Simulation and Optimization of Methanol Production System Integrated with Direct Air Capture and High-Temperature Co-electrolysis using Aspen Plus

Jerome, Gbenga

Talk (non-conference) (Other)

FZJ-2025-00670

Simulation and Optimization of Methanol Production System Integrated with Direct Air Capture and High-Temperature Co-electrolysis using Aspen Plus

Jerome, G.FZJ*

2024

IET-1 Sci&Hike Autumn 2024 PhD Retreat, Düren, Germany, 28 Oct 2024 - 30 Oct 2024

Abstract: Production of synthetic methanol can be powered by renewable energy with carbon dioxide and water sourced from the atmosphere using direct air capture (DAC). The captured components are then co-electrolyzed to produce syngas used in methanol synthesis. This first progress presentation highlights the methodology and modeling of the solid oxide co-electrolysis in Aspen Plus to simulate syngas production. After validation, the co-electrolysis model will be integrated with DAC model and methanol synthesis model for further process analysis.

Contributing Institute(s):

Grundlagen der Elektrochemie (IET-1)

Research Program(s):

1232 - Power-based Fuels and Chemicals (POF4-123) (POF4-123)

Appears in the scientific report 2024

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Document types > Presentations > Talks (non-conference)
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Record created 2025-01-16, last modified 2025-02-03

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