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Microscopic reaction mechanism of the production of methanol during the thermal aging of cellulosic insulating paper.

Authors :
Zhang, Yiyi
Li, Yi
Zheng, Hanbo
Zhu, Mengzhao
Liu, Jiefeng
Yang, Tao
Zhang, Chaohai
Li, Yang
Source :
Cellulose; Mar2020, Vol. 27 Issue 5, p2455-2467, 13p
Publication Year :
2020

Abstract

Cellulose is the main component of transformer insulating paper. In this paper, the pyrolysis mechanism of cellulose is studied by means of computational chemistry. This study is aimed at exploring the generation process of the methanol from cellulosic insulating paper at the atomic level. A simulation scheme of cellulose pyrolysis with detailed reaction pathways for methanol production has been obtained that is not readily accessible by experiments. The molecular dynamics method based on reactive force field (ReaxFF) is adopted to simulate the pyrolysis of cellobiose. A model composed of 40 cellobioses simulated at 500–3000 K was established, and the force biased monte-carlo is mixed into ReaxFF to make it closer to the actual situation and ensure the reliability. The result reveals that the –CH<subscript>2</subscript>– group from the C<subscript>5</subscript> (or C 5 β€² ) group in cellobioses grabbed the nearby H atom to form methanol. In the pyrolysis process of cellobioses, methanol is stable at the early stage but unstable even disappeared in the later stage. The pre-exponential factor A and activation energy E<subscript>a</subscript> of the ReaxFF-MD simulation are consistent with previous experimental results. Thus, this study provides an effective theory of the methanol as an indicator to evaluate the aging condition of cellulosic insulating paper in the early stage at the atomic level. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09690239
Volume :
27
Issue :
5
Database :
Complementary Index
Journal :
Cellulose
Publication Type :
Academic Journal
Accession number :
142042668
Full Text :
https://doi.org/10.1007/s10570-019-02960-6