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Active HORIZON European Commission

An electrochemically produced oxidiser for modular, onsite generation of HYdrogen PERoxide

€7.25M EUR

Funder European Commission
Recipient Organization Sintef As
Country Norway
Start Date Jan 01, 2023
End Date Dec 31, 2026
Duration 1,460 days
Number of Grantees 15
Roles Third Party; Participant; Coordinator
Data Source European Commission
Grant ID 101091554
Grant Description

Hydrogen peroxide (H2O2) has many industrial applications, e.g., as chemical reagent and bleaching agent for textiles and wood pulp.

The established production route of H2O2 is the autooxidation/ anthraquinone process, which uses natural gas as both feedstock and energy source.The main objective of HYPER is the demonstration, in industrially relevant environments, of a scalable, modular electrochemical process for H2O2 production with improved efficiency compared to the state-of-art.

It will bridge this production with downstream integration into diverse value chains, pulp and paper, textiles and coatings/chemicals, in which strong market opportunities exist for modular, on-site and on-demand H2O2 production.

The central innovation in HYPER is the use of persulfate as a stable oxidization intermediate, allowing both storage of renewable electricity and on-demand H2O2 production.

HYPER will thus help transform H2O2 production from a large-volume, energy intensive chemical process to a smaller-scale, modular, renewable, electrochemical process.

Demonstration of electrochemical production technologies at TRL6 and integration into the three aforementioned value chains will allow HYPER to evaluate the potential of the electrochemical production for further TRL development.HYPER will advance a safe, circular, and cost competitive electrified technology for H2O2 production.

The estimated production price of ca. 0.6 €/kg can be further decreased by the storage of renewable electricity.

Implementation of HYPER technology will decrease life cycle CO2 emissions in H2O2 production by up to 75% when 100% renewable energy sources are used.

Estimated CO2 emissions reductions are from 1.1 Mt CO2/yr in 2030 to 1.4Mt CO2/yr in 2045, for cumulative CO2 emission savings of more than 19 Mt by 2045.

Energy consumption of the HYPER process are estimated to be over a third less than the established production route.The HYPER consortium consists of 4 RTOs, 6 SMEs and 3 industrial partners.

All Grantees

Sintef Manufacturing As; Inotex Spol Sro; Keuken & de Koning Bv; Condias Gmbh; Institut Jozef Stefan; Belinka Perkemija Kemicna Industrija Doo; Institut National de L Environnement Industriel Et Des Risques - Ineris; Kansai Helios Slovenija Doo; Kemijski Institut; Sintef As; Andritz Oy; Eta - Energia, Trasporti, Agricoltura Srl; Aristeng Sarl; Process Design Center Bv; Eilenburger Elektrolyse- Und Umwelttechnik Gmbh

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