(Continued, September 16, 2024)
The Argon Recovery SOG Project launched by LifenGas has effectively solved the supply problem of high-purity argon gas with its innovative cooperation model.
In the context of rapid development in the solar photovoltaic power generation industry, the demand for argon, an essential purifying and protective gas in the production of monocrystalline and polycrystalline silicon, has continued to increase. Its rising price has seriously affected the sustainable development of the photovoltaic industry.
Although the amount of argon in the atmosphere is extremely low, less than one percent, it is an essential part of the photovoltaic crystalline silicon manufacturing process.
Traditional argon production relies on air separation and extraction during the ASU oxygen production process, which is costly. With the rapid development of the solar photovoltaic industry, the issue of supply and demand is becoming increasingly critical.
By reducing argon consumption and exhaust emissions, the project contributes to the reduction of environmental risks and aligns with current research focus on environmental safety and the prevention and control of health risks.
It is worth noting that the promotion and application of this technology has not only brought significant economic benefits to the solar photovoltaic industry but has also promoted innovation and development of environmental protection technologies on a global scale.
The Argon Recovery SOG project launched by LifenGas not only solves the problem of scarce argon supply but also achieves the dual benefits of environmental protection and economic gain.
As the challenges facing China's ecological and environmental governance become more severe during the 14th Five-Year Plan period, the successful implementation of such projects will undoubtedly provide integral support for building a beautiful China and promoting the green transition of economy and society.
The table below shows the benefits that LifenGas has brought to customers:
Post time: Sep-19-2024