Mechanical Engineering - Hydraulics and Fluid Mechanics - Discussion
Discussion Forum : Hydraulics and Fluid Mechanics - Section 2 (Q.No. 3)
3.
When the pipes are in series, the total head loss is equal to the sum of the head loss in each pipe.
Discussion:
8 comments Page 1 of 1.
Qasim zafer said:
1 decade ago
Because each pipe is impose some friction force. Which is slow down the flow of the liquid at each part of the series of pipe.
PRAGYA singh said:
9 years ago
What is head loss?
Neeraj said:
9 years ago
Head is an available amount of energy which gives a potential energy or impulse momentum to turbine or any moving device if head loss or total head reduce so energy is reduced, the total energy is head form p/ρg +V2/2G+z.
Abd said:
8 years ago
What happens if they are parallel?
Pushp Raj said:
7 years ago
It is same in each pipe.
Ram prasanna said:
7 years ago
The correct Option is A.
Series systems " the flow rate through the entire system remains constant, the total head loss, this case is equal to the sum of the head losses in individual pipes, parallel pipe system " head loss is the same in each pipe, and the total flow rate is the sum of the flow rates in individual pipes.
Series systems " the flow rate through the entire system remains constant, the total head loss, this case is equal to the sum of the head losses in individual pipes, parallel pipe system " head loss is the same in each pipe, and the total flow rate is the sum of the flow rates in individual pipes.
Sabarinath R said:
6 years ago
When pipes are connected in series:
Q = Q1 = Q2 = Q3.
H = H1+H2+H3.
When pipes are in parallel:
H = H1 + H2 + H3.
Q = Q1 + Q2 + Q3.
Q = Q1 = Q2 = Q3.
H = H1+H2+H3.
When pipes are in parallel:
H = H1 + H2 + H3.
Q = Q1 + Q2 + Q3.
Ajay said:
4 years ago
In case of head loss, both series and parallel connection, the total head loss is equal to the sum of the head loss in each pipe.
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