Lafarge Process Kit - Air flow rate - AnemometerV2.pdf

Lafarge Process Kit
Methods
Version 2
Direction Industrielle
Direction Assistance des
Procédés
MEASUREMENT OF AIR FLOW
RATE WITH ANEMOMETER
Page : 1/11
Date : Dec 01, 2008
© Copyright 2006, Lafarge Plâtres
All rights reserved. No part of this document may be reproduced, stored in a retrieval system, translated, or transmitted in any form or by any means, electronic, mechanical,
photocopying, recording, or otherwise, without prior written permission of Lafarge Plâtres. CONFIDENTIAL The information contained herein is confidential and proprietary to
Lafarge Plâtres. It may not be disclosed or transferred, directly or indirectly, to any third party without the explicit written permission of Lafarge Plâtres
SUMMARY
1. PURPOSE............................................................................................................................. 1
2. FIELD OF APPLICATION...................................................................................................... 1
3. PRINCIPLE ........................................................................................................................... 1
4. SAFETY................................................................................................................................. 1
5. EQUIPMENTS....................................................................................................................... 2
6. WORKING INSTRUCTIONS ................................................................................................. 3
6.1. Location of the measurement hole.................................................................................. 3
6.2. Evaluation of the number of measurement points........................................................... 4
6.3. Measurement of air flow with the Anemometer............................................................... 9
6.4. Calculation of air flow rate .............................................................................................11
1. PURPOSE
Measure the air flow rate inside air duct using the Anemometer.
2. FIELD OF APPLICATION
All LAFARGE Gypsum Division production sites.
3. PRINCIPLE
Determine the average gas velocity through a pipe section using the Anemometer. To
measure relevant figures, the section of the pipe or air duct should have an uniform velocity
repartition and should not present any vortex zone or return flow. Furthermore the
measurement is usually considered difficult when the gas velocity is lower than 1 m/s.
Reminder:
- Do not use the Anemometer in a corrosive and dusty environment.
- If the relative humidity is high, some water due to condensation could disturb the
measurement.
4. SAFETY
For the measurement of air flow, the technician in charge of the test must wear safety gloves.

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
5. EQUIPMENT
Equipment recommendations
Equipment Supplier Price estimation
Cylindrical probe, Length: 170mm,
Diam.: 25mm
HONTSCH
(distributor : TH Industrie - France)
1900 Euros
Extension steel pipe HONTSCH
µP FLOWTHERM HONTSCH
1400 Euros

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
6. WORKING INSTRUCTIONS
6.1. Location of the measurement hole
The pipe section must be located on the straight part of the pipe in order to have uniform shape
and a constant diameter.
The location of the measurement hole has to comply with the following conditions :
1. The upstream distance should be at least equal to 5 times the hydraulic diameter (Dh).
2. The downstream distance should be at least equal to 5 times the hydraulic diameter (Dh) when
the pipe outlet is not connected (stack) or when the downstream perturbations can have an
important influence on the measurement. About the angled pipe, the distance is twice the
hydraulic diameter from the angled pipe.
5 x Dh
minimum 2 x Dh
distance minimum
measurement distance
section
5 x Dh 5 x Dh
minimum minimum
distance gas gas distance
When the downstream perturbation When the downstream perturbation
has an important influence has a slight influence

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
Hydraulic diameter: Dh
Dh : hydraulic diameter
S : pipe section
P : pipe perimeter
P
S
4
h
D ×
=
• In the case of a circular pipe which diameter is noted “D”; it is easy to verify that :
D
circular
h
D =
• In the case of a rectangular pipe which length is noted “L” and width is noted “l”; it is easy to
verify that :
)
l
L
(
l
.
L
2
gular
tan
rec
h
D
+
×
=
• In the case of a square pipe which side is noted “L” ”; it is easy to verify that :
L
square
h
D =
6.2. Evaluation of the number of measurement points
Circular pipe
The method to follow is the “Log-Tchebycheff method” :
• “n” is the number of measurement points per radius (total number of points = 2n)
• “i” appoints one measurement point (1 ≤ i ≤ 2n)
diameter 'D
1st
radius
2nd
radius
i
1 Y1
2n
Yi
Y2n

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
There is n measurement points per radius and thus 2n measurement points per diameter. Those
points are symmetric to each other from the center of the pipe. There’s no measurement on the
center of the pipe.
“Yi” is calculated as per the equation : Yi = Ci x D using the table presented here under.
Due to the symmetry from the center of the pipe : Ci+ C2n+1-i = 1
n 1
st
radius 2
nd
radius
3
C1 = 0.0320
C2 = 0.1375
C3 = 0.3125
C6 = 0.9680
C5 = 0.8625
C4 = 0.6875
4
C1 = 0.0240
C2 = 0.1000
C3 = 0.1940
C4 = 0.3345
C1 = 0.9760
C2 = 0.9000
C3 = 0.8060
C4 = 0.6655
5
C1 = 0.0240
C2 = 0.1000
C3 = 0.1940
C4 = 0.3345
C4 = 0.3565
C1 = 0.0240
C2 = 0.1000
C3 = 0.1940
C4 = 0.3345
C4 = 0.6435
Example : n= 3 with a 300 mm pipe.
In that case the total measurement points is 6 (Y1 to Y6). The hereunder table
presents the calculation results:
1
st
radius 2
nd
radius
i Ci Yi (mm) i Ci Yi (mm)
1 C1 = 0.0320 10 6 C6 = 0.9680 290
2 C2 = 0.1375 41 5 C5 = 0.8625 259
3 C3 = 0.3125 94 4 C4 = 0.6875 206
D = 300 mm
Y1 = 10
Y2 = 41
Y3 = 94
Y4 = 206
Y5 = 259
Y6=290
1 2 3 4 5 6

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
Rectangular pipe
The equal areas are represented on the drawing here under :
L/2n
l/2n
l
n points
N
p
o
i
n
t
s
L
• “N” is the number of measurement points on the length “L”.
• “n” is the number of measurement points on the width “l”.
The number of equal areas is : N x n
The smaller distance from one measuring point to the wall is
n
2
L
for the length.
The smaller distance from one measuring point to the wall is
n
2
l
for the width.
The following tables are presenting some examples for the values of : N, n,
n
2
L
,
n
2
l
.
For different square pipes : 1
l
L
= and for different rectangular pipes : 1
l
L

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
For a square area 1
l
L
=
L (m) N L/2n (cm) l (m) n l/2n (cm)
0.5 2 12.5 0.5 2 12.5
1.0 4 12.5 1.0 4 12.5
1.5 5 15.0 1.5 5 15.0
2.0 6 16.7 2.0 6 16.7
2.5 7 17.9 2.5 7 17.9
3.0 8 18.8 3.0 8 18.8
For a rectangular area 5
.
1
l
L
=
L (m) N L/2n (cm) l (m) n l/2n (cm)
0.75 3 12.5 0.5 2 12.5
1.50 5 15.0 1.0 4 12.5
2.25 7 16.1 1.5 5 15.0
3.00 8 18.8 2.0 6 16.7
3.75 8 23.4 2.5 7 17.9
The curve here under is a resume of those results :
Number of measuring points
as a function of L and l
0
1
2
3
4
5
6
7
8
9
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5
L or l (m)
N
or
n

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
Example : Rectangular pipe
length L = 50 cm
width l = 40 cm
Considering the curve here above :
For the length : N = 2
For the width : n = 2
The distances between each point are presented in the table here under :
L (m) 0.5
L (m) 0.4
N 2
n 2
L/2N (mm) 125
l/2n (mm) 100
The drawing for the measurement points location is the following one :
500
400
100
125
The total measurement points is : N x n = 4 x 4 = 16

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
6.3. Measurement of air flow with the Anemometer
• Make sure that the arrow (indicated on the
probe) is in the direction of the air flow.
• Put the anemometer inside the air duct.
Protect the measurement hole on the air
duct with card board.

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
• Measure the air velocity (m/s)
• Record the highest value from the display
(highest value due to the inertia of the
propeller, in most of cases the velocity will
be slightly underestimated).
• Move the anemometer on the section pipe
according to the defined location of
measurement points.

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Methods
Version 2
Procédés
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Date : Dec 01, 2008
6.4. Calculation of air flow rate
To calculate the value of the air flow, use Thermicalc software as shown below:
Key in the “yellow cells” the following figures:
- Air flow rate (following the above test method)
- Static pressure (following the method from the Lafarge Process Kit)
- Dry temperature (following the method from the Lafarge Process Kit)
- Wet Bulb temperature (following the method from the Lafarge Process Kit)
- Diameter of the section
- Atmospheric pressure (according to the location of the plant)

Lafarge Process Kit - Air flow rate - AnemometerV2.pdf

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