SimonD Posted 8 hours ago Posted 8 hours ago 18 hours ago, BotusBuild said: @SimonD, does the calculations appear to be correct? 14 hours ago, BotusBuild said: crazily LOW. Yes they're crazily low. By my calculation the pressure drop in your longest ufh loop, 95m and flow rate of 2l/m is something like 12.8kPa. And then we have 10m on the 28mm pipework, assuming up to 7kW is just under 3.5kPa. So you are fine. 1
JohnMo Posted 7 hours ago Posted 7 hours ago Simple diagram to use, join the dots as demonstrated with the red line 1
SimonD Posted 6 hours ago Posted 6 hours ago 22 minutes ago, JohnMo said: Simple diagram to use, join the dots as demonstrated with the red line Yes indeed, but for the really geeky ones of us, you've got to use Reynolds and relative roughness depending on material and even better the fluid temperature, and then using the Reynolds number you can even geek out over whether the flow is laminar, transient or turbulent 😊 This free calculator is pretty good: https://www.h2xengineering.com/pressure-drop-calculator/
JohnMo Posted 1 hour ago Posted 1 hour ago 4 hours ago, SimonD said: Yes indeed, but for the really geeky ones of us, you've got to use Reynolds and relative roughness depending on material and even better the fluid temperature, and then using the Reynolds number you can even geek out over whether the flow is laminar, transient or turbulent But if you need to go that level detail, that's ok, but do you really need too? If your that marginal and you need in depth calculations, good chance you are putting an additional pump in anyway. Or someone will add glycol and screw up the theory anyway. Or existing piping has some scale or biofilm which changes roughness and dia and turbulence factors, from poor chemical treatment in the past, and then all bets are off anyway.
BotusBuild Posted 36 minutes ago Author Posted 36 minutes ago 6 hours ago, SimonD said: Yes indeed, but for the really geeky ones of us, you've got to use Reynolds and relative roughness depending on material and even better the fluid temperature, and then using the Reynolds number This is what I was trying to do, but obviously slipped up on a decimal point or seven 😀
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