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Active HORIZON European Commission

ELectrochemical OXidation of cYclic and biogenic substrates for high efficiency production of organic CHEMicals


Funder European Commission
Recipient Organization Sintef As
Country Norway
Start Date Jan 01, 2024
End Date Jun 30, 2028
Duration 1,642 days
Number of Grantees 11
Roles Participant; Associated Partner; Coordinator
Data Source European Commission
Grant ID 101138376
Grant Description

ELOXYCHEM will establish a commercially relevant electrochemical oxidation process that will become a strategic development to replace existing chemical conversion processes that are heavily reliant on imported materials such as nitric acid and imported fossil-fuels such as natural gas.

ELOXYCHEM will promote a credible pathway for Europe’s twin transition (green and digital) by demonstrating: (i) a new transformational electrochemical conversion platform process at a pilot scale (multiple tonnes per annum) consisting of reactors and downstream separation to final products with marketable specification to reliably achieve TRL6; (ii)drop-in replacement technology for chemical conversion.ELOXYCHEM will also optimise the process to demonstrate versatility of the process to multiple feedstocks ranging from current feedstocks and future bio-based and biogenic sources.

Using AI strategies for optimisation the pilot plant will be targeted improve electrochemical performance, improve lifetime and reduce cost; prove viability of integrating with renewable energy sources considering intermittency and potential to offer demand-response flexibility; integrate process design, including materials, reactor/cell, and separation methods, from the process intensification and cost perspectives.ELOXYCHEM brings together a world-leading consortium consisting of chemical/bulk material producers, manufacturers, and universities from across Europe to addresses the expected outcomes and achieve energy consumption savings of ~60% compared with existing processes, ELOXYCHEM´s disruptive approach will help chemical industries transform their production process to reduce waste, use of harmful precursor chemicals, and become less energy intensive.

All Grantees

Johannes Gutenberg-Universitat Mainz; Imperial College of Science Technology and Medicine; Esy-Labs Gmbh; Iconiq Innovation Ltd; Sintef As; Idener Research & Development Agrupacion de Interes Economico; Z Prime Gmbh; Megara Resin Industry - Anastasiosfanis Sa; Eta - Energia, Trasporti, Agricoltura Srl; Max-Planck-Gesellschaft Zur Forderung Der Wissenschaften Ev; Evonik Operations Gmbh

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