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- TRL (Technology readiness level) -
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- Titre High purity hydrogen production from steel slags
- Description Hydrogen can be produced in several ways. However, known methods all exhibit drawbacks. They are either expensive, high energy consuming or produce greenhouse gases.
Hydrogen purity is also paramount. If hydrogen is to be used in hydrogen fuel cells, high degree of purity is indeed critical as even trace amounts of impurities present in the hydrogen can poison the anode, membrane, and cathode of the fuel cell resulting in performance drops.
These past years, new routes were investigated to produce hydrogen. It was eventually proposed to produce hydrogen by thermochemical decomposition of water using steel slags. Although the proposed process offers a way to valorize steel slags, it produces hydrogen of low purity and may present safety risk as H2 may explode at the working temperature.
There remains then a demand for a method that would allow producing high purity hydrogen at low cost without greenhouse gases emissions and which could advantageously allow valorizing attractively steel slags.
- Bénéfices Hydrogen gas produced by the method of the present invention exhibits a purity of at least 99.9%. In some embodiments, a purity of at least 99.995% may be achieved.
The method can also be carried out in batch or in continuous and can produce up to 25L or 30L of H2 per kg of slags.
- Nouveauté In the present work, the inventors have developed a method for producing hydrogen gas based on the valorization of steel slags by reacting a reduced form of iron (wüstite from steel slags) with H2O at moderate temperature (below 500°C).
The gas is extracted and cooled down to separate hydrogen gas from water steam. A convenient method is also proposed to characterize the hydrogen yield using magnetic monitoring.
- Mots clés highly pure hydrogen, fuel cell
- Secteurs Energy & Electricals
