Head calculation flow calculation example – Xylem Wastewater (Technical Manual) User Manual

PAGE 9

Wastewater

Goulds Water Technology, Bell & Gossett,

Red Jacket Water Products, CentriPro

Example: Fig. 1. A two-bathroom home is situated such that

the city sewer main is located above the basement drain facili-

ties. Groundwater seepage through drain tile into the sump is

estimated at 6 GPM. The vertical distance from the pump to the

highest point in the discharge piping is 12 feet.
A pump capable of pumping 30 GPM is required (seepage is

less than one-fourth of the pump capacity so it is automatically

included). The discharge head must be 12 feet, plus any friction

loss in the approximately 15 feet of pipe, 3-90º elbows, 3-45º

elbows, and check valve.

Assume plastic pipe is used.
1. RATE OF FLOW = 30 GPM

Two (2) toilets, includes seepage up to one-fourth of

selected

____ pump capacity. 6 GPM is less than the

7.5 GPM allowable so no correction is necessary.
2. SUCTION CONDITIONS – Flooded Suction
3. DISCHARGE CONDITIONS

Vertical Differential 12.0'

Friction losses @ 30 GPM

15' of 2" pipe (1.8' per 100' of pipe) = .2' F.L.

3-2", 90º elbows = 16.5 equivalent feet

3-2", 45º elbows = 7.5 equivalent feet

1-check valve =

19.0 equivalent feet

Total =

43.0 equivalent feet = .6' F.L.

Total Discharge Head = ___________________ 12.8'
Referring to the catalog, we find that a

1

/

3

HP Sewage Pump

should be adequate for the job.

Example: The same conditions as in the previous example exist,

except the house is located on a large tract of sandy soil where

the groundwater seepage is estimated @ 20 GPM.
1. RATE OF FLOW = 30 GPM

Two (2) toilets, includes seepage up to one-fourth of

selected pump capacity – 7.5 GPM.
The additional 12.5 GPM (20-7.5) must be added to

the required pump capacity –

12.5 GPM

Total = 42.5 GPM

2. SUCTION CONDITIONS ____________Flooded Suction
3. DISCHARGE CONDITIONS

Vertical Differential – 12.0'

Friction losses @ 42.5 GPM

15' of 2" pipe (3.5' per 100' of pipe) = .5' F.L.

3-2", 90º elbows = 16.5 equivalent feet

3-2", 45º elbows = 7.5 equivalent feet

1-check valve =

19.0 equivalent feet

Total =

43.0 equivalent feet or 1.5' F.L.

Total Discharge Head = 14.0'
Referring again to the catalog, we find that a

1

/

3

HP

Sewage Pump should be adequate for this installation.

Head Calculation

Flow Calculation Example

To Calculate Flow with Fixture Counts

Take total number of each style fixture X Count for that fixture.

Add all fixture total counts. Add Full Body shower flow rate to

total.
Use “Hunter” estimate curves for Demand Load for appropriate

style fixtures. (Valve style fixtures are predominant in Commercial

buildings; Tank style fixtures are predominant in Residential).

COMMERCIAL BUILDING EXAMPLE:

Valve Style Fixtures
25 Toilets
25 Lav sinks
25 Tubs
6 Kitchen Sinks
2 Commercial Washing Machines
1 Dishwasher

Count Calculation
25 Toilets

X 10 Count

= 250

25 Lav Sinks

X

3 Count

=

75

25 Tubs

X

4 Count

= 100

6 Kitchen Sinks

X

4 Count

=

24

2 Commercial

X

6 Count

=

12

1 Dishwasher

X

4 Count

=

4

Total

465 Count

Plumbing Water Systems

Fixture Units

“Hunter” Estimate Curves for Demand Load

Demand GPM

1

2

0

500

1000

1500

2000

2500

3500

100

500

200

300

400

1 – For system predominantly for flush valves

2

– For system predominantly for

flush tanks

120

465