Quantcast Appendix B Evaluation of Losses in Compressed Air Systems

Share on Google+Share on FacebookShare on LinkedInShare on TwitterShare on DiggShare on Stumble Upon
Custom Search

1 COMPRESSED AIR SYSTEM LEAKS.  Leakage of compressed air is a problem at
industrial installations and, if uncorrected, will result in significant
monetary losses (table B-l). Leakage can result from corrosion in underground
piping, damaged joints, and defective fittings and valves. A relatively
simple test has been devised which rapidly and economically determines whether
a distribution line is leaking and if so, the magnitude of the losses.
2 TEST METHOD.  This test requires that a segment of a compressed air
distribution line be pressurized, sealed, and checked by use of a pressure
gauge to determine if the line is leaking. If there is no pressure decrease,
there is no leakage. If the pressure does decrease, a leak is indicated. The
amount of leakage can be determined and a graph prepared that determines the
The following test equipment is simple and inexpensive:
Pressure gauge
4 TEST PRECAUTIONS. This test produces valid results as long as the
relationship between pressure and flow rate is linear. Assuming a sonic exit
velocity, the relationship will be linear as long as the ratio of the
atmospheric pressure to the line pressure exceeds the critical pressure ratio
of 0.53 for gases. Thus, to ensure maximum accuracy, test data should not be
used if the pressure gauge registers less than 20 psig.
5 TEST PROCEDURES.  The following steps must be performed to complete a
pressure decay test.
(a) Obtain scale drawings of the section to be tested. Verify drawings
in the field and calculate the volume of the section to be tested.
(b) Install a pressure gauge at a convenient location.
(c) Secure all loads the line supplies.
(d) Isolate the line from the compressed air system.
(e) Immediately begin taking readings at the pressure gauge but do not
try to start the moment the valve is closed. Observe the pressure gauge and
begin timing when the pointer passes a convenient mark. Example: On a
lOO-psig system, wait for the pressure gauge to reach 95 psig before starting
the stopwatch.
(f) Note the time at convenient pressure intervals (5 or 10 psi
increments).  Continue data recording until 20 psig is reached. A suggested
format for collecting this data in the field is shown in table B-2.


Privacy Statement - Copyright Information. - Contact Us

Integrated Publishing, Inc.