trash pump max lift

A centrifugal pump is to discharge 0.118 m3 /s at a speed of 1...

Concepts

Centrifugal pump, Manometric efficiency, Velocity triangle, Vane angle, Discharge, Head, Impeller dimensions, Outlet velocity, Relative velocity

Explanation

To find the vane angle at the outer periphery (outlet) of the impeller, we need to use the velocity triangle at the outlet. The manometric efficiency relates the actual head developed to the theoretical head imparted by the impeller. We'll use the given discharge, speed, head, impeller diameter, width, and efficiency to find the necessary velocities and then calculate the vane angle.

Step-By-Step Solution

Step 1

Given Data:

• Discharge, Q=0.118 m 3/s
• Speed, N=1450 rpm
• Head, H m​=25 m
• Impeller diameter at outlet, D 2​=250 mm=0.25 m
• Width at outlet, B 2​=50 mm=0.05 m
• Manometric efficiency, η man o​=75%=0.75

Step 2

Calculate the velocity of flow at outlet (V f 2​):

Q=π D 2​B 2​V f 2​

So,

V f 2​=π D 2​B 2​Q​

Substitute values:

V f 2​=π×0.25×0.05 0.118​

V f 2​=0.03927 0.118​

V f 2​≈3.006 m/s

Step 3

Calculate the tangential velocity at outlet (u 2​):

u 2​=π D 2​N/60

u 2​=π×0.25×1450/60

u 2​=3.1416×0.25×24.1667

u 2​=0.7854×24.1667

u 2​≈18.98 m/s

Step 4

Manometric efficiency equation:

η man o​=u 2​V w 2​g H m​​

Where V w 2​ is the whirl velocity at outlet.

Rearrange to find V w 2​:

V w 2​=η man o​u 2​g H m​​

Substitute values:

g=9.81 m/s 2

H m​=25 m

η man o​=0.75

u 2​=18.98 m/s

V w 2​=0.75×18.98 9.81×25​

V w 2​=14.235 245.25​

V w 2​≈17.23 m/s

Step 5

Draw velocity triangle at outlet and calculate vane angle (β 2​):

At outlet:

• u 2​ = tangential velocity
• V w 2​ = whirl velocity
• V f 2​ = flow velocity
• V r 2​ = relative velocity

The vane angle β 2​ at outlet is given by:

tan β 2​=u 2​−V w 2​V f 2​​

Substitute values:

tan β 2​=18.98−17.23 3.006​

tan β 2​=1.75 3.006​

tan β 2​≈1.718

β 2​=arctan(1.718)

β 2​≈60.5∘

Final Answer

The vane angle at the outer periphery of the impeller is:

60.5∘​