Water Supply 123When combined with the continuity equation, Q = Av, the discharge Q, in gallons per
minute for a circular pipe of diameter D, in inches, is given byQ = 0.285CD2.63~o.54. (6.9b)
In metric units, these two equations arev = 0.849Cr0.63s0.54
Q = 0.278CD2.63so.54,
(6.10a)(6.10b)where D and rare in meters and v and Q are in meters per second (ds) and cubic meters
per second (m3/s), respectively. The nomographs shown in Fig. 6-11 are solutions to
the above equations in both English and metric units. Table 6-3 summarizes Hazen-
Williams coefficients for various pipe materials.EXAMPLE! 6.6. The pressure drop through a 6-in. asbestos-cement pipe, 3000 ft in
length is 20 psi. What is the flow rate?hL = (20 pei)(2.31 ft watedpsi) = 46.2 ft
46.2 ft 15.4 ft
s=-- -
3000 ft 1000 ft’From Table 6-3, C is 140 and from Fig. 6-1 1, the discharge is 460 gpm.Energy or head is lost at the entrance to apipe or conduit; at valves, meters, fittings,
and other irregular features; at enlargements; and at flow contractions. These losses,
called minor losses, are in excess of friction losses over the same length of straight
pipe or conduit and may be expressed as(6.11)where K = the energy loss coefficient of minor losses in closed conduits, and for which
values of K may be estimated by using Table 6-4.EXAMPLE 6.7. The loss for a flow of 1.0 cfs through a given 6-in. main with a gate
valve wide open is 20 ft. Find the head loss with the gate valve 75% closed.
From Table 6-4, the increase in K value when the valve is partially closed is
K = 24.0:
Q 1.0
A 0.2v = - = - = 5 ft/s