Application and internal structure of horizontal cylinders
Before we use a horizontal gas cylinder, we need to understand the suitable way and its internal structure for us to use:
Medium Pressure Horizontal Cryogenic Cylinder
Used in the glass industry for oxygen-rich combustion, metal cutting and welding. Gas replacement in hospitals, fish carts, containers and pipes, medical refrigerants, and stainless steel sheet cutting gas protection. All are gas protection such as welding and processing. Used in urban public facilities and civil life gas. Coal to natural gas boilers for combustion.
High Pressure Horizontal Cryogenic Cylinder
It is used for metal cutting and welding, gas replacement in containers and pipes. It is used for medical cryogen and stainless steel medium plate cutting gas protection. Gas protection for metal welding and processing, for urban public facilities and civil domestic gas, coal-to-gas boiler combustion, refrigerant industry. Mine cracking equipment.
Internal Structure of Horizontal Cryogenic Cylinder
Pressure increasing valve: The pressure increasing valve uses a finned heat exchanger installed at the bottom of the cylinder to increase the gas pressure inside the bottle.
Vent valve: This valve is connected to the gas phase space of the gas cylinder. When this valve is opened, the gas in the bottle is released to reduce the pressure.
Liquid Inlet Valve: This valve is used to control the filling of cryogenic liquids.
Liquid Outlet Valve: This valve is used to control the output of cryogenic liquids.
Pressure building valve: This valve is used to control the booster circuit. When this valve is opened, it can be pressurized into the bottle.
Economizer valve: The cryogenic liquid enters the supercharger through this valve and converts it into gas, returning to the inner tank, so that the pressure in the bottle reaches the set value of the boost regulating valve.
Level gauge: The level gauge uses a capacitive level gauge. The capacitive sensor produces a proportional electrical signal based on the liquid level in the bottle. The liquid level display meter converts the signal after receiving the electrical signal, and represents the different liquids as a percentage of the amount.