The structure of liquid oxygen storage tanks is carefully designed to have sufficient strength and toughness to prevent rupture or leakage under extreme conditions.
Liquid oxygen tanks have a wide range of applications, covering a number of important areas, each of which makes full use of the characteristics and advantages of liquid oxygen.
The working principle of liquid oxygen tanks is a complex and delicate process involving multiple steps.
Liquid oxygen tanks have different requirements and standards in different application fields such as medical, industrial and aerospace.
The tank needs to be precooled before filling to avoid overheating when the liquid oxygen comes into contact with the inner wall of the tank.
The filling process of liquid oxygen tanks involves converting oxygen from gas to liquid and storing it safely in the tank. This process requires efficient equipment and strict control systems.
Evaporation losses in liquid oxygen storage tanks may lead to oxygen waste and environmental impact. Reduce the environmental impact of evaporation losses by optimizing design and operation.
Liquid oxygen tanks must take strict safety measures during operation and storage to prevent accidents.
Liquid oxygen tanks convert oxygen into liquid by cooling it below its liquefaction point (about -183°C). A vacuum insulation layer is provided inside the tank to reduce the evaporation loss of liquid oxygen. Liquid oxygen is converted into gaseous oxygen for use when needed through an evaporator.
the design temperature of a liquid oxygen tank is usually set between -190°C and -200°C
The safety of liquid oxygen storage tanks is key to ensuring the safety of liquid oxygen storage and handling processes, because liquid oxygen (LOX) has extremely low temperatures and strong oxidizing properties when in liquid form
Liquid oxygen storage tanks are containers used to store liquefied oxygen.
The purpose of the safety distance of liquid oxygen storage tanks is to ensure safety.
Liquid oxygen tanks are special containers for storing liquid oxygen. Their design parameters are critical to ensure the safe and efficient operation of the tanks.
According to the size, material and design requirements of the tank, select the appropriate welding method, such as tungsten inert gas welding (TIG), metal arc welding (MIG) or electron beam welding.
The testing of liquid oxygen tanks covers many aspects, including pressure testing, vacuum maintenance testing, chemical and physical testing, welding quality inspection, leak testing, and emergency response drills.
Material selection for liquid oxygen tanks is critical because they must be able to withstand extreme cryogenic conditions, high pressures, and the highly oxidizing properties of liquid oxygen.
Liquid oxygen tanks play a vital role in the industrial sector and have a wide range of applications.
In the medical field, the application of liquid oxygen tanks is crucial. They not only provide an efficient way to store oxygen, but also greatly promote the development of various medical activities.
As industrial production and medical needs continue to grow, the demand for oxygen is also rising. Our oxygen storage tanks are designed to provide safe, reliable and economical oxygen storage solutions for a variety of commercial and industrial applications.
The maintenance of liquid oxygen tanks includes the maintenance of the outer shell and inner cylinder, the maintenance of the insulation system, the calibration of safety accessories, and the maintenance of the vacuum degree.
Liquid oxygen storage tanks are mainly used for cryogenic liquid storage of oxygen.
The purpose of safe distance from liquid oxygen storage containers is to ensure safety.
Whether during transportation, operation or storage, liquid oxygen tanks must be kept upright and effectively isolated.
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.
Liquid oxygen storage tanks are used for transportation and storage equipment