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cryogenic storage tank is a specialized type of tank that is used to store materials at extremely low temperatures, typically below -150°C. These tanks are used to store a wide range of materials, including gases such as liquid nitrogen and liquid helium, as well as liquids such as liquid oxygen, liquid natural gas, and liquid hydrogen.
Cryogenic storage tanks are typically made of materials that are able to withstand the extreme temperatures and pressures associated with cryogenic storage. These materials include stainless steel, aluminum, and carbon steel, with inner vessels made of stainless steel and an outer vessel made of carbon steel.
The tanks are designed with safety in mind, they have several safety features to prevent accidents such as pressure relief valves, emergency vent systems, and automatic shut-off systems. They are also designed to be highly insulated to minimize heat transfer and keep the stored materials at their desired temperatures.
There are several types of cryogenic storage tanks, each designed for a specific purpose and application. Some examples include:
Dewar tanks, which are non-pressurized tanks that are used for the storage and transportation of cryogenic liquids
Cryogenic liquid cylinders, which are pressurized tanks that are used for the storage and transportation of cryogenic gases
Flat-bottom tanks, which are used for the storage of large quantities of cryogenic liquids
Spherical tanks, which are used for the storage of large quantities of cryogenic gases
When choosing a cryogenic storage tank, it's important to consider the type of material to be stored, the desired capacity, and the intended use of the tank. It's also important to ensure that the tank meets all relevant safety and regulatory standards.
Mini tank series
1.Mini tank adopts integrated design and leaves the factory after overall debugging: the tank body, pipeline, base, gasification and pressurization are fully integrated,free of installation and commissioning on site, with zero distance from the gas-using equipment and less loss;
2. High vacuum multi-layer adiabatic winding, ultra-low heat conduction structure design, high vacuum maintenance system, and perfect multi-stage vacuum extraction process to ensure that the product has better vacuum performance;
3. Optimized design of internal and external pipelines, providing standard interfaces such as double charging, large diameter boosting, overflow and air defense, ensuring stable gas pressure and flow under different gas usage conditions
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