Cryogenic Gases
Cryogenic gases are gases that have been cooled to very low temperatures and turned into liquids. They are used in many industrial applications: including bunkering fuel, power generation, medicine, research and manufacturing. In essence, cryogenic technology enables the handling and utilization of gases in ways that would be impossible at normal temperatures, playing a vital role in modern industry and the transition to cleaner energy sources.
Anhydrous Ammonia (NH3) UN: 1005 / IMDG: 2.3
Anhydrous ammonia is a Carbon Free chemical compound of nitrogen and hydrogen with the formula NH3. It has about half the energy density of bunker fuels and takes on a liquid form at -33.34 °C currently being explored as a potential alternative fuel due to its ability to produce minimal carbon emissions when burned, making it a cleaner fuel option to replace fossils fuel in the Shipping Maritime Industry for Bunkering fuel & Power Generation. At CSDA, we Constantly Supply & Distribute Ammonia.
Liquefied Helium (LHe) UN: 1963 / IMDG: 2.2
Helium is heavily involved in the semiconductor manufacturing process. The element is used as a leak conductor, cooling agent, diluent gas in plasma etching, and carrier gas for deposition
Liquefied Hydrogen (LH2) UN: 1966/ IMDG: 2.1
It can also be used in industry for the production of ammonia, methanol, and steel, which are currently heavily reliant on fossil fuels. Additionally, Green Hydrogen can be used as a backup energy source for renewable energy plants, providing a constant and reliable source of energy
Liquefied Carbon Dioxide (LCO2) UN: 2187 / IMDG: 2.2
Liquid carbon dioxide (LCO2) is a versatile, non-flammable, and inert cryogenic liquid that has many industrial uses. It’s used in food processing, beverage carbonation, and more. LCO2 can also be used in carbon capture and storage (CCS)
Liquefied Natural Gas (LNG) UN: 1972/ IMDG: 2.1
Liquefied Natural Gas (LNG) is an odorless, colorless, non-corrosive, and non-toxic substance. It is only flammable when present in concentrations of 5-15% in the air. Additionally, it vaporizes without leaving any residue. The cooling process at -162ºC reduces its volume by 600 times, enabling efficient storage and distribution in our specialized fleet of T75 ISO-tank containers.
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