ments. This procedure is the work of R. P. Horwitz, Hydrodynamics Division, Peerless
Pump, FMC Corporation, as reported in Power magazine.
TOTAL HEAD ON A PUMP HANDLING
VAPOR FREE LIQUID
Sketch three typical pump piping arrangements with static suction lift and submerged,
free, and varying discharge head. Prepare similar sketches for the same pump with static
suction head. Label the various heads. Compute the total head on each pump if the eleva-
tions are as shown in Fig. 4 and the pump discharges a maximum of 2000 gal/min (126.2
L/s) of water through 8-in (203.2-mm) schedule 40 pipe. What hp is required to drive the
Total
static
headStatic
dischargeStatic
suction(a) Suction lift and
submerged dischargePump shaftTotal
static
head
Static
surtionStatic
dischargeFree dischargePump shaft(b) Suction lift and free
dischargeMaximum level
Static
discharge
Total
static
head
Pump shaftLow
levelTotal
static
head(c) Suction lift and
varying discharge headStatic suction
head = l5'(4.6m)Static
discharge
head* 100'
Pumpshoft(d ) Static suction head and
submerged discharge
Maximum levelStatic
discharge
headTotal
Static
head
Static suction
Pump
shaft(f) Static suction head and
varying discharge headPressure
Static discharge tank
head+ head due
to pressurePump shaftStatic Low level
suction headTotal
static
headFIGURE 4. Typical pump suction and discharge piping arrangements.(e) Static suction head and
discharge head due to elevation
and pressure in tank