Effect of ferric chloride addition on soot formation during ethylene pyrolysis in a laminar flow reactor

Effect of ferric chloride addition on soot formation during ethylene pyrolysis in a laminar flow reactor

In this work, we investigated the effect of ferric chloride (FeCl3) addition on soot formation during ethylene pyrolysis in a laminar flow reactor by characterizing particles sampled at the reactor outlet. To avoid the interference of oxygen atoms on soot formation, we selected FeCl3 as an iron-base...

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Bibliographic Details
Published in:Proceedings of the Combustion Institute Vol. 40; no. 1-4; p. 105677
Main Authors: He, Qingyan, Zhou, Yuxin, You, Xiaoqing
Format: Journal Article
Language:English
Published: Elsevier Inc 2024
Subjects:
Charge
FeCl3
Morphology
PSDs
Soot formation
Charge
FeCl3
Soot formation
Morphology
PSDs
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Summary:In this work, we investigated the effect of ferric chloride (FeCl3) addition on soot formation during ethylene pyrolysis in a laminar flow reactor by characterizing particles sampled at the reactor outlet. To avoid the interference of oxygen atoms on soot formation, we selected FeCl3 as an iron-based additive and used a diffusion dryer to absorb water in the FeCl3 solution. By studying particle size distribution, morphology, and chemical composition, we found that iron-containing particles evolved from iron nuclei to core-shell particles and finally to aggregates. These iron-containing particles, which had an overall higher charge fraction, hindered the agglomeration of iron nuclei but promoted the formation of core-shell particles. In addition, ReaxFF molecular dynamics simulations were performed to study the interaction between FeCl3 and pyrene molecules in the early stages of soot formation. Simulation results show that FeCl3 would undergo thermal decomposition to form Fe-C sosoloid as the core of the core-shell particles.
ISSN:1540-7489
1873-2704
DOI:10.1016/j.proci.2024.105677