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Co₂ Booster System

Name: Co₂ Booster System
Brand: Dongguan Hetair Intelligent Equipment Co., Ltd.
Rating: 4.2 (3 reviews)

The liquid CO₂ boosting system is specifically designed to increase the pressure of the liquid CO2 supplied by the storage tank to the pressure required for the snowflake cleaning machine.

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Co₂ Booster System Specifications

Model	HT-GB-10-380
Boost Ratio	1:10
Maximum Compression Ratio	1:50
Minimum Input Pressure	74 psi (5 bar)
Maximum Output Pressure	1450 psi (100 bar)
Maximum Drive Pressure	145 psi (10 bar)

CO2 inlet pressure	C02 jet/Surface Angle”
CO2 Outlet Pressure	55-65bar adjustable
Air inlet pressure	6-8bar
Control Voltage	220VAC

Co₂ Booster System Features

This system is composed of two parts: the liquid CO2 boosting pipeline and the compressed air driving pipeline.

The supply pressure of the liquid CO2, the supply pressure of the compressed air, and the pressure of the liquid CO2 after boosting in this system can all be directly read on the panel.

All CO2 pipeline materials in this system are made of SS304 material. The design pressure of the system in front of the booster pump is 30 barg, and the design pressure of the system behind the booster pump is 100 barg.

The cabinet of the CO2 boosting system is designed with a galvanized sheet material and has a powder-sprayed surface, which is sturdy, durable, and aesthetically pleasing.

Designed based on the principle of manual operation, the boosting start and boosting pressure adjustment are all manually operated, and all instruments only provide an observation function.

The boosting cabinet is equipped with functions such as an electrical automatic safety valve and a mechanical safety valve, as well as the detection of the working frequency and temperature control of the boosting valve to ensure the safety and service life of the booster pump.

The core components are imported, and the pump body structure is independently developed, produced, and assembled. All components have safety stock, making it the first choice for high cost-effectiveness.