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Transitory sensitivity in automatic chemical kinetic mechanism analysis

Journal Article · · International Journal of Chemical Kinetics
DOI:https://doi.org/10.1002/kin.21766· OSTI ID:2472883
 [1];  [1];  [1]
  1. Department of Chemical Engineering Massachusetts Institute of Technology Cambridge Massachusetts USA
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Abstract

Detailed chemical kinetic mechanisms are necessary for resolving many important chemical processes. As the chemistry of smaller molecules has become better grounded and quantum chemistry calculations have become cheaper, kineticists have become interested in constructing progressively larger kinetic mechanisms to model increasingly complex chemical processes. These large kinetic mechanisms prove incredibly difficult to refine and time‐consuming to interpret. Traditional sensitivity analysis on a large mechanism can range from inconvenient to practically impossible without special techniques to reduce the computational cost. We first present a new time‐local sensitivity analysis we term transitory sensitivity analysis. Transitory sensitivity analysis is demonstrated in an example to accurately identify traditionally sensitive reactions at an 18,000x speed up over traditional sensitivities. By fusing transitory sensitivity analysis with more traditional time‐local branching, pathway, and cluster analyses, we develop an algorithm for efficient automatic mechanism analysis. This automatic mechanism analysis at a time point is able to identify the reactions a target is most sensitive to using transitory sensitivity analysis and then propose hypotheses why the reaction might be sensitive using branching, pathway, and cluster analyses. We implement these algorithms within the reaction mechanism simulator (RMS) package, which enables us to report the automatic mechanism analysis results in highly readable text formats and in molecular flux diagrams.

Sponsoring Organization:
USDOE
OSTI ID:
2472883
Alternate ID(s):
OSTI ID: 2472884
Journal Information:
International Journal of Chemical Kinetics, Journal Name: International Journal of Chemical Kinetics Journal Issue: 2 Vol. 57; ISSN 0538-8066
Publisher:
Wiley Blackwell (John Wiley & Sons)Copyright Statement
Country of Publication:
United States
Language:
English

References (24)

Evaluation of Combustion Mechanisms Using Global Uncertainty and Sensitivity Analyses: A Case Study for Low-Temperature Dimethyl Ether Oxidation: COMBUSTION MECHANISMS USING GLOBAL UNCERTAINTY AND SENSITIVITY ANALYSES journal September 2014
Uncertainty analysis of correlated parameters in automated reaction mechanism generation journal February 2020
Oxidation and pyrolysis of methyl propyl ether journal May 2021
ReactionMechanismSimulator.jl: A modern approach to chemical kinetic mechanism simulation and analysis journal July 2024
Species selection for automatic chemical kinetic mechanism generation journal September 2024
Reaction rate analysis of complex kinetic systems: REACTION RATE ANALYSIS journal February 1989
Sensitivity analysis of complex kinetic systems. Tools and applications journal September 1990
Direct and adjoint sensitivity analysis of chemical kinetic systems with KPP: Part I—theory and software tools journal November 2003
Direct and adjoint sensitivity analysis of chemical kinetic systems with KPP: II—numerical validation and applications journal November 2003
A path flux analysis method for the reduction of detailed chemical kinetic mechanisms journal July 2010
Global uncertainty analysis for RRKM/master equation based kinetic predictions: A case study of ethanol decomposition journal September 2015
Understanding low-temperature first-stage ignition delay: Propane journal October 2015
The role of correlations in uncertainty quantification of transportation relevant fuel models journal June 2017
Global uncertainty analysis for the RRKM/master equation modeling of a typical multi-well and multi-channel reaction system journal June 2020
Chemical kinetic model reduction through species-targeted global sensitivity analysis (STGSA) journal February 2021
Reaction Mechanism Generator: Automatic construction of chemical kinetic mechanisms journal June 2016
Toward accommodating realistic fuel chemistry in large-scale computations journal April 2009
Advances and challenges in laminar flame experiments and implications for combustion chemistry journal August 2014
Local and global uncertainty analysis of complex chemical kinetic systems journal October 2006
Reaction Mechanism Generator v3.0: Advances in Automatic Mechanism Generation journal May 2021
Sensitivity Analysis for Chemical Models journal July 2005
The decoupled direct method for calculating sensitivity coefficients in chemical kinetics journal September 1984
An improved path flux analysis with multi generations method for mechanism reduction journal January 2016
Adjoint Sensitivity Analysis for Differential-Algebraic Equations: The Adjoint DAE System and Its Numerical Solution journal January 2003

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