Compressed Air: Better Performance And Savings
Compressed air is – per unit of energy – the most expensive utility in your plant.
Most of the input energy is lost as heat with, at best, only about 15 percent remaining
in the compressed air. Usually, about half of this compressed air does useful work.
The rest is wasted through leaks, artificial demand and inappropriate uses. Often,
the best opportunities for savings and improving performance are in the plant, not
the compressor room.
It is not unusual for a facility to have 25 percent or more of its compressed air
production lost to leaks. Think of this as throwing away money. Repairing leaks
makes more compressed air available to do work. Leak detection and repair should
be part of regular maintenance. Leaks are most easily found by listening as you
walk through the facility when it's quiet.
Unreliable pressure at a point of use can be significant enough to slow production
or cause defects. Instead of identifying the cause of unreliable pressure, a common
response to this problem is to increase pressure at the compressor. This increases
leaks and air use at unregulated end uses. The solution is to first stabilize pressure,
then determine whether you need to increase it. Start at the point of use.
How much pressure drop is there near the point of use? Pressure loss through hoses,
connectors, regulators, and filters can be surprisingly high and can often be reduced
by eliminating unnecessary components and improving piping at the end use.
What pressure is required right at the point of use? Raising system pressure instead
of reducing pressure loss at the end use will result in greater pressure variation
and higher costs.
Do you have rapidly changing, intermittent end uses? Compressed air only moves so
fast in a pipe, so pressure can drop significantly before the compressor responds.
Changes at the air compressor, including increasing pressure, do little to increase
air available to problem areas. These uses rely on air storage in the system.
Adding a compressed air storage tank as close as possible to the point of use will
make compressed air available when and where it is needed. To make sure pressure
is stable in the system and at nearby equipment, you may need to regulate the rate
at which this tank is refilled.
Many functions can be accomplished more inexpensively another way. Use engineered
nozzles for open blowing; mechanical means for mixing, pumping, and conveying; and
fans or blowers for drying, cooling, and vacuum generation.
All of these measures can improve your system performance. To take full advantage
of cost savings, it is important to have compressor controls that can take advantage
of reduced air use.
Call Greg Kelleher or Alan Fraser at (541) 685-7000 to determine how much you're spending
on compressed air or on any other electrical system. Before you purchase any motor
driven device, call us to help select and fund the most efficient choice.