ABB Kent-Taylor AquaProbe, Installation Manual

18

APPENDICES

If the ratio is between 0.95 and 1.05 the flow profile is
acceptable and the procedure detailed in section 5.2 can be
used. If outside this ratio the AquaProbe should be resited for
optimum accuracy.

A1.3

Dual Entry Point Method

Refer to Section 3.5 and fit a second mounting boss directly
opposite the one already fitted.

✶

Note. Due to software configuration, all calculations

are in metric units. Therefore if using an imperial pipe, the
diameter 

MUST

 be converted into millimetres (1in =

25.4mm) i.e. a 36in pipe = 914mm.

a) Insert the probe to a depth of 

1

⁄

8

 the pipe diameter through

the original mounting boss.

b) Calculate the insertion factor F

i

=

12.09

D

1 +

1.3042

√

D

+

.

c) Refer to the AquaProbe Transmitter Configuration Manual

and enter a Blockage Factor (BL) of value equal to F

i

.

d) Record the flow velocity reading.

e) Insert the probe to a depth of 

1

⁄

8

 the pipe diameter through

the second mounting boss.

f)

Record the flow velocity reading.

g) Calculate the ratio of the two values recorded.

If the ratio is between 0.95 and 1.05 the flow profile is
acceptable and the procedure detailed in Section 5.2 can be
used. If outside this ratio the AquaProbe should be resited for
optimum accuracy.

A1

Testing the Flow Profile for Symmetry

If there is any doubt as to the symmetry of the flow profile (see
Section 3.2), a Partial Velocity Traverse should be carried out.
This procedure involves comparing the value of velocity at two
points at equal distances from the centre line.

It is normal to compare the flow velocities at insertion depths of

1

⁄

8

 and 

7

⁄

8

 of the pipe diameter as these points are always on the

'knee' of the profile.

A1.1

Partial Velocity Traverse

Determine the internal diameter D of the pipe, in millimetres,
by the most accurate method available. If the AquaProbe
insertion length is greater than the internal diameter of the
pipe, proceed with the Single Entry Point Method detailed in
Section A1.2. If the AquaProbe insertion length is less than the
internal diameter of the pipe, proceed with the Dual Entry
Point Method detailed in Section A1.3.

A1.2

Single Entry Point Method

a) Insert the probe to a depth of 

1

⁄

8

 the pipe diameter – see Fig.

3.14 on page 9.

✶

Note. Due to software configuration, all calculations

are in metric units. Therefore if using an imperial pipe, the
diameter 

MUST

 be converted into millimetres (1in =

25.4mm) i.e. a 36in pipe = 914mm.

b) Calculate the insertion factor F

i

=

12.09

D

1 +

1.3042

√

D

+

.

c) Refer to the AquaProbe Transmitter Configuration Manual

and enter a Blockage Factor (BL) of value equal to F

i

.

d) Record the flow velocity reading.

e) Insert the probe to a depth of 

7

⁄

8

 the pipe diameter.

f)

Calculate the insertion factor F

i

=

12.09

D

1 +

1.3042

√

D

-

.

g) Refer to the AquaProbe Transmitter Configuration Manual

and enter a Blockage Factor (BL) of value equal to F

i

.

h) Record the flow velocity reading.

i)

Calculate the ratio of the two values recorded.