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Sintering Mechanism of Fe<sub>2</sub>O<sub>3</sub> Particles during Iron-Based Chemical Looping Combustion by Using ReaxFF MD Simulation and Experiments

Yuchuan Feng, Penghui Wang, Nana Wang, Xin Guo, Suxia Ma

2024Energy & Fuels21 citationsDOI

Abstract

Reactive force field molecular dynamics (ReaxFF MD) simulation and experiments were employed to deeply reveal the sintering mechanism of Fe 2 O 3 particles during iron-based chemical looping combustion. The sintering process of Fe 2 O 3 particles was simulated at different temperatures (973–1273 K). The results showed that the temperature increase has limited effect on the structure of Fe 2 O 3 particles and slightly increases the atomic irregularity. The sintering process of Fe 2 O 3 particles can be divided into three stages: the proximity phase, rapid formation, and slow growth of the sintering neck. The temperature increase significantly promotes the sintering process of Fe 2 O 3 particles. The mean-square displacement and Arrhenius equations were used to study the atomic diffusion properties of Fe 2 O 3 particles. The diffusion activation energy of surface atoms is lower than that of inner atoms, implying that the surface atoms have stronger diffusion ability. With the increase of temperature, more Fe atoms diffuse toward the interface of Fe 2 O 3 particles. Increasing the temperature can accelerate the diffusion and enrichment of surface atoms, especially Fe, toward the sintering neck region, resulting in more serious sintering of Fe 2 O 3 particles. ReaxFF MD simulation is in good agreement with the experimental results. Inhibiting the atomic diffusion is the key to improving the antisintering ability of Fe 2 O 3 oxygen carriers.

Topics & Concepts

ReaxFFSinteringMaterials scienceAtomic diffusionDiffusionSurface diffusionActivation energyMolecular dynamicsCombustionArrhenius equationChemical engineeringChemical physicsMetallurgyThermodynamicsChemistryPhysical chemistryCrystallographyComputational chemistryInteratomic potentialEngineeringPhysicsAdsorptionChemical Looping and Thermochemical ProcessesThermal and Kinetic AnalysisNuclear Materials and Properties
Sintering Mechanism of Fe<sub>2</sub>O<sub>3</sub> Particles during Iron-Based Chemical Looping Combustion by Using ReaxFF MD Simulation and Experiments | Litcius