- #1
chupacabras
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Hello, I am new to this forum.
I read the thread about the water flow in a rectangular tube because I wanted to correlate what was being said into my own problem.
My question I believe is very simple:
I have a rectangular tube that has inner dividers, let's say that my tube has 6 channels inside that are 7.15mm L X 3.54mm W, plus a 7th channel 7.15mm L X 5mm W.
Lets's say also that if I neglect the inner walls, the result is a bigger rectangle, roughly 29.3mm L x 7.15mm W.
I need to come up with the Hydraulic Diameter for the whole tube.
What is the approach I should take:
a) should I add the seven Hydraulic Diameters for each inner tube?
b) should I neglect the inner walls and calculate for the whole tube?
When I add up each channel's HDs, the results is 3 times higher than when I calculate for the whole tube, neglecting the inner walls.
I would really like your input on this subject, and I am sorry if this is so simple I had overlooked the answer.
Thanks,
I read the thread about the water flow in a rectangular tube because I wanted to correlate what was being said into my own problem.
My question I believe is very simple:
I have a rectangular tube that has inner dividers, let's say that my tube has 6 channels inside that are 7.15mm L X 3.54mm W, plus a 7th channel 7.15mm L X 5mm W.
Lets's say also that if I neglect the inner walls, the result is a bigger rectangle, roughly 29.3mm L x 7.15mm W.
I need to come up with the Hydraulic Diameter for the whole tube.
What is the approach I should take:
a) should I add the seven Hydraulic Diameters for each inner tube?
b) should I neglect the inner walls and calculate for the whole tube?
When I add up each channel's HDs, the results is 3 times higher than when I calculate for the whole tube, neglecting the inner walls.
I would really like your input on this subject, and I am sorry if this is so simple I had overlooked the answer.
Thanks,