Bernoulli Equation: Compressible vs Incompressible Flows

In summary, Bernoulli's equation is valid for any type of flow, but it is only useful in cases where there is no energy loss.
  • #1
rabbit44
32
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Hi, urgent question. Bernoulli's equation seems to be conservation of energy. I read that it's only for incompressible flows; but isn't the term involving pressure the energy due to the work done on a mass of air in compressing it?

Thanks
 
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  • #2
rabbit44 said:
Hi, urgent question. Bernoulli's equation seems to be conservation of energy. I read that it's only for incompressible flows; but isn't the term involving pressure the energy due to the work done on a mass of air in compressing it?

Thanks

Bernoulli can be used for compressible flow as well.

CS
 
  • #3
Yes, it can be used for compressible flows - as long as there is no significant change in density (ie: temperature and pressure). Note also that Bernoulli's equation does not account for any energy loss such as heat transfer or irreversible, frictional losses such flow through a pipe, so Bernoulli's is very basic and needs to be applied with extreme care.
 
  • #5
rabbit44 said:
Hi, urgent question. Bernoulli's equation seems to be conservation of energy. I read that it's only for incompressible flows; but isn't the term involving pressure the energy due to the work done on a mass of air in compressing it?

Thanks

For incompressible fluids, the pressure term represents work done on a mass to either accelerate/decelerate it, or change it's elevation. I.e. it can change either the gravitational potential or the kinetic energy (or both).
 
  • #6
Bernoulli's equation is merely a first integral of Newton's 2.law, as applied along a streamline. (In 2-D flow, the first integral of Newton's law as applied orthogonal to a streamline is covered by Crocco's theorem).

Thus, in principle, Bernoulli's "equation" (or, rather, the method used in deriving it!) is fully valid for ANY sort of flow.

However, only under very special conditions does something "useful" turn up in this particular decomposition of the equations of motion. (Mostly, for example in non-stationary flow, you get a nasty integral you can't simplify in any intelligent manner..)

When such usefulness occurs, we call it "Bernoulli's equation"..
 

What is the Bernoulli equation?

The Bernoulli equation is a fundamental equation in fluid dynamics that describes the relationship between pressure, velocity, and elevation in a fluid flow.

What is the difference between compressible and incompressible flows?

In a compressible flow, the density of the fluid changes as it moves through different regions. In an incompressible flow, the density remains constant. This means that the Bernoulli equation must be modified for compressible flows to take into account changes in density.

How does the Bernoulli equation apply to compressible flows?

In compressible flows, the Bernoulli equation must be modified to include the effect of changes in density. This is done by adding a term for the density and including the compressibility factor.

Can the Bernoulli equation still be used for incompressible flows?

Yes, the Bernoulli equation can still be used for incompressible flows as long as the density remains constant. In this case, the compressibility factor can be ignored.

What are some real-world applications of the Bernoulli equation for compressible and incompressible flows?

The Bernoulli equation is used in various fields such as aerodynamics, hydraulics, and fluid mechanics to study and design systems involving fluid flow. Some examples include aircraft design, water flow in pipes, and wind turbines.

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