固体-气体放热反应形成类janus纳米颗粒的建模与模拟

IF 0.5 Q4 CHEMISTRY, MULTIDISCIPLINARY
A. Markov, K. Martirosyan
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引用次数: 0

摘要

提出了用碳燃烧合成氧化物(CCSO)模拟由两个不同相组成的类Janus颗粒(JP)合成的理论模型。该模型包括样品初始孔隙率、碳浓度和氧气流速的变化,用于预测JP特征的形成。利用实验估算的112±3.3kJ/mol的活化能和燃烧温度,建立了铁电和铁磁两相化学活性亚微米分散混合物的双温(2T)燃烧模型。实验值允许通过对高克努森数的滑移跳跃模拟来说明热膨胀和浓度膨胀效应以及色散。该模型预测,燃烧介质的初始孔隙率越小,Janus样颗粒的形成率越高。模拟气体温度的滑移和跳跃使得宏观和微观结构之间的尺度桥接成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and Simulation of Janus-like Nanoparticles Formation by Solid-Gas Exothermic Reactions
Theoretical model for the simulation of synthesis of Janus-like particles (JP) consisting two different phases using the Carbon Combustion Synthesis of Oxides (CCSO) is presented. The model includes the variation of sample initial porosity, carbon concentration and oxygen flow rate used to predict the formation of JP features. The two temperature (2T) combustion model of chemically active submicron-dispersed mixture of two phases including ferroelectric and ferromagnetic was implemented and assessed by using the experimentally estimated activation energy of 112±3.3 kJ/mol and combustion temperature. The experimental values allowed to account the thermal and concentration expansion effect along with the dispersion by the slip-jump simulation for high Knudsen numbers. The model predicted that the smaller initial porosity of the combustion media creates higher formation rate of Janus-like particles. The simulation of slippage and jumps of the gas temperature allowed the scale-bridging between macro- and micro- structures.
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来源期刊
Eurasian Chemico-Technological Journal
Eurasian Chemico-Technological Journal CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
20.00%
发文量
6
审稿时长
20 weeks
期刊介绍: The journal is designed for publication of experimental and theoretical investigation results in the field of chemistry and chemical technology. Among priority fields that emphasized by chemical science are as follows: advanced materials and chemical technologies, current issues of organic synthesis and chemistry of natural compounds, physical chemistry, chemical physics, electro-photo-radiative-plasma chemistry, colloids, nanotechnologies, catalysis and surface-active materials, polymers, biochemistry.
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