A skeletal mechanism for premixed flames of isooctane/2-methylfuran   blends

Atmadeep Bhattacharya

arXiv:1912.00881·physics.chem-ph·December 15, 2022

A skeletal mechanism for premixed flames of isooctane/2-methylfuran blends

Atmadeep Bhattacharya

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TL;DR

This paper introduces a simplified chemical kinetic mechanism with 252 species and 1288 reactions for simulating premixed flames of isooctane and 2-methylfuran blends, aiding combustion research.

Contribution

The paper presents a new skeletal mechanism specifically designed for modeling premixed flames of isooctane/2-methylfuran blends, reducing computational complexity.

Findings

01

Mechanism accurately predicts ignition delay times.

02

Mechanism reproduces flame speed and species profiles.

03

Reduces computational cost compared to detailed mechanisms.

Abstract

A skeletal chemical kinetic mechanism containing 252 species and 1288 reactions for the simulation of premixed flames involving isooctane (representing gasoline) and 2MF blends has been proposed in the present work.

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Taxonomy

TopicsAdvanced Combustion Engine Technologies · Combustion and flame dynamics · Atmospheric chemistry and aerosols