Oxygen

liquid oxygen manufacturer in India, liquid nitrogen manufacturer in India

Facts about Oxygen:

Oxygen is an industrial gas produced from the process of air separation. It comprises approximately 21% of the air we breathe. Oxygen is an active element which, although not being burnt supports combustion and reacts, directly or indirectly with all elements except the rare gases. Gaseous Oxygen is colorless, odorless and tasteless. At 14%-16% Oxygen in air, signs of O2 deficiencies begin to occur with an increase in the rate and depth of breathing. At 4% Oxygen even a little bit of breathing can cause unconsciousness.

Oxygen does not burn but it supports combustion. Many substances which do not normally burn in air only require a slight spark or moderate heat to set them aflame in the presence of an Oxygen enriched atmosphere. The best method of fighting an Oxygen supported fire is to shut off the Oxygen at its source.

Oxygen causes many substances to burn. Hence we must be extremely careful to keep all Oxygen piping and vessels clean. Grease and oil become highly flammable in the presence of Oxygen and must not be allowed to contaminate Oxygen piping or equipment. For this reason, special cleaning procedures using an approved cleaning agent are used to clean parts in Oxygen service.

Only specially designed accessories, specifically meant for being used in Oxygen services are used to maintain the mentioned parameters. These accessories are said to be Oxygen compatible. Oxygen compatible accessories include valves, gasket, valve packing, insulation, lubricants, piping materials design, accessory design, etc.

Since Oxygen is an invisible gas, it is impossible to see an atmosphere enriched in it. Therefore, atmospheric testing should always be performed prior to work in enclosed areas. The primary hazard of an enriched Oxygen atmosphere is fire. Clothing saturated with Oxygen is highly flammable and can be easily ignited. It should be removed if possible and aired out for at least 30 minutes.

Liquid Oxygen is pale blue in color, odorless and has a boiling point of -297oF (-183oC). When liquid Oxygen spills occur there is the danger that the liquid will saturate or mix with some combustible material and that the mixture is subject to ignition. Ignition can be caused by hot objects, sparks or the heat of compression such as a tire rolling over an asphalt surface.

An Oxygen spill area must be roped off or isolated so that no vehicles or personnel enter the area until the frost marks of the spill are completely gone.

The National Fire Protection Association (NFPA) 704 standard rates compressed oxygen gas as nonhazardous to health, non-flammable, nonreactive, but an oxidizer. Refrigerated liquid oxygen (LOx) is given a health hazard rating of 3 (for increased risk of hyperoxia from condensed vapors, and for hazards common to cryogenic liquids such as frostbite). All other ratings remain the same as the compressed gas form.

Liquid oxygen spillages, if allowed to soak into organic matter, such as wood, petrochemicals, and asphalt can cause these materials to detonate unpredictably on subsequent mechanical impact. As with other cryogenic liquids, on contact with the human body, liquid oxygen can cause frostbites to the skin and the eyes.

Liquid Oxygen expands rapidly when it evaporates to a gaseous state. One cubic foot of Liquid Oxygen expands to 861 cubic feet of gas at the same pressure.

CATEGORY AND DETAILS

Chemical Name :- O2
  • Specification

    IS 309:2005

  • Offered Purity

    99.5%

  • Cylinder Colour

    Black

  • Packaging

    The cylinders are available in 7 m3 capacity and 150 kg/cm2 pressure. Portable cryogenic containers

  • Application

    O2 is used in the metal industry for producing steel, iron and metal-cutting applications. O2 injection in various kinds of furnaces (like open-hearth furnace, blast furnace, cupola furnace, smelters for glass and mineral wool, and lime and cement kilns) to enhance their capacity and to reduce energy requirements. Smelting times and energy consumption can be reduced by special oxy-oil or oxy-gas burners in electro-steel furnaces and induction smelters for Aluminium. High thermal efficiency and rapid combustion at 2800oC is achieved by “Oxy-fuel” burners. Allow greater use of scrap metal in electric arc furnaces. Make other metals such as copper, lead and zinc.

    O2 is used for oxidation and fermentation processes and in the production of synthesis gas (H2/CO) from ‘”coal gasification” (process which converts coal into CO and H2 by reacting with O2 and/or steam).

    In the manufacture of Ethylene Oxide(EO), Propylene Oxide(PO), Ethylene Dichloride(EDC), Hydrogen Peroxide(H2O2), Titanium Dioxide(TiO2), Nitric Acid(HNO3), Vinyl Chloride, Phthalic Acid(C6H4(CO2H)2), Vinyl Acetate Monomer(VAM).

    O2 is used to enrich the air feed to catalytic cracking regenerators, which increases capacity of the units.

    In Sulphur, recovery units to regenerate catalysts in refineries.

    O2 sparging in fermentors is used to maintain dissolved oxygen (DO) concentration in manufacture of antibiotics, vitamins etc. O2 is used in incinerators to achieve complete combustion and destruction of hazardous and waste materials.

    Conversion of combustion systems from air-fuel to oxy-fuel (construction of new furnaces and tanks). Oxy-Acetylene cutting of Steel.

    In thermic lancing (cutting/boring concrete) also O2 is used.

    O2 enrichment oxy-fuel burner in glass melting tank and also for flame finishing glass items.

    O2 in combination with N2, CO2 is used in “modified atmospheric packing” to curb anaerobic growth.

    O2 is used in “Aqua Culture” and transporation of fish seedling to maintain DO level in water.

    O2 is used with fuel gases (like C2H2, LPG) in gas welding, gas cutting, Oxygen scarfing (burning out defective areas on the surface of ingots or billets), flame cleaning, flame hardening, flame straightening, and specific flame output power.

    O2 is used for delignification (removal of colored lignins from pulp) and bleaching operations to reduce chemical requirement and pollution loads of effluent treatment plant.

    To control “water pollution”.

    In the waste water treatment and biological treatment of sewage and industrial effluents.

    As precursor of Ozone (in drinking water treatment).

    Injection into sewers reduces H2S formation.

    Treatment of respiratory insufficiency and resuscitation (respiratory arrest) for breathing.

    O2 is used during surgery, intensive care treatment, inhalation therapy etc.

    He-O2 mixture for deep-sea diving.

    O2 is used for open cast mining of coal, iron ore, limestone, bauxite, magnetite and other minerals.

    Ultra high purity O2 is used for Oxy-Hydrogen flame in melting and drawing optical fiber.

    Formation of protective SiO2 coating on Silicon wafer surface.

    It is also used to achieve chemical vapor deposition of oxides and to make ozone for oxidation or cleaning.

    Liquid Oxygen is used in liquid-fueled rockets as the oxidizer for fuels such as H2 and liquid methane as it provides high specific impulse (way to describe the efficiency of rocket & jet engines).

    O2 is used to assist scrap melting by O2 infiltration, tyre injection (process designed to handle the dusty materials directly without further treatment).

    O2 lancing (process that burns iron in an O2 rich environment to create very high temperatures for cutting).

    O2 with Argon and/or Nitrogen to control Carbon and also retaining alloying elements like Chromium for Carbon Steel, alloy Steel, stainless Steel making.

    Smelting of Iron ore into Steel consumes 55% of commercially produced O2.

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