Introduction
High purity liquid oxygen is an extremely pure form of oxygen, widely used in various high-tech and specialized industries. It is regulated by the standard GB/T 14599-2008 and has a remarkable purity level of 99.999%. This ultra-high purity ensures minimal impurities, making it suitable for applications where even trace contaminants could have significant adverse effects. It is typically supplied in two main forms: tank gas supply and Dewar gas supply, both of which facilitate large-scale storage and transportation.
Information Table of High Purity Liquid Oxygen
| Item | Description |
|---|---|
| Name | High Purity Liquid Oxygen |
| Purity | 99.999% |
| Supply Forms | Tank gas supply, Dewar gas supply |
| Applications | Aerospace, electronic industry, medicine, biotechnology, etc. |
| Regulatory Standard | GB/T 14599-2008 |
Detailed Description
High purity liquid oxygen is a critical component in modern advanced industries, particularly those that require extremely clean and reliable gas supplies. Its purity level of 99.999% is achieved through stringent production processes that remove even the smallest traces of impurities. This level of purity is essential in applications such as aerospace, where the gas is used in rocket propulsion systems, and in the electronics industry, where it is used in semiconductor manufacturing processes.
The supply forms of tank gas and Dewar gas are designed to meet the needs of large-scale industrial operations. Tank gas supply is ideal for continuous, high-volume applications, providing a steady and reliable source of oxygen. Dewar gas supply, on the other hand, offers flexibility and portability, making it suitable for applications where the gas needs to be transported to different locations or used in mobile setups.
In the aerospace industry, high purity liquid oxygen is a key component in rocket propulsion systems. Its high purity ensures that it can be used safely and efficiently in the extreme conditions of space travel. The absence of impurities helps prevent any potential combustion issues or system failures, which are critical for the success of space missions.
In the electronics industry, high purity liquid oxygen is used in semiconductor manufacturing processes. These processes require extremely clean environments and materials, as even trace amounts of impurities can affect the performance and reliability of electronic components. High purity liquid oxygen is used in oxidation and etching processes, helping to create the precise structures needed for modern microchips.
In the medical and biotechnology fields, high purity liquid oxygen is used in specialized applications such as cryotherapy and cryopreservation. Its purity ensures that it can be used safely in these sensitive processes, which often involve delicate biological materials. Additionally, it is used in research and development, where its high purity allows for accurate and reliable experimental results.
The standard GB/T 14599-2008 provides strict guidelines for the production, testing, and distribution of high purity liquid oxygen. These regulations ensure that the gas meets the highest standards of purity and safety. Regular testing and quality control measures are implemented throughout the production process to guarantee that each batch of high purity liquid oxygen meets the required specifications.
In summary, high purity liquid oxygen is an essential gas with a wide range of applications in advanced industries. Its remarkable purity level of 99.999% and reliable supply forms make it a crucial resource for industries such as aerospace, electronics, medicine, and biotechnology. The strict regulations set by GB/T 14599-2008 ensure that high purity liquid oxygen remains a safe and effective tool for those who depend on it.
