2023
DOI: 10.1021/acs.jpcc.2c08179
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Automating the Optimization of Catalytic Reaction Mechanism Parameters Using Basin-Hopping: A Proof of Concept

Abstract: Parameter estimation is a crucial step for successful microkinetic modeling in catalysis. However, the large number of parameters to be optimized in order to match the experimental data is a bottleneck. In this regard, the global optimization algorithm Basin-Hopping is utilized to automate the typically time-extensive and error-prone task of manual fitting of kinetic parameters for a heterogeneous catalytic system. The stochastic approach of the Basin-Hopping algorithm to explore the kinetic parameter solution… Show more

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Cited by 6 publications
(4 citation statements)
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“…[58,59] Our previous paper showcases a proof-ofconcept for the same using the global optimization algorithm Basin-Hopping [60] to optimize high-dimensional microkinetic models for methanation of CO over Ni and methane oxidation over Pd catalysts. [61] Basin Hopping is a stochastic algorithm that searches for a potential global minimum by hopping within the parameter search space as determined by a user-defined step-size value. Once it has made a hop, it attempts to find a local minimum by leveraging a local-search technique such as the Nelder-Mead [62] method.…”
Section: Automated Parameter Optimizationmentioning
confidence: 99%
See 1 more Smart Citation
“…[58,59] Our previous paper showcases a proof-ofconcept for the same using the global optimization algorithm Basin-Hopping [60] to optimize high-dimensional microkinetic models for methanation of CO over Ni and methane oxidation over Pd catalysts. [61] Basin Hopping is a stochastic algorithm that searches for a potential global minimum by hopping within the parameter search space as determined by a user-defined step-size value. Once it has made a hop, it attempts to find a local minimum by leveraging a local-search technique such as the Nelder-Mead [62] method.…”
Section: Automated Parameter Optimizationmentioning
confidence: 99%
“…Gradient‐free global optimization algorithms offer a generalized methodology for optimizing these microkinetic parameters irrespective of the reactor configuration [58,59] . Our previous paper showcases a proof‐of‐concept for the same using the global optimization algorithm Basin‐Hopping [60] to optimize high‐dimensional microkinetic models for methanation of CO over Ni and methane oxidation over Pd catalysts [61] . Basin Hopping is a stochastic algorithm that searches for a potential global minimum by hopping within the parameter search space as determined by a user‐defined step‐size value.…”
Section: Automated Parameter Optimizationmentioning
confidence: 99%
“…Exemplarily, the Figure illustrates the communication between software tools that manage infor-CoRDI2023-25 mation on catalyst synthesis, characterization, and performance as well as drivers for numerical simulation of catalytic reactors using these catalytic materials. Recently developed optimization tools to speed up model development and scale-up will soon extend this picture [5,6]. The presentation is concluded by an overview of the work in the consortium NFDI4Cat, where digital tools, workflows and service offerings are developed in a community driven effort for catalysis related sciences including chemical engineering and process design.…”
Section: Extended Abstractmentioning
confidence: 99%
“…The lumped parameters in the simplified rate expression (Equation (6)) will be calibrated using rate data obtained from Detchem ® CSTR ® simulations run with the detailed NH 3 decomposition mechanism [ 8 ] shown above. Available online [ 13 ] with numerous applications, the Detchem ® software package is widely used [ 16 , 17 ] and quite versatile. This package executes detailed material, energy, and momentum balances using a user-supplied elementary reaction mechanism and required reactor input and parameter information.…”
Section: Simplified Overall Rate Expressionmentioning
confidence: 99%