Effect of adsorbent loading on NaNiRu-DFMs' CO 2 capture and methanation: finding optimal Na-loading using Bayesian optimisation guided experiments

  • Bahrami Gharamaleki S
  • Carrasco Ruiz S
  • Ramirez Reina T
  • et al.
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Abstract

Optimisation of adsorbent loading in NiRu X Na-DFM using GP + BO. Designing dual function materials (DFMs) entails an optimisation of CO 2 adsorption and catalytic conversion activity, often requiring a large number of experimental parametric studies screening various types and loadings of adsorbent and catalyst components. In this study, we used a Gaussian process model optimised with Bayesian optimisation (BO) to find the DFM composition leading to the highest methanation activity. We focused on optimising Na (adsorbent) loading in a DFM where Na loading was varied from 2.5–15% by weight. The results from the experimental tests indicated that the sample with the highest Na-loading (15 wt%) possessed the highest CO 2 desorption during CO 2 -TPD, however, it was not the best DFM, as it did not show the highest methane production. By testing Bayesian optimisation recommended experiments we identified 7.9 wt% Na as the optimal Na loading, which showed the highest methane production for a cycle (398.6 μmol g DFM −1 ) at 400 °C. This forms a case study for how BO can help accelerate materials discovery for DFMs.

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APA

Bahrami Gharamaleki, S., Carrasco Ruiz, S., Ramirez Reina, T., Short, M., & Duyar, M. S. (2026). Effect of adsorbent loading on NaNiRu-DFMs’ CO 2 capture and methanation: finding optimal Na-loading using Bayesian optimisation guided experiments. Industrial Chemistry & Materials. https://doi.org/10.1039/d5im00019j

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