Unmanned-Power-to-Methanol-production

Climate, Energy & MobilityHORIZON-RIAID: 101083323
EC Contribution
€26,975
Consortium Size
7 orgs
Start Year
2022
Summary

It is a great challenge to upgrade decentralized CO2 point-sources to production sites for renewable fuels. These CO2 sources can be related for example to production of biogas in anaerobic digestion plants.UP-TO-ME targets a ground-breaking change in decentralized Power-to-Methanol production for hard to electrify applications, like marine vessels. The potential of producing renewable methanol, only by utilizing the CO2 content of biogas in Europe is 128 Mt/a. UP-TO-ME concept is based on a hybrid process which combines the capture of CO2 with the synthesis to methanol in a fully autonomous, unmanned plant. The process comprises 3D-printed reactors and column packings designed using highly advanced Computational Fluid Dynamics. The fully automated, self-learning and self-optimizing control system allows production at fluctuating conditions by combining dynamical plant models and Artificial Intelligence. The aim of UP-TO-ME to provide self-optimizing control even for off-grid-operation is very challenging and, to our knowledge, has not yet been achieved anywhere for comparable plants. The ability of a remote plant to adapt itself to varying boundary conditions such as availability of renewable energies (e.g., from weather forecasts) or on the availability of CO2 from a fluctuating source, open unforeseen possibilities for distributed production. Currently, so-called blue methanol originating from natural gas, is used in limited cases as a marine fuel. However, the quality requirements of a renewable marine methanol fuel, especially considering water content, organic and sulfur impurities originating from P2X production, are not known. UP-TO-ME will assess experimentally the suitability of the produced fuel on a marine type of engine and provide ranges for fuel specifications and max limits for impurities for this to become a sustainable marine fuel.

Consortium (7)

Project Results (18)

Source: CORDIS, the EU research results database.

Publications (12)
Assessment of a bench-scale additively manufactured evaporation-cooled structured packed bed reactor for FT synthesis
Chemical Engineering and Processing - Process Intensification· 2025DOI
Christian Frilund, Erkki Laurila, Juho Peltola, Antti Pasanen, Atte Antikainen, Niko Heikkinen
E-methanol for shipping: quality considerations for reduced environmental impact
31st CIMAC World Congress 2025· 2025
Päivi Aakko-Saksa, Mårten Westerholm, Christer Söderström, Rasmus Pettinen, Matti Reinikainen, Leonidas Ntziachristos, Dimitris Kolokotronis, Athanasios Dimaratos, Nikolaos Papadis
Demand Response for a Novel Decentralized Power-To-Methanol Process
2024 International Conference on Smart Energy Systems and Technologies (SEST)· 2024DOI
Max Kollmer, Markus Vogelbacher, Mücahit Terzi, Mohit Singh, Francisco Vidal-Vazquez, Jörg Matthes
Dynamic modelling and operation of the novel hybrid process for integrated CO2 capture and methanol synthesis at the wastewater treatment plant in Mannheim
Anshika Sajit Singh
Fault Detection and Isolation in a Power-to-Methanol Process Using Data-Driven Methods
Falk Balduf
Fehlererkennung und -isolation in einem neuartigen Power-to-Methanol Prozess
Dennis Becker
Heat transfer in intensified synthesis reactors
Anubhuti Goel
Investigation and Optimization of the Novel Hybrid Process for Integrated CO2 Capture and Methanol Synthesis at the Wastewater Treatment Plant of Mannheim
Iadh Ben Othman
Modellidentifikation für die Druck- und Durchflussregelung der CO2 -Abscheidung einer Power-to-Methanol-Anlage
Maximilian Hertweck
Modellidentifikation für die Temperaturregelung einer Power-to-Methanol-Reaktorkette
Pelle Rothenberger
Structured catalysts for carbon dioxide hydrogenation to methanol
Henri Tapio Elmeri Hopeasaari
Transforming Decentralized CO2 Sources into Renewable Fuel Production Sites: A Novel Hybrid Solution for Methanol Synthesis
Mohit Singh, Mücahit Terzi, Max Kollmer, Akasha Nonavinakere Venkatesh, Jörg Matthes, Francisco Vidal-Vazquez, Roland Dittmeyer
Deliverables (5)
Other Results (1)
Periodic Reporting for period 1 - UP-TO-ME (Unmanned-Power-to-Methanol-production)