Before using the cryogenic tank, it should be purged with liquid oxygen from a tanker truck to ensure that the dew point of the gas in the tank is no higher than -45°C before it can be used.
The stainless steel inner tank is suitable for contact with low-temperature media, and the plate thickness can withstand 8 to 16 kilograms of pressure, which is enough to ensure the pressure-bearing safety of the cryogenic liquid oxygen tanks.
Before using liquid oxygen storage tanks, a small amount of liquid nitrogen should be put in to pre-cool it.
Numerical Simulation and Key Performance Indicators (KPIs), Design and construction standards.
Assessing the safety and durability of LNG storage tanks first requires a comprehensive consideration of several aspects.
The latest technological progress of LNG storage tanks is mainly reflected in the independent research and development of complete sets of full-capacity LNG storage tanks
Application of new reinforced concrete structure and computer simulation technology, Comprehensive breakthrough in the design and construction technology of ultra-large volume storage tanks.
The main uses of LNG storage tanks include storing and transporting liquefied natural gas (LNG).
LNG storage tanks are mainly used for storing and transporting liquefied natural gas.
When a fire gets out of control, it is necessary to closely monitor the burning situation of the LNG storage unit and take contingency measures such as emergency evacuation of the hazardous area in a timely manner.
Storage of liquid oxygen must be insulated, so the liquid oxygen tank has an inner tank, an insulation layer (or vacuum layer), and an outer shell.
A variety of advanced technologies or methods exist for LNG tank leakage control.
The low-temperature storage tank adopts vacuum insulation, and the general insulation material is pearlescent sand