Mechanical Engineering - Hydraulics and Fluid Mechanics - Discussion
Discussion Forum : Hydraulics and Fluid Mechanics - Section 1 (Q.No. 6)
6.
The diameter of the nozzle (d) for maximum transmission of power is given by (where D = Diameter of pipe, f = Darcy 's coefficient of friction for pipe, and l = Length of pipe )
Discussion:
36 comments Page 3 of 4.
Vishal said:
1 decade ago
How bernoulli equation will be applied?
Raj said:
1 decade ago
How you told to apply the bernoulli equation?
Rudy said:
1 decade ago
Is this relate to the friction loss equation :
delta p = f l/d v2/2g.
delta p = f l/d v2/2g.
Anil said:
1 decade ago
Yes this is related to the friction loss but how please explain?
GM BHATTI said:
1 decade ago
How please explain?
GM BHATTI said:
1 decade ago
When delta p = f l/d v2/2g. So how can we applied Bernoulli equation?
Hitesh said:
1 decade ago
There's another formula for head loss by Darcy h = 8fLQ^2/^2D^5.
But I don't understand how they have used it to get the answer. Please anyone explain.
But I don't understand how they have used it to get the answer. Please anyone explain.
Debashis Mishra said:
1 decade ago
By which formula this has been derived. Please send me the details.
Ayyappa said:
10 years ago
First you need to know what is the maximum power transmitted through pipe and then equate it to the Bernoulli equation.
Siddharth J said:
10 years ago
Dimensional analysis gives the answer within seconds.
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