Erdős–Turán inequality: Difference between revisions

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The Euler’s [[pump]] and [[turbine]] equations are most fundamental equations in the field of [[turbo-machinery]]. These equations govern the power, efficiencies and other factors that contribute in the design of Turbo-machines thus making them very important. With the help of these equations the [[Hydraulic head|head]] developed by a pump and the head utilised by a turbine can be easily determined. As the name suggests these equations were formulated by [[Leonhard Euler]] in the eighteenth century. These equations can be derived from the moment of momentum equation when applied for a pump or a turbine.


== Conservation of angular momentum ==
Another consequence of Newton’s 2nd law of mechanics is the conservation of the angular momentum (or the “moment of momentum”) which is of fundamental significance to all turbomachines. Accordingly, the change of the angular momentum is equal to the sum of the external moments. Angular momentums ρ×Q×r×cu at inlet and outlet, an external torque M and friction moments due to shear stresses Mτ are acting on an impeller or a diffuser.


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Since no pressure forces are created on cylindrical surfaces in the circumferential direction, it is possible to write Eq. (1.10) as:
 
:::<math>M + Mr = \rho.Q (c_2u.r_2 - c_1u.r_1) </math> (1.13)<ref>{{
|author=Johann Friedrich Gülich
|title=centrifugal pump second edition
|ISBN 978-3-642-12823-3
|year=2010
}}</ref>
:<math>c_2u=c_2cos\alpha_2\,</math>
:<math>c_1u=c_1cos\alpha_2.\,</math>
 
== Triangle velocity ==
 
The color triangle formes
 
 
 
by velocity vector u,c,w call 'triangle velocity" this is an important role in old academic, this rule was helpful to detail  Eq.(1) become Eq.(2) and wide explained how the pump works.  
 
:<math>c_1\,</math> and <math>c_2\,</math> are the absolute velocities at the inlet and outlet respectively.
 
:<math>w_1\,</math> and <math>w_2\,</math> are the relative velocities at the inlet and outlet respectively.
 
:<math>u_1\,</math> and <math>u_2\,</math> are the velocities of the blade at the inlet and outlet respectively.
 
:<math>\omega </math> is angular velocity.
 
Fig 1 shows triangle velocity of backward curved vanes impeller ; it's illustrate rather clearly energy add to the flow (shown in vector c) inversely change upon flow rate Q (shown in vector c<sub>m</sub>).
 
== Euler's pump equation ==
Based on Eq.(1.13), Euler developed the equation for the pressure head created by the impeller (see Fig.1).
 
:::<math>Yth.g=H_t= c_2u.u_2 - c_1u.u_1 </math>    (1)
 
:::<math>Yth=1/2(u_2^2-u_1^2+w_1^2-w_2^2+c_2^2-c_1^2)</math> (2)
 
H<sub>t</sub>  = theoretical  head pressure  ;    g = gravitational acceleration
 
For the case of a [[pelton turbine]] the static component of the head is
zero, hence the equation reduces to (See Fig.2).
 
:<math>
H = {1 \over {2g}} ( V_1^2 - V_2^2 ). \,
</math>
 
==Usage==
 
Euler’s pump and turbine equations can be used to predict the impact of  
changing the impeller geometry on the head. Qualitative estimations can
be made from the impeller geometry about the performance of the
turbine/pump. For the design of an aero-engines and the designing of
power plants, the equations assume prime significance. Thus for the
design aspect of turbines and pumps, the Euler equations are extremely
useful.
 
==See also==
 
* [[Euler equations (fluid dynamics)]]
* [[List of topics named after Leonhard Euler]]
 
==References==
 
{{reflist}}
 
{{DEFAULTSORT:Euler's pump and turbine equation}}
[[Category:Turbines]]
[[Category:Pumps]]
[[Category:Compressors]]
[[Category:Fans]]
[[Category:Fluid dynamics]]

Revision as of 09:32, 20 August 2013

The Euler’s pump and turbine equations are most fundamental equations in the field of turbo-machinery. These equations govern the power, efficiencies and other factors that contribute in the design of Turbo-machines thus making them very important. With the help of these equations the head developed by a pump and the head utilised by a turbine can be easily determined. As the name suggests these equations were formulated by Leonhard Euler in the eighteenth century. These equations can be derived from the moment of momentum equation when applied for a pump or a turbine.

Conservation of angular momentum

Another consequence of Newton’s 2nd law of mechanics is the conservation of the angular momentum (or the “moment of momentum”) which is of fundamental significance to all turbomachines. Accordingly, the change of the angular momentum is equal to the sum of the external moments. Angular momentums ρ×Q×r×cu at inlet and outlet, an external torque M and friction moments due to shear stresses Mτ are acting on an impeller or a diffuser.

Since no pressure forces are created on cylindrical surfaces in the circumferential direction, it is possible to write Eq. (1.10) as:

M+Mr=ρ.Q(c2u.r2c1u.r1) (1.13)[1]
c2u=c2cosα2
c1u=c1cosα2.

Triangle velocity

The color triangle formes


by velocity vector u,c,w call 'triangle velocity" this is an important role in old academic, this rule was helpful to detail  Eq.(1) become Eq.(2) and wide explained how the pump works. 
c1 and c2 are the absolute velocities at the inlet and outlet respectively.
w1 and w2 are the relative velocities at the inlet and outlet respectively.
u1 and u2 are the velocities of the blade at the inlet and outlet respectively.
ω is angular velocity.

Fig 1 shows triangle velocity of backward curved vanes impeller ; it's illustrate rather clearly energy add to the flow (shown in vector c) inversely change upon flow rate Q (shown in vector cm).

Euler's pump equation

Based on Eq.(1.13), Euler developed the equation for the pressure head created by the impeller (see Fig.1).

Yth.g=Ht=c2u.u2c1u.u1 (1)
Yth=1/2(u22u12+w12w22+c22c12) (2)

Ht = theoretical head pressure  ; g = gravitational acceleration

For the case of a pelton turbine the static component of the head is zero, hence the equation reduces to (See Fig.2).

H=12g(V12V22).

Usage

Euler’s pump and turbine equations can be used to predict the impact of changing the impeller geometry on the head. Qualitative estimations can be made from the impeller geometry about the performance of the turbine/pump. For the design of an aero-engines and the designing of power plants, the equations assume prime significance. Thus for the design aspect of turbines and pumps, the Euler equations are extremely useful.

See also

References

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  1. {{ |author=Johann Friedrich Gülich |title=centrifugal pump second edition |ISBN 978-3-642-12823-3 |year=2010 }}