(PDF) Modeling Ignition of a Heptane Isomer: Improved

Modeling Ignition of a Heptane Isomer: Improved Thermodynamics Reaction Pathways, Kinetics, and Rate Rule Optimizations for 2Methylhexane

doi 10.1021/acs.jpca.6b00907.s001

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Modeling Ignition of a Heptane Isomer: Improved Thermodynamics Reaction Pathways, Kinetics, and Rate Rule Optimizations for 2Methylhexane

doi 10.1021/acs.jpca.6b00907.s001

Full Text

Abstract

Date

Authors

Publisher

Related search

Critical Ignition Conditions in Exothermically Reacting Systems for Arbitrary Reaction Kinetics

Activation of Methane by FeO+: Determining Reaction Pathways Through Temperature-Dependent Kinetics and Statistical Modeling

Thermodynamics of Finite Magnetic Two-Isomer Systems

A Coupled Transport and Solid Mechanics Formulation With Improved Reaction Kinetics Parameters for Modeling Oxidation and Decomposition in a Uranium Hydride Bed.

Past–future Information Bottleneck for Sampling Molecular Reaction Coordinate Simultaneously With Thermodynamics and Kinetics

An Experimental and Modeling Study of the Shock Tube Ignition of a Mixture of N-Heptane and N-Propylbenzene as a Surrogate for a Large Alkyl Benzene

Modeling Reaction Time and Accidents Rate of Drivers

Kinetics and Thermodynamics of a Driven Open Quantum System

Effects of Zeolite Structural Confinement on Adsorption Thermodynamics and Reaction Kinetics for Monomolecular Cracking and Dehydrogenation of nButane