The static evaporation rate of a liquid oxygen storage tank is an important technical parameter used to evaluate the ability of the tank to keep liquid oxygen from evaporating in a static state.
Liquid oxygen storage tanks are widely used in many fields.
Inner Vessel: Contains liquid oxygen. The outer shell provides additional insulation and structural integrity. Vacuum insulation reduces heat transfer, which helps to preserve oxygen in liquid form. Pressure Relief Valves: Ensure that the tank’s pressure does not exceed safe limits. Fill Port: This is where the tank is filled with liquid oxygen.
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.
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.
the design temperature of a liquid oxygen tank is usually set between -190°C and -200°C
Cryogenic liquid oxygen storage tanks are devices used to store liquid oxygen, which typically remains liquid at extremely low temperatures (approximately -183°C or -297°F).
Cryogenic liquid oxygen tanks usually adopt a double-layer structure, with the outer layer being an insulating layer to keep the liquid oxygen at low temperatures.
Cryogenic liquid oxygen tanks are equipment used to store liquid oxygen, which is usually kept in liquid form at extremely low temperatures (about -183°C or -297°F).
Cryogenic oxygen, nitrogen and argon storage tanks are special containers for storing and transporting cryogenic gases such as liquid oxygen, nitrogen and argon.
Liquid oxygen storage tanks are containers used to store liquefied oxygen.
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.
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 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.
