HYDROGEN GETTER WITH A CRYOGENIC TANK VACUUM SPACE
HYDROGEN GETTER WITH A CRYOGENIC TANK VACUUM SPACE
Hydrogen getter with a cryogenic tank vacuum space
Background
Why We focus on Hydrogen getter with a cryogenic tank vacuum space
To maintain good thermal insulation performance, the vacuum degree of the dissection is generally below 10-²Pa Pa. The leakage and outgassing in the high-vacuum dissection insulation tank are the main factors that destroy its vacuum degree.
Leakage: leakage of the inner and outer tank. The main components are N2、O2 、CO2 and H2O, which account for 20% to 30% of the leaked gas and can be easily absorbed by activated carbon or traditional zeolites at 77 K or above.
Outgassing: outgassing of carbon steel, stainless steel, aluminum foil, and cellophane, producing mainly H2, H2 accounts for 70%~80% of the leakage and outgassing and it is difficult to be absorbed, making it a key factor for the destroy of vacuum degree.
Solution
The main characteristics of the JLHA-100 series are as follows:
The high-vacuum multi-layer insulation tank is mainly composed of the outer shell (carbon steel), inner tank (stainless steel), reflective material (aluminum foil), and insulation material (cellophane).
a) the adsorption capacity of PdO for H2 is about 8 times that of JLHA-100. In practical use, taking into account the influence of other factors, in order to ensure the same hydrogen adsorption performance, the recommended amount of JLHA-100 is 10-15 times that of PdO;
b) the adsorption capacity of JLHA-100 is higher than that of imported and domestic products
c)Application of hydrogen getter in high-vacuum multi-layer insulation tank plays a key role in maintaining the vacuum degree for a long period. The maintenance of vacuum degree mainly depends on the characteristics and amount of the hydrogen getter, and whether it can work well.
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