So, I'm designing what is basically a water condenser i.e. humid air (steam) gets condensed into water. It consists of an inlet, condensing chamber and an outlet. On top it has cooling fins and is made of aluminium. The whole object is about 200mm in size. Steam/humid air enters through the inlet, condenses and comes out the outlet with a percentage of it as liquid.
When the inlet was a 20mm round hole, it performed much better than when the inlet was a wide (around 180mm) slot-like hole. I don't have the exact numbers now, but the percentage of liquid was around 15% more with the small inlet than with the large one and the outlet temperature was a lot lower. The volume flow rate, temperature and humidity of the inlet were the same on both occasions. Just the inlet size varied.
I tried running it with both laminar and turbulent flow and the difference was still there.
I can't wrap my brain around why the smaller inlet performs better even though the volume flow is the same. the only thing that I can think of is that the larger inlet also heats the base more (which doesn't have cooling fins attached).
Any one have ideas?
