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Standard products
Gas booster pump GLD series
1. Supercharged gas medium:
Air, nitrogen (N2), helium (He), neon (Ne), argon (Ar), natural gas, gas, carbon dioxide (CO2), carbon monoxide (CO), nitrous oxide (N2O), fire extinguishing agent, methane propane and other alkane gases, hospital breathing gas (N2+O2), sulfur hexafluoride gas (SF6), ethylene (C2H4), inert Gas, etc.
For special gases such as oxygen (O2), hydrogen (H2), refrigerant, corrosive gases, please specify in advance when ordering for special treatment.
Two, the working principle
The driving air pressure is generally 3-8bar(0.3-0.8MPa), and the large piston is used to push the small piston to realize the output of high pressure gas at the end of the small piston. When the pressure is closer to the maximum output pressure of the pump, the pump frequency is slower and the flow is smaller.
Three, booster pump function:
Pressurize low pressure gas to achieve high pressure gas output.
Can be customized according to customer requirements of complete sets of pressurization system, filling equipment, air tightness testing equipment, pressure test system, etc.
Iv. Scope of Application:
① Applied to gas filling, filling, recovery, compression, pressurization and so on
② Welding robot gas high-pressure supply
(3) Supporting gas pressurization equipment of gas proportioner
④ Suitable for high-pressure reactor gas pressurization
⑤ Insufficient gas pressure in the workshop for secondary pressurization
Air tight test, high pressure test
⑦ Gas compression test and other occasions
V. Technical parameters:
Single stage double acting single head booster pump type selection technical parameter table
GLD series gas booster pump is a single-acting single-stage booster pump mainly used for pressurizing gas with a certain initial pressure, and the flow rate is twice that of GLA series
Models including GLD04 / GLA06 / GLD25 GLD40 / GLD60 / GLD100 / GLD200 output pressure is proportional to the driving pressure, output pressure is adjustable.
| Model | Pressure ratio | Minimum inlet pressure
(bar) |
Maximum output pressure
(bar) |
Interface size |
Maximum normal flow
(LN/min) |
Net weight (kg) |
||
|
Driving gas |
Gas inlet |
Gas outlet | ||||||
| GLD04 | 4:1 | 3 | 80 | NPT1/2 | NPT1/2 | NPT3/8 | 372 | 19.5 |
| GLD06 | 6:1 | 4 | 80 | NPT1/2 | NPT1/2 | NPT3/8 | 260 | 19.5 |
| GLD10 | 10:1 | 5.5 | 80 | NPT3/8 | NPT3/8 | NPT3/8 | 200 | 19.5 |
| GLD25 | 25:1 | 8 | 200 | NPT1/4 | NPT1/4 | NPT1/4 | 154 | 19.5 |
| GLD40 | 40:1 | 15 | 320 | NPT1/4 | NPT1/4 | NPT1/4 | 92 | 19.5 |
| GLD60 | 60:1 | 25 | 480 | NPT1/4 | NPT1/4 | NPT1/4 | 115 | 19.5 |
| GLD100 | 100:1 | 35 | 800 | NPT1/4 | NPT1/4 | M14*1.5 | 74 | 19.5 |
| GLD200 | 200:1 | 35 | 1300 | ZG1/2 | NPT1/4 | M14*1.5 | 150 | 19.5 |
| The highest output pressure of GLD series booster pump = (booster ratio * driving pressure) + pressurized gas inlet pressure
Example: GLD40 booster ratio 40:1, driving pressure 5bar, the existing pressure of pressurized gas 20bar, outlet pressure = (40*5) +20=220bar |
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In order to facilitate the operation and use of customized gas pressurization system, gas charging system, air tightness testing platform or high pressure air tightness vacuum testing equipment, please consult customer service for details
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