Project Overview
Argon Gas Recovery
Argon recovery technology is an environmentally friendly process that uses physical or chemical methods to efficiently recover, purify and recycle argon emitted in industrial production. This type of technology is widely used in high-argon consumption industries such as metal additive manufacturing (such as 3D printing), photovoltaic crystal pulling, and semiconductor manufacturing, aiming to reduce corporate gas costs and carbon emissions.
Principle Introduction
Argon is separated from mixed gases through adsorption, condensation, or membrane separation technologies, removing impurities such as oxygen, moisture, and oil (e.g., using silver-based catalysts or molecular sieves). The purified argon is then compressed to industrial standard pressure (e.g., 0.6 MPa) by an oil-free booster compressor, stored in high-pressure cylinders or liquid argon tanks, and delivered back to the production line through pipelines, forming a closed-loop system.
Product Details
Argon recovery technology is an environmentally friendly process that uses physical or chemical methods to efficiently recover, purify and recycle argon emitted in industrial production. This type of technology is widely used in high-argon consumption industries such as metal additive manufacturing (such as 3D printing), photovoltaic crystal pulling, and semiconductor manufacturing, aiming to reduce corporate gas costs and carbon emissions.
Equipment Advantages
- Precision filtration :Complete filtration system, high precision filtration of dust and other media.
- High overall recovery rate: Overall recovery of up to 99 per cent through precision filtration and two-stage pressure regulation.
- High degree of automation :The whole process is automated, saving manpower costs and reducing labour intensity.
- Low overall energy consumption :Low gas consumption, low overall energy consumption
Product Parameters
| Main configuration | Quantity | Notes |
| Inlet dust filtration system | 1 set | Filter fine dust in the system with a filtration accuracy of<0.1um |
| Low pressure buffer storage tank | 1 piece | Volume 15m3, working pressure 1MPa |
| Variable frequency screw compressor | 1 unit | Oil |
| Argon drying system | 1 group | Drying treatment of gases |
| Argon deoxygenation system | 1 group | Purifying a small amount of oxygen in argon gas |
| Medium pressure buffer storage tank | 1 piece | Volume: 5m3, working pressure: 1.6MPa |
| Liquid driven piston compressor | 1 unit | 220KW, hydraulic driven, oil-free lubrication |
| High pressure buffer storage tank | 1 piece | Volume: 5m3, working pressure: 6.5Mpa |
| Water chiller | 1 unit | Used for cooling the system |
| Medium | Argon | Oxygen content after purification | ≤5PPM |
| Internet traffic | ≥ 1500m³/h | Oil content | ≤0.01ppm |
| Initial pressure of recovered gas | 0.010-0.015Mpa | Dew point temperature | ≤-65°C |
| Pressure after pressurization | ≥6MPa | Media filtration accuracy | <0.1um |
| Overall recycling rate | ≥99% | Total power of equipment | 470KW |
Advanced Technology
Trusted for years.
6k+
Successfully Completed
Business Project
25 Years System Warranty
The company has always taken screening technology as its core, focusing on innovative research and development, and has obtained multiple domestic and international certifications.
Our goal
The company intends to strive to occupy a leading position in the specific field of ultrasonic screening and filtering
Technical tenet
Committed to creating a brand-new screening concept, the experience of advanced technology and personalized quality is more important than the screening machine itself
Technological innovation
The company has designed over 400 to 600 types of high-quality products, and Navigart continuously strives to improve and perfect them, ensuring that the products keep evolving
