Reference 3 appendix, Vacuum gauge reading when read at altitude – Shellab SVAC4-2 User Manual
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REFERENCE 3
APPENDIX
The Effect of Altitude (Atmospheric Pressure) on Maximum Attainable
Vacuum Level
The Maximum Possible Vacuum Attained is based on your Altitude. Basically, the higher you are the less vacuum
you can attain. Because free air is less dense at higher altitudes (i.e. lower atmospheric pressure) operation at these
higher altitudes has the effect of reducing the capacity and maximum vacuum levels attainable. In general flow is not
affected, just the maximum vacuum level attainable.
It is also important to consider the relationship between atmospheric pressure and altitude as it affects vacuum pump
performance.
Refer to the following table to correct for vacuum pump performance at various altitudes.
Vacuum Gauge Reading When Read at Altitude
Altitude Above
Sea Level (Feet)
Altitude Above
Sea Level
(Meters)
Atmospheric
Pressure (psi)
Maximum Vacuum
Level
Attainable (inches
Hg)
Vacuum Level
Loss at
Altitude
Maximum Vacuum
Level
Possible at this
Altitude
0’
0 M
14.70 psi
29.921” Hg
-
-
1000’
305 M
14.16 psi
28.9” Hg
3.4%
96.6%
2000’
610 M
13.66 psi
27.8” Hg
7.1%
92.9%
3000’
914 M
13.16 psi
26.8” Hg
10.4%
89.6%
4000’
1219 M
12.68 psi
25.8” Hg
13.8%
86.2%
5000’
1524 M
12.22 psi
24.9” Hg
16.8%
83.2%
6000’
1829 M
11.77 psi
24.0” Hg
19.8%
80.2%
7000’
2134 M
11.33 psi
23.1” Hg
22.8%
77.2%
8000’
2438 M
10.91 psi
22.2” Hg
25.9%
74.1%
9000’
2743 M
10.50 psi
21.4” Hg
28.6%
71.4%
10,000’
3048 M
10.10 psi
20.6” Hg
31.3%
68.7%
11,000’
3353 M
9.71 psi
19.8” Hg
33.9%
66.1%
12,000’
3658 M
9.34 psi
19.0” Hg
36.5%
63.5%
13,000’
3962 M
8.97 psi
18.3” Hg
39.0%
61.0%
14,000’
4267 M
8.62 psi
17.5” Hg
41.4%
58.6%
15,000’
4752 M
8.28 psi
16.9” Hg
43.6%
56.4%