Water flow rate and drip surface tension

AI Thread Summary
Increasing the flow rate in a drip tube results in larger drops due to the relationship between mass, gravity, surface tension, and tube diameter. The discussion highlights the challenge of calculating the required tube diameter based on known drop mass and flow rate, emphasizing that surface tension and fluid viscosity significantly influence drop size. Accurate measurements and experiments are necessary to determine the characteristics of the fluid being used. The conversation also suggests that using a peristaltic pump could help regulate flow more effectively. Ultimately, the goal is to establish the correct tube diameter to achieve the desired drip size while maintaining control over the flow rate.
fdnovice7629
Messages
5
Reaction score
0
TL;DR Summary
flow rate, water, drips, drop, surface tension
hello
i have a drip tube with water dripping and when i increase the flow rate or frequency of drips they get bigger/more massive.
i see the equation mass x gravity = 3.14(tube diameter)(surface tension)
my mass is changing but not gravity, 3.14 or tube diameter so surface tension must be related to flow rate but I can't find anything online on how to figure this out.
conversely I have a known flow rate and mass and want to determine tube diameter but unsure how to get it as it appears surface tension must be related to flow rate but I don't know how
 
Engineering news on Phys.org
Try search term liquid drop formation. Are you collecting data on drop size vs flow rate and tube diameter? Does the liquid attach to the tube ID or OD?
 
fdnovice7629 said:
i have a drip tube with water dripping and when i increase the flow rate or frequency of drips they get bigger/more massive.
I have not seen that with IV administration. The drop size depends on the IV tubing size (macrodrip or microdrip), but not on the flow rate (in drops per minute). What size tubing are you using, and how are you controlling the flow?

https://www.mometrix.com/academy/calculations-of-drip-rates/

https://www.recoveringself.com/health/iv-drip-therapy-the-science-behind-the-fad

1603463967726.png
 
drip weight absolutely depends on flow rate. I am using normal sized equipment
 
So show us some data on drop size vs flow rate. It's easy enough to get accurate measurements: Flow per time divided by drops per time = volume per drop. Also a photo of your setup would be helpful.
 
i have a known drop mass, known flow rate and need to calculate the diameter of the tube that it comes out of
 
fdnovice7629 said:
i have a known drop mass, known flow rate and need to calculate the diameter of the tube that it comes out of
That doesn't seem like an accurate way to control a flow rate. Can you please just say exactly what your design requirements are?

And if you want to control/meter a flow, a peristaltic pump is a good option usually. We use them all the time in medical applications (like IV infusions)...

https://www.graylineinc.com/whitepapers/peristaltic-pump-tubing.html

1603495345358.png
 
i have stated my design requirements.

drip size .05 gram
flow rate 150grams/hour
how big hole of drip tube?

the answer should take into account flow rate as is I increase the flow rate, with the diameter calculated above the drip size will go up.....
 
Last edited by a moderator:
Sorry @fdnovice7629, the drip size is highly dependent on the viscosity and surface tension of the fluid you are dripping. Try getting a drop of alcohol thru your device, then try getting a drop of honey thru it.

The only way to get numbers for a fluid with unknown characteristics is to run a bunch of experiments. Even in hospitals, the Intravenous Drips are controlled by a constriction upstream of the drip chamber, effectively controlling the pressure to regulate the flow.

Cheers,
Tom
 
  • Like
Likes berkeman
  • #10
fdnovice7629 said:
i have stated my design requirements.

drip size .05 gram
flow rate 150grams/hour
how big hole of drip tube?

the answer should take into account flow rate as is I increase the flow rate, with the diameter calculated above the drip size will go up.....
Did you look into peristaltic pumps at all? 150cc/hr is certainly do-able with high accuracy...
 
  • #11
I am not here looking to purchase an item. I am here to determine the drip tube diameter required for my specs. It will be connected to an IV bag and then some other means of regulation will control the flow.
 

Similar threads

Downdraft table -blocking off part of table surface to increase flow?
Replies
10
Views
3K
Cooling of a thick walled pipe transporting water
Replies
4
Views
2K
Fluid Mechanics - Need Help on a Water Pipeline Project
Replies
7
Views
2K
Heat cross exchanger
Replies
3
Views
3K
How to determine air velocity in open ended tube?
Replies
9
Views
2K
Estimate pipe diameter based on flow rate
Replies
6
Views
3K
Two-phase flow heat transfer coefficient
Replies
34
Views
5K
Water Pressure Calculation (Limited Information)
Replies
6
Views
2K
Bell siphon: output rate multiple times higher than the input rate?..
Replies
8
Views
1K
Understanding Backpressure Effects on Flow Meter Calibration
Replies
10
Views
3K

Hot Threads

Recent Insights

Back
Top