- Annual capacity of up to 8,000ย metric tons of hydrogen
- Key step in the ramp-up of products with a reduced carbon footprint
- Direct integration of the technology into a chemical production environment is a world first
Germanyโs largest proton exchange membrane (PEM) electrolyser has gone into operation at BASFโs Ludwigshafen site. Designed to produce zero-carbon hydrogen, the electrolyser has a connected load of 54ย megawatts and the capacity to supply the main plant with up to one metric ton of this substantial chemical feedstock every hour.
Built in cooperation with Siemens Energy, the water electrolyser is embedded in the production and infrastructure at the Ludwigshafen site, making it truly unique in terms of its interface and integration into a chemical production environment. A total of 72 stacks โ modules in which the actual electrolysis process takes place โ have been installed in the system. The electrolyser has the potential to reduce greenhouse gas emissions at BASFโs main plant by up to 72,000 metric tons per year.
The emission-free production of hydrogen โ using electricity from renewable sources โ is fundamental to the market ramp-up of chemical products with a reduced carbon footprint. Once produced, the hydrogen is fed into the siteโs hydrogen Verbund network and distributed to the production facilities as a raw material. In addition to using it as a feedstock for chemical products, BASF plans to supply hydrogen for mobility in the Rhine-Neckar Metropolitan Region, supporting the development of a hydrogen economy in the area.
In cooperation with the State of Rhineland-Palatinate, the German Federal Ministry for Economic Affairs and Climate Action provided funding of up to โฌ124.3ย million for the construction of the plant โ โฌ37.3ย million of which was financed by the government of Rhineland-Palatinate. BASFโs investment in the project amounts to around โฌ25ย million. The project, entitled Hy4CHem, was selected as part of the IPCEI Hydrogen expression of interest procedure and subsequently funded as an individual project.
Among other applications, hydrogen is used in the production of ammonia, methanol, and vitamins. Until now, hydrogen has been produced at the Ludwigshafen location primarily by means of natural gas-based steam reforming or as a coupling product and by-product. With the electrolyzer, BASF is now taking an important step in the transformation of hydrogen production technology.
Author: Bryan Groenendaal
