High purity protective gas delivery quartz glass tube
High purity protective gas transport quartz glass tube is a special industrial technical glass pipeline mainly used for transporting high-purity gases and liquids.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
Availability: | |
---|---|
High purity protective gas delivery quartz glass tube
High purity protective gas transport quartz glass tube is a special industrial technical glass pipeline mainly used for transporting high-purity gases and liquids. These pipelines are made of high-quality quartz material, which has excellent chemical inertness, stability, and physical properties, and can meet the needs of high-purity gas transmission.
When designing and selecting high-purity gas pipeline systems, the following key points need to be considered:
Independent supply area planning: Based on gas characteristics such as corrosiveness, toxicity, flammability, etc., gases with the same properties are centrally managed and corresponding areas are planned, such as corrosive/toxic gas areas, flammable gas areas, and inert gas areas.
Pipeline design: It is necessary to consider the conveying distance, flow rate, pressure, and pipe diameter size. The usual reasonable flow rate is 20ml/S, which should be less than 10ml/S for flammable gases and less than 8ml/S for toxic/corrosive gases.
Pipe network design: The pipe network should not be too large or too long. It is recommended to use an open circular pipeline and continuously discharge a small amount of gas at the end of the system to maintain high-purity gas circulation in the pipe network and avoid pollution caused by dead space.
Reduce dead space: The dead space of non flowing gas in the pipeline should be reduced, blind pipes should be avoided, and blowing control devices and multi valve control devices should be installed to ensure the safe and reliable operation of the system.
Graded conveying system: According to the requirements of different gas equipment for gas purity, a graded high-purity gas conveying system or a system of the same grade is adopted, and an end gas purification device is installed near the high-purity equipment.
Testing instruments and sampling ports: Set up necessary continuous testing instruments, such as water content or oxygen impurity content analyzers, as well as testing sampling ports for regular sampling, to monitor gas purity and impurity content.
Quartz glass pipes have become an ideal choice for the transmission of high-purity gases and liquids due to their excellent performance, especially in industries such as semiconductors, pharmaceuticals, and chemicals where high gas purity is required.
High purity protective gas delivery quartz glass tube
High purity protective gas transport quartz glass tube is a special industrial technical glass pipeline mainly used for transporting high-purity gases and liquids. These pipelines are made of high-quality quartz material, which has excellent chemical inertness, stability, and physical properties, and can meet the needs of high-purity gas transmission.
When designing and selecting high-purity gas pipeline systems, the following key points need to be considered:
Independent supply area planning: Based on gas characteristics such as corrosiveness, toxicity, flammability, etc., gases with the same properties are centrally managed and corresponding areas are planned, such as corrosive/toxic gas areas, flammable gas areas, and inert gas areas.
Pipeline design: It is necessary to consider the conveying distance, flow rate, pressure, and pipe diameter size. The usual reasonable flow rate is 20ml/S, which should be less than 10ml/S for flammable gases and less than 8ml/S for toxic/corrosive gases.
Pipe network design: The pipe network should not be too large or too long. It is recommended to use an open circular pipeline and continuously discharge a small amount of gas at the end of the system to maintain high-purity gas circulation in the pipe network and avoid pollution caused by dead space.
Reduce dead space: The dead space of non flowing gas in the pipeline should be reduced, blind pipes should be avoided, and blowing control devices and multi valve control devices should be installed to ensure the safe and reliable operation of the system.
Graded conveying system: According to the requirements of different gas equipment for gas purity, a graded high-purity gas conveying system or a system of the same grade is adopted, and an end gas purification device is installed near the high-purity equipment.
Testing instruments and sampling ports: Set up necessary continuous testing instruments, such as water content or oxygen impurity content analyzers, as well as testing sampling ports for regular sampling, to monitor gas purity and impurity content.
Quartz glass pipes have become an ideal choice for the transmission of high-purity gases and liquids due to their excellent performance, especially in industries such as semiconductors, pharmaceuticals, and chemicals where high gas purity is required.