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arxiv: 2503.22304 · v1 · pith:XX73UTIZ · submitted 2025-03-28 · cond-mat.dis-nn · physics.chem-ph

ML-based Method for Solving the Microkinetic Model of Fischer-Tropsch Synthesis with Varying Catalyst/Reactor Parameters

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classification cond-mat.dis-nn physics.chem-ph
keywords modelcatalystfischer-tropschframeworkmethodmicrokineticsynthesisaccelerate
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This study introduces a physics-informed machine learning framework to accelerate the computation of the microkinetic model of Fischer-Tropsch synthesis. A neural network, trained within the NVIDIA Modulus framework, approximates the fraction of vacant catalytic sites with high accuracy. The combination of implicit differentiation and the Newton-Raphson method enhances derivative calculations, ensuring physical consistency. Computational efficiency improves significantly, with speedups up to $ 10^4 $ times on a GPU. This versatile methodology generalizes across catalysts and reactors, offering a robust tool for chemical engineering applications, including model approximation and catalyst parameter fitting from experimental data.

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