Variable speed drives – Xylem Wastewater (Technical Manual) User Manual

PAGE 18

Wastewater

Goulds Water Technology, Bell & Gossett,

Red Jacket Water Products, CentriPro

It is acceptable and increasingly more common to operate three-

phase wastewater pumps using VFD’s or variable frequency

(speed) drives. We have successfully tested and operated all our

premium cast iron construction, three-phase pumps between 30

and 60 hertz operation. The pumps should never be operated

below 30 hertz (the VFD must be programmed for a minimum

speed of 30 hertz to prevent continuous operation) or above 60

hertz due to increased motor HP loading, higher amperage and

the resultant heat rise (see HP in 70 hertz Performance Multipli-

ers).

The “Affinity Laws” state that for a given pump, the capacity will

vary directly with a change in speed, the head will vary as the

square of the speed change and the required power will vary as

the cube of the speed change. (The Affinity Law formulas can be

found in the Water Products Technical Manual, TTECHWP). The

Performance Multiplier Chart provides shortcut multipliers that

eliminate having to solve the Affinity Law equations.

To calculate a pump’s total performance range when using a

VFD, use the 30 hertz data to create a minimum speed curve, the

VFD controlled pump should always be operated between 30

hertz and the published 60 hertz curve. Where it operates at any

given moment is irrelevant.

Q

1

, H

1

and BHP

1

are determined at the pump’s rated speed

N

1

(rpm).

Q

2

, H

2

and BHP

2

are determined at speed N

2

(rpm).

Use the multipliers with a minimum of 3 data points taken from

any standard, 60 Hz curve to determine the performance of that

pump at a new speed.

WASTEWATER PUMPS AND VARIABLE SPEED DRIVES

Hertz

Performance Multipliers

70 – Q

2

= Q

1

x 1.17 H

2

= H

1

x 1.37 BHP

2

= BHP

1

x 1.6

60 – Use the standard published curve data

50 – Q

2

= Q

1

x .83 H

2

= H

1

x .69 BHP

2

= BHP

1

x .57

40 – Q

2

= Q

1

x .67 H

2

= H

1

x .45 BHP

2

= BHP

1

x .3

30 – Q

2

= Q

1

x .5 H

2

= H

1

x .25 BHP

2

= BHP

1

x .125

An example would be, solve for Q

2

, H

2

and BHP

2

for a 60 Hz

pump that produces 100 gpm (Q

1

) @ 100’ tdh (H

1

) using 5 hp

(BHP

1

) when it is operated at 30 Hz :

Answers: 100 gpm x .5 = 50 gpm, 100’ TDH x .25 = 25’ TDH

and 5 hp x .125 = .63 hp.

VFD’s save energy while reducing the thrust on the motor bear-

ings and the starting torque on the shaft and impeller.
Contact Customer Service for details, pricing and availability of

our full line of VFD products.

Variable Speed Drives