Flow velocity

In continuum mechanics the flow velocity in fluid dynamics, also macroscopic velocity^[1]^[2] in statistical mechanics, or drift velocity in electromagnetism, is a vector field used to mathematically describe the motion of a continuum. The length of the flow velocity vector is the flow speed and is a scalar. It is also called velocity field; when evaluated along a line, it is called a velocity profile (as in, e.g., law of the wall).

Definition[]

The flow velocity u of a fluid is a vector field

\mathbf {u} =\mathbf {u} (\mathbf {x} ,t),

which gives the velocity of an element of fluid at a position $\mathbf {x} \,$ and time $t.\,$

The flow speed q is the length of the flow velocity vector^[3]

q=\|\mathbf {u} \|

and is a scalar field.

Uses[]

The flow velocity of a fluid effectively describes everything about the motion of a fluid. Many physical properties of a fluid can be expressed mathematically in terms of the flow velocity. Some common examples follow:

Steady flow[]

The flow of a fluid is said to be steady if $\mathbf {u}$ does not vary with time. That is if

{\frac {\partial \mathbf {u} }{\partial t}}=0.

Incompressible flow[]

If a fluid is incompressible the divergence of $\mathbf {u}$ is zero:

\nabla \cdot \mathbf {u} =0.

That is, if $\mathbf {u}$ is a solenoidal vector field.

Irrotational flow[]

A flow is irrotational if the curl of $\mathbf {u}$ is zero:

\nabla \times \mathbf {u} =0.

That is, if $\mathbf {u}$ is an irrotational vector field.

A flow in a simply-connected domain which is irrotational can be described as a potential flow, through the use of a velocity potential $\Phi ,$ with $\mathbf {u} =\nabla \Phi .$ If the flow is both irrotational and incompressible, the Laplacian of the velocity potential must be zero: $\Delta \Phi =0.$

Vorticity[]

The vorticity, $\omega$ , of a flow can be defined in terms of its flow velocity by

\omega =\nabla \times \mathbf {u} .

Thus in irrotational flow the vorticity is zero.

The velocity potential[]

If an irrotational flow occupies a simply-connected fluid region then there exists a scalar field $\phi$ such that

\mathbf {u} =\nabla \mathbf {\phi } .

The scalar field $\phi$ is called the velocity potential for the flow. (See Irrotational vector field.)

Bulk velocity[]

In many engineering applications the local flow velocity $\mathbf {u}$ vector field is not known in every point and the only accessible velocity is the bulk velocity (or average flow velocity) $U$ which is the ratio between the volume flow rate ${\dot {V}}$ and the cross sectional area $A$ , given by

u_{\rm {{}av}}={\frac {\dot {V}}{A}}

where $A$ is the cross sectional area.

References[]

^ Duderstadt, James J.; Martin, William R. (1979). "Chapter 4:The derivation of continuum description from transport equations". In Wiley-Interscience Publications (ed.). Transport theory. New York. p. 218. ISBN 978-0471044925.
^ Freidberg, Jeffrey P. (2008). "Chapter 10:A self-consistent two-fluid model". In Cambridge University Press (ed.). Plasma Physics and Fusion Energy (1 ed.). Cambridge. p. 225. ISBN 978-0521733175.
^ Courant, R.; Friedrichs, K.O. (1999) [unabridged republication of the original edition of 1948]. Supersonic Flow and Shock Waves. Applied mathematical sciences (5th ed.). Springer-Verlag New York Inc. pp. 24. ISBN 0387902325. OCLC 44071435.

[1] Duderstadt, James J.; Martin, William R. (1979). "Chapter 4:The derivation of continuum description from transport equations". In Wiley-Interscience Publications (ed.). Transport theory. New York. p. 218. ISBN 978-0471044925.

[2] Freidberg, Jeffrey P. (2008). "Chapter 10:A self-consistent two-fluid model". In Cambridge University Press (ed.). Plasma Physics and Fusion Energy (1 ed.). Cambridge. p. 225. ISBN 978-0521733175.

[3] Courant, R.; Friedrichs, K.O. (1999) [unabridged republication of the original edition of 1948]. Supersonic Flow and Shock Waves. Applied mathematical sciences (5th ed.). Springer-Verlag New York Inc. pp. 24. ISBN 0387902325. OCLC 44071435.

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