Working Together to Generate a Cleaner Future
To reach true net zero, the world needs solutions for deep decarbonisation of the hardest-to-abate sectors such as steelmaking, chemical production and heavy-duty transportation. Renewable and low carbon hydrogen is the solution. As the leading global hydrogen supplier today, Air Products is applying our expertise and investments in renewable and low carbon hydrogen production and fueling projects ($15B) to help accelerate the energy transition and generate a cleaner future for our world.
Explore our interactive graphic for some examples of how Air Products can help customers decarbonise and operate more sustainably.
Why hydrogen for decarbonising heavy industry?
Swipe to learn how hydrogen can help decarbonise industry.
Industries and applications
Trials, testing and permanent use solutions for blending hydrogen into NG streams to decarbonise large and small generators.
Replace current "grey" hydrogen usage and expand applications into technologies such as EUV lithography.
Leverage hydrogen and CSS to decarbonise blast furnaces, basic oxygen furnaces, direct reduced iron, or electric arc furnaces.
Leverage CCS, replace current "grey" hydrogen usage, and expand applications to create clean feedstocks for further processing and use.
Leverage oxy-fuel, hydrogen and CSS to decarbonise glass melting operations.
Hydrogen is used to reduce metal oxides, prevent oxidation during heat-treating, and act as a fuel or process gas for spray applications.
Oxy-fuel technologies and hydrogen substitution or blending can help minimise the carbon footprint of your non-ferrous metals melting processes.
Leverage oxygen, oxygen enrichment, CCS and hydrogen to help increase production, use more alternative fuels, and lower the carbon footprint of your operation.
Hydrogen fuel cell and combustion applications to decarbonise trucks, buses, aircraft, watercraft and more.
Generating a Cleaner Future
Talk to one of our industry experts today about how we can help you decarbonise your operations.