Seametrics IP100-200-SERIES User Manual

Ensures full pipe

Keeps pipe full at sensor

Page 7

CONNECTION, OPERATION & REPAIR

CONNECTION

Sensors are supplied with 18 ft. (6m) of cable. For sensors with

no additional electronics, see diagram for color coding of con-

nections. For sensors with on-board electronics, see the manual

accompanying the electronic module.

Rotor Replacement.

Rotors are easily field-replaced. Shaft

and rotor are a single unit, and are not replaced separately.

If replacement is due only to normal shaft wear, bearing re-

placement is probably not necessary. If the rotor has been

damaged by impact, the bearings should also be replaced.

Rotor and bearings can be ordered as a kit, Part No. 25902.

Follow these steps:

1. Unscrew the threaded bearing housings to expose

the shaft ends. If bearings are being replaced,

back them completely out.

2. Remove the rotor. Put the new rotor in its place.

3. Thread in one bearing housing part way, then the

other. Take care to start the end of the shaft into

the bearing hole before tightening further.

4. Screw in bearing housings until they bottom.

Note

: Do not use excessive force.

5. Check for free spin. Blowing lightly on the rotor

should result in it spinning rapidly and coasting to

a smooth stop.

Calibration (“K-Factor”).

In order to properly process pulses from

the flow sensor, a number must be entered into the control to

which the sensor is connected. This number, called the K-factor,

is the number of pulses the sensor puts out per unit of fluid

passing through the pipe. It is normally provided for Seametrics

sensors in pulses per gallon, and is given on the chart “K-factors

for Various Pipe Sizes.” These numbers are based on extensive

testing, which has shown close agreement between different IP

sensors in the same installation. Typically, most K-factor error

can be attributed to installation variables, such as depth setting

and fitting configuration.

It is occasionally possible to field calibrate a sensor by catching

the fluid in a measured container and comparing with the number

of pulses recorded. (To record individual pulses, set the K-factor

on the control to 1.00.) This is especially desirable if the instal-

lation has less than the recommended length of straight pipe

upstream of the sensor.

OPERATION

Theory.

In principle, an insertion flow sensor measures the veloc-

ity of flow at one point in the pipe, and flow rate and total can be

inferred from this one point. Accuracy is decreased by any factor

which makes the flow at the measured point unrepresentative

of the entire flow stream. This includes distorted flow patterns

caused by upstream fittings too close to the sensor. The worst of-

fenders are fittings that increase the flow on one side of the pipe,

such as partially-opened gate or butterfly valves. Fluid moving in

a pipe does not all flow at the same velocity. Toward the center

of the pipe, fluid moves faster than at the wall, and the relation-

ship between the two changes as overall flow rate increases.

This change in the “velocity profile” can result in non-linearity,

which means that the K-factor that is correct for one flow rate

may be incorrect for another. The recommended depth settings

have been carefully chosen to minimize this source of error, and

should be followed carefully, especially in the smaller pipe sizes.

Flow Range.

These sensors are designed to operate at

flow velocities of 0.3 to 30 feet per second. (See chart for

conversion to gallons per minute.) If erratic readings are

encountered at low flows, check the chart to see if flow is

below minimum for the pipe size. The standard shaft and

bearings should have a long life at continuous high flow.

REPAIR

RED (+) 6-24 Vdc

WHITE (signal)

BLACK (-) Power

18' cable standard

Caution!

Never attempt to remove a flow

sensor when there is pressure in the pipe

unless it is specifically designed for hot

tap installation and removal. Loosen the

compression nut slowly to release any trapped pres-

sure. If fluid sprays out when removing the sensor,

stop turning and depressurize the pipe. Failure to

do so could result in the sensor being thrown from

the pipe, resulting in damage or serious injury.