Why is there a pressure loss with friction?

In summary: V file with a list of equations and their descriptions:-Bernoulli's equation is an energy balance equation-In Bernoulli's pressure drop is considered-The pressure drop can be shown with the momentum balance equation-As friction increases, the pressure drop must increase, and more work will have to be done on a fluid for a given flow rate.
  • #1
Anony-mouse
60
0
If a fluid has reached steady flow, ie constant velocity, yet there is friction created by the shear stress of the wall, i don't understand how the pressure can drop. I tried using bernoulli to see how this would happen, but i can't see it. If the velocity doesn't decrease, i don't understand how the pressure can?
 
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  • #2
Bernoulli's equation is simply an energy balance equation, and in Bernoulli's pressure drop is considered. The pressure drop can be shown with the momentum balance equation.

Pressure is simply force per unit area. Fluids 'move' from high pressure to low pressure. The shear forces, imposed by the boundary or pipe wall, oppose fluid motion so the pressure must drop consequently. Force represents a change in momentum.

In fluid mechanics, one has the Navier-Stokes equations: continuity, momentum and energy, although some use Navier-Stokes equation in reference to the momentum equation.
 
  • #3
since pressure if force/area, and the friction is considered as the force, then if a larger force (friction) is applied to the fluid, would the pressure increase?

also could you please help explain how if the velocity gradient (du/dx) is less than 0, the pressure gradient (dp/dx) will be greater than 0 and vice versa.
 
  • #4
The greater the friction (and viscosity) the greater the resistance (opposition) to motion. As friction increases, the pressure drop must increase, and more work will have to be done on a fluid for a given flow rate.

The sign on the differentials depends on the coordinate system (reference) or orientation used, e.g. is the coordinate system (in a pipe flow) measured from the center of the flow outward, or from the pipe wall inward.

What does du/dx < 0 mean? Simply as the distance/position increases, then u is decreasing. If du/dx increases, then u is increasing, i.e. the fluid is accelerating with x.

dP/dx < 0 means a pressure drop as x increases, or dP/dx > 0 means pressure increases with x. Then one has to look at what causes the Pressure to increase or decrease.
 
  • #5
thanks for the help, makes sense now :D
 
  • #6
Pressure will decrease slightly with friction. Take a centrifugal compressor assembly for example. After the compressor has compressed the air the air will slightly lose some of its pressure because it has to do work to bend round the diffuser. This pressure drop is not extremely high but still exists.
 
  • #7
pressure loss at bends is a minor loss and so are the losses at fittings etc. Friction loss is one of the major losses
 
  • #8
If the problem is laminar pipe flow, you can look at Poiseuille's law to find the pressure drop.
 
  • #9
ank_gl said:
pressure loss at bends is a minor loss and so are the losses at fittings etc. Friction loss is one of the major losses

Although they do classify pressure losses at bends and fittings as minor, they can contribute significantly to the total loss.

CS
 

1. Why does friction cause pressure loss?

Friction is a force that opposes the motion of an object. In the case of a fluid flowing through a pipe, friction between the fluid and the walls of the pipe causes the fluid to lose energy, resulting in a decrease in pressure.

2. How does the roughness of a surface affect pressure loss due to friction?

The rougher the surface of the pipe, the higher the friction between the fluid and the walls. This leads to a greater loss of energy and a larger pressure drop along the length of the pipe.

3. Is pressure loss with friction a significant factor in fluid flow?

Yes, pressure loss due to friction is a major consideration in fluid flow. It can have a significant impact on the efficiency and performance of a system, especially in long pipelines or when dealing with high flow rates.

4. Can pressure loss due to friction be reduced?

Yes, there are several ways to reduce pressure loss due to friction. These include using smoother pipes, increasing the diameter of the pipe, and using lubricants to decrease the friction between the fluid and the walls of the pipe.

5. What other factors can contribute to pressure loss in fluid flow?

In addition to friction, other factors that can contribute to pressure loss in fluid flow include changes in elevation, changes in the velocity of the fluid, and the presence of obstacles or bends in the pipe. These factors can all cause the fluid to lose energy and result in a decrease in pressure.

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