recovery co2 compressor for beerrefers to a compressor for pressurizing carbon dioxide gas and achieving transportation. Mainly used,
1. Recycling of dry ice volatilized gas from CO2 plant, recycling of CO2 from factory,
2. Industrial and pharmaceutical extraction processes using the liquid properties of CO2
3. Large-scale carbon dioxide compressor is mainly used in urea synthesis equipment
When generator co2 compressor designing and using, it should be noted that: (1) the critical temperature of carbon dioxide is high, and it can be liquefied at 31.3 ° C and 7.14 MPa. When used in winter, the interstage cooling temperature should not be too low; (2) when carbon dioxide is below 60 MPa, it is beneficial to gas. (3) Due to the relatively high relative density of carbon dioxide gas, it is not appropriate to use an excessively large average piston speed, otherwise the gas valve resistance is high; (4) carbon dioxide gas contains a small amount of water, which is highly corrosive, so the gas valve, Coolers and buffer tanks are required to be made of stainless steel.
here is large recovery co2 compressor technical data
Core Characteristics of Oil-Free Carbon Dioxide Compressor
Oil-Free Lubrication Design
Uses rust-resistant materials such as stainless steel and brass to prevent oil contamination and ensure carbon dioxide purity.
High-Pressure Output Capability
Supports high-pressure filling to meet industrial gas boosting requirements.
Safety and Reliability
Equipped with a fully oil-free self-lubricating system to reduce explosion risks.
Modular Design
Adapts to different performance requirements by replacing standard cylinder bores.
Sealing Design
Absolutely prevents leakage of harmful gases.
Cooling Methods
Supports both water cooling and air cooling.
Pressure-Lubricated Bearings
Extends bearing life and increases bearing size.
Isolated Cylinder Section
Prevents oil vapor from entering the cylinder, eliminating the need for post-filtration devices.
Vertical Crosshead Structure
Ensures oil-free compression and improves crosshead lifespan.
| Model | Working medium | suction pressure (Mpa,Psig) | Discharge pressure (Mpa,Psig) | Motor.KW | Flow rate Nm3/hr | Voltage | Cooling way |
| CW-30/0.05-20 | CO2 | Atmosphere | 2,287 | 7.5kw | 30 | 220V/380V/415V/440V 50/60HZ | air cooling |
| CW-30/3-30 | CO2 | 0.3,43 | 3,430 | 7.5 | 30 | 220V/380V/415V/440V 50/60HZ | air cooling |
| CW-30/2-65 | CO2 | 0.2,28 | 6.5,935 | 30 | 11 | 220V/380V/415V/440V 50/60HZ | air cooling |
| CW-30/55-80 | CO2 | 5.5,790 | 8,1150 | 1.1 | 30 | 220V/380V/415V/440V 50/60HZ | air cooling |
| CW-80/0.05-20 | CO2 | Atmosphere | 2,287 | 18.5 | 80 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-105/0.2-25 | CO2 | 0.02,3 | 2.5,360 | 30 | 105 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-100/0.05-20 | CO2 | Atmosphere | 2,287 | 22 | 100 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-110/0.02-18 | CO2 | Atmosphere | 1.8,260 | 30 | 110 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-135/0.05-20 | CO2 | Atmosphere | 2,287 | 30 | 130 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-250/2-25 | CO2 | 0.2,28 | 2.5,360 | 37 | 250 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-300/1-25 | CO2 | 0.1,14 | 2.5,360 | 45 | 300 | 220V/380V/415V/440V 50/60HZ | water cooling |
| CW-1200/70-150 | CO2 | 7,1000 | 15,2150 | 55 | 1200 | 220V/380V/415V/440V 50/60HZ | water cooling |
1. The above parameters are for reference only, and subject to the final technical quotation