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- Overview
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Features
- Single Acting Single Stage Model “AG” boosters provide economical means of boosting pressure for testing of small components and similar applications where volume is small and efficiency is not important
- Air driven - no electricity required
- No airline lubricator required
- Hydrocarbon free - separation between air and gas sections
- Pressures to 39,000 psi (2690 bar)
- Built-in-cooling on most models
Gas Booster Selection ChartOrder NumberMax. Rated Gas Outlet Pressure PSIG (Bar)Min. Normal Gas supply Pressure PSIG (Bar)Maximum Operating Pressure with: Air Drive Pressure "PA" Gas Supply Pressure "PS"Max. Compression RatioPiston Displacement Basic Displacement "DB" at Zero Load 100 PSI DriveTypical Gas Delivery Actual Volume at Pressure (Air Drive 35 SCFM at 85 PSI)
Single Acting Single Stage Model AG Supply PS PSIG (Bar)Outlet "PO"Per Cycle In3 (Liter)Cycles per MinuteIn3/min. (LIT/min.)Supply in3/min. at PSIG (LIT/min. at Bar)Outlet in3/min. at PSIG (LIT/min. at Bar)AG-71,050 (72.4)25 (1.7)1,050 (72.4)7 PA20:113.2 (.216)1241,630 (26.7)590 at 100 (9.67 at 7)135 at 490 (2.21 at 33.81)AG-152,250 (155)50 (3.5)2,250 (155)15 PA20:16.2 (.101)124769 (12.6)287 at 300 (4.70 at 20.7)85 at 1,050 (1.39 at 72.4)AG-304,500 (310)100 (7)4,500 (310)30 PA25:13.1 (.051)124384 (6.29)142 at 500 (2.33 at 34.5)24.5 at 2,100 (.565 at 145)AG-629,000 (620)200 (14)9,000 (620)60 PA25:13.1 (.051)80248 (4.06)91.5 at 1,000 (1.50 at 69)22 at 4,200 (.361 at 290)AG-7511,250 (775)250 (17)11,250 (775)75 PA25:11.2 (.020)124149 (2.44)55.7 AT 1,500 (.913 at 103)16.0 at 5,250 (2.62 at 362) - Descriptions
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Single Acting Single Stage Model “AG” boosters provide economical means of boosting pressure for testing of small components and similar applications where volume is small and efficiency is not important. They also permit control of maximum pressure by means of an inexpensive air drive pressure regulator. Maximum outlet pressure is drive area ratio times air pressure.
The selection of the proper Gas Booster for any application starts with determining which booster “series” will provide the amount of flow required. This can be determined by the chart information provided in the Overview Tab. The possible ratios for the application are determined by examination of the performance data for the booster using the air pressure and air flow available. The ability of the booster to generate pressure is a function of the drive pressure, the nominal ratio, and the maximum compression ratio. The ability to generate flow is a function of the quantity of air available to drive it, the displacement per cycle of the pump, and the volumetric efficiency. Within each booster series, there are standard materials of construction available. For applications involving aggressive gases, some material substitutions may be possible.
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