Time‐integrated species flux analysis: A novel method for kinetic reduction and pathway analysis in pyrolysis process

Author:

Shen Yudong1,Mao Yaoliang1,Hong Xiaodong2ORCID,Yang Yao1,Ren Yu2,Wang Jingdai1ORCID,Yang Yongrong1,Kay Lup Andrew Ng13ORCID,Liao Zuwei1ORCID

Affiliation:

1. State Key Laboratory of Chemical Engineering, College of Chemical and Biological Engineering Zhejiang University Hangzhou People's Republic of China

2. ZJU‐Hangzhou Global Scientific and Technological Innovation Center Zhejiang Province Hangzhou China

3. School of Energy and Chemical Engineering Xiamen University Malaysia Sepang Malaysia

Abstract

AbstractA time‐integrated species flux analysis (TSFA) method for the systematic reduction of large detailed kinetics in the pyrolysis process is proposed. The obtained reaction paths are based on the species flux throughout temporal evolutions rather than at transitory moments. This allows considering species flux at different reaction moments. The proposed strategy is verified by experiments and numerical simulation of the cracking process of n‐hexane and n‐butanol. The kinetics of n‐hexane cracking was reduced from the original 328 species to 94 species, while the resulting product yield difference is less than 1.5%. In addition, a global reaction pathway of n‐butanol pyrolysis was discovered. Compared with literature reports, we found that hydroxyl radicals also played an important role in n‐butanol pyrolysis. The proposed framework provides a new strategy for simplifying large‐scale reaction kinetics and conducting global reaction pathway analysis in the pyrolysis process.

Publisher

Wiley

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