FIGURE 20. Part of the fluid flow is diverted from the
main pipe. (Peerless Pumps.)
not through pipe 3. Plot the combined system-head curve by adding, at a given flow
rate, the head losses for pipes 1 and 3. With Q = 300 gal/min (18.9 L/s), pipe 1 = 500
ft (152.4 m) of 10-in (254-mm) pipe, and pipe 3 = 50 ft (15.2 m) of 6-in (152.4-mm)
pipe.
ft m
At 1500 gal/min (94.6 L/s) through pipe 1, friction loss 11 3.35
Friction loss for pipe 3 (1500 - 300 = 1200 gal/min) (75.7 L/s) _8 2.44
Total friction loss at 1500-gal/min (94.6-L/s) delivery 19 5.79
- Plot the effect of pump wear
When a pump wears, there is a loss in capacity and efficiency. The amount of loss de-
pends, however, on the shape of the system-head curve. For a centrifugal pump, Fig. 21,
the capacity loss is greater for a given amount of wear if the system-head curve is flat, as
compared with a steep system-head curve.
Determine the capacity loss for a worn pump by plotting its H-Q curve. Find this
curve by testing the pump at different capacities and plotting the corresponding head. On
the same chart, plot the H-Q curve for a new pump of the same size, Fig. 21. Plot the sys-
tem-head curve, and determine the capacity loss as shown in Fig. 21.
Row rote
Combined
system
curve
Heod
Head
FIGURE 21. Effect of pump wear on pump capacity. (Peer-
less Pumps.)
Flow rote
Capacity loss (flat system curve)
Capacity loss (steep system curve)
Worn pump head-capacity curve
New pump head-capacity curve
Steep system curve Flat system curve