the fins. skiving, much like rolling actually decreases the size of the metal's granular structure to increase it's tensile strength. by doing so also decreases the electrical and thermal conductivity of said metal.

This video addressed my concerns with turbulence, restricting flow and fragility.

Huh interesting. I made something similar to this via PCBWay 3D metal 3D printing. Printed out of Aluminum though due to cost of copper printing. Used it to cool a high powered custom 98+ CRI LED setup for my workbench and it's basically silent with some Acrtic P12s running at very low speed and the LED temps stay around 40C.

My question... 1. How much of an increase in pressure drop is seen in a gyroid cooler ? With an increase in pressure drop a reduced flow is seen in the same pump. To offset the increase in pressure drop of the gyroid cooler you must increase the pump rpm to get the same flow as finned coolers. 2. With the increased rpm of the pump, how much additional noise is created by the increased rpm pump?

wow. thats very cool. lets hope Artic picks this up soon:) would be interesting to see how much of a temps reduction it would tranlsate to though.

Turbulent flow actually has better heat transfer coefficient

Awesome video -- I love this type of preview into tech for possible future products.

Noted I'll make sure to open it up and have a good look inside, thanks 👍

The strength of the Gyroid only needs to be enough to resist the pressure of the water flow, which is likely very low. The surface area can be far higher than linear fins, which is better for heat transfer beyond the mass of the copper. Additionally, it looks like flow would be turbulent, which also can increase heat transfer rate.

This was very informative, I hope this technology make it to market soon.

The other issue I see with using this structure for an air cooling tower is that it would be much harder to force the air through it, the air isn't moving through a sealed environment like with a water cooling loop. The air will seek the path of least resistance to push as much flow through, that may mean the sides of the object or fan or even backflowing out of the fan the way it came in rather than going through these gyroids.

What you want is turbulent flow, not laminar flow. Also, the cost comparisons the company makes are against 3D printing processes that are not commonly used, mainly because of that, cost. So their process might be cheaper to make the model they are trying to make, but i highly doubt that it is even remotely cheaper compared to what is commonly used today to make regular water cooler fins, which is skiving a solid piece of copper (or aluminum). And, if i'm undestanding this correctly, from the info that are on the graphs, by their testing they decrease thermal resistance by about 35%, but also reduce surface area by around 25% for the Gyroid 50%, and for the 80% Gyroid the reduction in surface area is around 70%. That doesn't seem to be a good outlook, the 80% one seems like a really bad idea no matter how you look at it, and the 50% one would be ok if the process was cheap, but by the looks of it, it is highly unlikely, since they are using a form of 3D printing, and 3D printing isn't exactly cheap. Even tho they are using a relatively cheap 3D printed method. It also looks like it would clog easily. So yea... i'm not exactly hopeful for this whole thing.

Seems like a limiting factor will be the thermal conduction from the IHS through their metal structure. Thermal conduction is dependent of cross sectional area not surface area.

How can You have the Doctor without Gordon? They are practically dating!! :)

A microfilter is going to be useful on the LC loop.

That might work better but is susceptible to being clogged much more easily and likely won't be able to properly unclog it. You sure wouldn't want to run these in a custom PC watercooling loop with pastels or any of the opaque liquids.

My AIO radiator just died last month. I am building a new system with custom loop cooling in October. Interesting to see there is still innovation for water blocks. Roman showed that Alphacool and their newest generator of CPU blocks wins the performance comparison. And instead of sheers with channels, they also had pins in their design. Knowing that Intel is working on "3rd generation cryo Cooling Technology" which might drop with 14th gen Desktop (MTL being called Ultra seems to be confirmed due to GNA notice in openVINO 2023.2) - it would be interesting to see them go deeper than just water block with stacked Peltiers. Perhaps something like direct die as well. Intel also recently hired a specialist in computational fluid dynamics for their graphics research team. Could just be about HPC software. But maybe we hope they bring some interesting cooling tech to their workstation GPUs (to compete with RTX 6000 Ada) with build in blocks.

👍 Is there a doctor in the house? Why yes.

That`s amazing! can`t wait to overclock some chips with a block like that.

I wonder if these Gyroid structures could improve the wicking structure inside heatpipes for air cooling

6:51 Doesn't this just mean this ADM process is cheaper than other ADM processes? This doesn't mean its cheaper than drilling fins into a block of copper...

Tech Tech Potato Chips!!! :D

I though to get heat to transfer from a material into a fluid, you want some turbulent flow, as a skin formed on the surface or something.

I find it hard to believe it's cheaper to 3d print those blocks vs the regular machined finned blocks.

I bet @derbauer would like to look into this

I can totally se those little holes getting cloged up quick..

Wait for deepcool, etc to make a version

Seeing the name of the company, does Der8auer have any connection to this? Also very wonder to see the real results

Gyroid looks a bit like 2019 Mac Pro grill

That's super cool! 3d print the world🎉

The future of liquid cooling is realizing that it is, and always has been, a meme

seems like it would add more limitations to your build than it would be a benefit..............not really something for the guy who wants hot pink fluid on his hello kitty build............might work as part of an AIO design with a special fluid...........but why? .02 degrees or some inconsequential number

no one uses this type of design because once clogged it will be impossible to clean it completely, so if one day you have a problem with oxidation reduction it's over, your block is good for the trash or to become a paperweight and if this happens during the warranty period it will generate a lot of return and cost the manufacturer very dearly

Where is Gordon? Is he sick, or was he terminated? WTH?

Wel. Tha is a cool experiment yeaaas . Foca cool but it is probably to dance for all of this normal produredr.. etc Ian man find a we pu produset your self in lemitid nr and sel ti yous self before you panaten. If you can

Arent gyroids the gribbly dancy things from animal crossing

Good chance that I am dumb here, but if not the people that designed this are idiots: The heat capacity of water is higher than copper. The heat transfer of flowing water is also better than that of non flowing solid copper. There also should not be a real heat flow resistance on the junction between the copper and the water surface because they are touching each other. So there should not be the need to have a big surface area! Best cooling should be to use as less copper as possible and bring the water flow as close as possible to the surface of the chip. So am I dumb or is Dr. Ian Cutress and ECAM dumb? Honest question, I really think there is a good chance it is me :)

Very interesting. If it works for fluids, it will work for air cooling too 😁

4raud

but it won't

liquid cooling for CPUs is and has always been stewpid water and PCBs don't go well together, it's always going to leak, always going to be a pain in the b-side

I really do NOT like Adam. Since when did a video support guy get qualified to interview proper technical people. Adam simply does not have any proper technical knowledge or training and he acts like a child. Can we go back to Gordon instead?