Super Insulation

While the radiation shield effectively reflects a portion of the radiation heat, it also absorbs and transmits some of the heat to the adjacent layers through solid conduction. To mitigate radial heat transfer between these adjacent layers of the radiation shield, we incorporate spacers. These spacers are made from our proprietary inorganic glass fiber material, which is both flame retardant and compatible for use with liquid oxygen, certified to meet US DOT MC-338 standards. The spacers are manufactured with a specific porosity that allows for the formation of an efficient thermal barrier in the form of interstitial vacuum spaces.

To ensure the highest quality and performance of our super insulation materials, we subject them to a meticulous degassing treatment process. This process involves subjecting the materials to extreme heat and ultra-high vacuum conditions, combined with cryogenic condensation procedures. Through this procedure, volatile hydrocarbons, moisture vapor, and lighter gas molecules are effectively removed.

The twin-layer super insulation material is then expertly applied to the process pipes using a semi-automatic wrapping machine, forming multiple layers of insulation. Careful control of the wrapping load guarantees a consistent bulk density of 25 layers/cm throughout the entire length of the pipe. To achieve the desired radiation heat barrier, more than 40 layers of the radiation shield are meticulously applied, based on our calculation model. Following this application, the product undergoes a high-temperature baking and ultra-high vacuum evacuation process to eliminate any remaining moisture and gas molecule residues from the annular space. The final outcome is a product with an extremely low apparent thermal conductivity (Kt) that is virtually free of heat leaks, thereby preventing costly boil-off of your cryogen.