Saint-Gobain achieves flat glass production using more than 30% hydrogen

Saint-Gobain is the first manufacturer in the world to carry out a test production of flat glass using more than 30% hydrogen during Research & Development (R&D) trials at the Herzogenrath site in Germany.

With this world-first, Saint-Gobain has proven the technical feasibility of manufacturing flat glass with a significant proportion of hydrogen, which will complement other decarbonized energy sources and will reduce the site’s direct CO2 emissions (scope 1) by up to 70%.

This strengthens Saint-Gobain’s position as a world leader in sustainable construction and confirms its leading role in helping to build a carbon-neutral economy.

This technical feat was made possible by an R&D program launched in 2022, drawing on the Group’s extensive expertise in combustion, glass quality, ceramic refractories materials and industrial furnace design. The program in question is carried out in collaboration with the independent German laboratory Gas and Heat Institute Essen e.V. (GWI), a specialist in industrial gas technologies, and financially supported by the Land of North Rhine-Westphalia to the amount of 3.64 million euros.

These industrial tests in Herzogenrath have been preceded on a laboratory scale by trials carried out in two research centers in France: Saint-Gobain Research Paris in Aubervilliers and Saint-Gobain Research Provence in Cavaillon.

Analysis of the data from these tests will make it possible to deploy the use of hydrogen in the Group’s floats in the decades to come when low-carbon hydrogen is available in sufficient quantities.

This breakthrough innovation marks a new milestone in Saint-Gobain’s roadmap toward carbon neutrality in 2050. It complements R&D initiatives on the electrification of glass melting and notable achievements, such as the world’s first zero-carbon production of flat glass at Aniche in May 2022, thanks to 100% cullet and 100% decarbonized energy (biogas).

Engr. Haseeb Ullah

Haseeb covers the global energy market for both conventional and modern energy resources. His expertise is on the global energy supply chain from generation to distribution and end-users. He has a Master degree in Engineering Management and a Bachelor of Science degree in Electrical Engineering.
Back to top button