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In general, an air or
gas charging application requires a specific volume to be brought
to a specific
pressure
within
a given
amount of time. The adjacent Tables will assist you
in selecting the most efficient ratio EPD Products booster
for your application requirements. A typical hose pressure
testing application:
- Hose with one cubic foot volume is to
be pressure tested at 500 psig. Pressure level is to
be reached in three minutes. Available shop air is 150 psi.
- Using
Table 1, Low Pressure Gas Boosters Performance, page
22, find the
required receiver pressure of 500 psi. Compare the
figures found in the 500 psi discharge pressure column to
the desired
time of three minutes. The column figures nearest to
three minutes is 2 minutes, 45 seconds with a discharge rate
of 4.4 standard cubic feet per minute. So, the 5:1 ratio
booster
will
do this job more efficiently than a 15:1 ratio booster.
- Note that the booster driving air pressure and
above calculations are based on 100 psi, so the shop
air pressure of 150 psi must be reduced to 100 psi driving
air to operate the booster. Shop air of 150 psi should
still be supplied to the inlet port of the compressing
portion
of the booster. The higher the precharge inlet pressure,
the faster the discharge outlet pressure will be reached.
- For the above hose test, the S-86-JN-5 booster
or S- 486-JN-5 booster power unit could be used
The EPD Products gas booster
is a piston-type, air-operated booster. It uses a mechanically
operated, snap-action air selector
valve to cycle the booster.
The EPD Products booster, like EPD Product air-driven
hydraulic pumps, employ the piston differential areas principle
- a large area air piston, driven at low air pressure to drive
a small area compression piston which converts input gas to
higher pressure, lower volume output gas.
The booster gas output
or discharge pressure developed by the compression piston is
determined by the ratio between the
area of the air piston, the operating air pressure and the
available precharge pressure. The function of the precharge
pressure to the booster is to charge the high pressure cylinder
inside the booster with gas, reducing the time required to
reach higher pressures, and the time to return the compression
piston and the air piston for the next compression cycle.
The
EPD Products booster works rapidly to reach the required
pressure then stops at a pressure balance. The booster will
hold the pressure balance indefinitely with minimal energy
consumption, heat build-up or parts movement. When a pressure
imbalance occurs, the booster will automatically restart to
restore the pressure balance.
By using a pressure regulator
on the operating air supply line, the outlet gas pressure can
be accurately adjusted to
any pressure level between the precharge pressure and the maximum
discharge pressure.
With some EPD Products booster models,
the pumping or high pressure section is cooled with exhaust
air piped from
the air-driving section of the booster. In other boosters the
pumping section employs external fins to dissipate the heat.
Compared
to other air-operated gas boosters on the market, the EPD
Products booster does the same job but with fewer
moving parts and seals, thus less maintenance is required over
its service life.
For more information call 440-
838-7690 or email EPD@EPD.curtisswright.com
Questions, comments and suggestions can
be directed to webmaster@curtisswright.com
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