Model reduction in chemical dynamics: slow invariant manifolds, singular
  perturbations, thermodynamic estimates, and analysis of reaction graph

A. N. Gorban

Model reduction in chemical dynamics: slow invariant manifolds, singular perturbations, thermodynamic estimates, and analysis of reaction graph

A. N. Gorban

arXiv 2018

28

gorban2018model

Abstract

The paper has two goals: It presents basic ideas, notions, and methods for reduction of reaction kinetics models: quasi-steady-state, quasi-equilibrium, slow invariant manifolds, and limiting steps. It describes briefly the current state of the art and some latest achievements in the broad area of model reduction in chemical and biochemical kinetics, including new results in methods of invariant manifolds, computation singular perturbation, bottleneck methods, asymptotology, tropical equilibration, and reaction mechanism skeletonisation.

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physics.chem-ph

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http://arxiv.org/abs/1802.05745v1

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