Industrial Gases
The industrial gas group consists of atmospheric gases such as oxygen, nitrogen, hydrogen, acetylene, carbon monoxide, carbon dioxide, argon, as well as shielding gases, noble gases, calibration gas mixtures and high purity gases. Such gases are used in many areas, from welding applications to the manufacturing sector where metal alloys such as low-alloy stainless steel, aluminum, copper, nickel, titanium and nickel are processed.
Oxygen
Oxygen is mostly obtained by liquefaction and separation of air. It is found in liquid and gas phases. In liquid phase; It is stored and transported in special cryogenic tanks insulated with double-walled, vacuum and perlite material.
Nitrogen
Industrial nitrogen is usually produced by air separation. Various techniques are used to separate it from air, especially oxygen and other gases. This process usually involves pressure liquefaction and fractional distillation methods. Nitrogen is used in metalworking and welding applications.
Hydrogen
Hydrogen is obtained by electrolysis of water or by the separation of methane and ammonia gases. Hydrogen is available in liquid and gaseous phase. In the gas phase, it is supplied compressed in seamless steel tubes resistant to 150 bar pressure. In the liquid phase, it is transported and stored in special cryogenic tanks with three walls, vacuum and insulated with perlite material.
Acetylene
Acetylene is obtained commercially mostly by adding water to calcium carbide or calcium carbide to water. Acetylene is commercially available as a gaseous solvent in a tube. Acetylene cylinders are specially prepared. There are three different substances inside the tube. These are; porous material, solvent and Acetylene Gas.
Carbon Monoxide
It has the chemical formula CO and is formed in the atmosphere by reacting with carbon dioxide (CO2). It is formed in combustion processes, especially in environments with insufficient oxygen, during the combustion of fossil fuels and in industrial processes. Carbon monoxide can be used in industrial processes in areas such as metallurgy, chemical production and electronics manufacturing.
Carbon Dioxide
Carbon dioxide gas is obtained naturally from underground or from waste flue gases. Carbon dioxide gas is simultaneously solid, liquid and gaseous at -56.6°C and 4.16 bar pressure. The gas can be filled into seamless steel cylinders in two different forms, gas and liquid phases.
Argon
Argon is mostly obtained by liquefaction and separation of air. It is commercially available in liquid or gas phases. In the liquid phase, it is stored and transported in special cryogenic tanks insulated with double-walled, vacuum and perlite material. In the gaseous phase, it is supplied compressed in pressure-resistant, seamless steel tubes by pipeline under pressure.
Helium
Helium gas is usually obtained from natural gas wells. It is commercially available in liquid and gas phases. In the liquid phase, it is stored and transported in special cryogenic tanks insulated with double-walled, vacuum and perlite material. In the gaseous phase, it is supplied under pressure by pipeline or compressed in pressure-resistant, seamless steel cylinders.
Nitrogen
Nitrogen is mostly obtained by liquefaction and separation of air. It is found in liquid and gas phases. In the liquid phase, it is stored and transported in special cryogenic tanks insulated with double-walled, vacuum and perlite material. In the gaseous phase, it is supplied under pressure via pipeline or compressed in pressure-resistant, seamless steel tubes.
Inergene
Inergene is a special type of gas usually used in fire extinguishing systems. Inergene gases are used for "Inergene Gas Extinguishing System", a type of chemical fire extinguishing system designed for fire extinguishing purposes.
Shielding Gases
Shielding gases are used to protect the welding bath and the unmelted tungsten electrode from the adverse effects of air during welding.
Mixed Gases
Special gas mixtures are manufactured and used by mixing many gases in various ratios according to their intended use.