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Behavior and kinetic analysis of coal combustion under ammonia atmosphere based on thermogravimetric experiment

Youxing Wei, Zhongya Xi, Yueyue Xia, Jianfeng Cai, Jinzheng Chen, Jiatong Li, Zhimin Lü, Shunchun Yao

2024Fuel19 citationsDOIOpen Access PDF

Abstract

Ammonia/coal co-firing is an efficient strategy in the thermal power industry for source-based carbon reduction. Its ignition and combustion are critical for maintaining flame stability and boiler operational safety, but the co-firing characteristics and kinetic mechanism remain unclear. In this paper, based on thermogravimetric conditions and kinetic model analysis, the combustion behavior and kinetic mechanisms of typical coal samples were systematically investigated under ammonia co-firing conditions, considering different heating rates and co-firing ratios. The effects of different conditions on the characteristics of co-firing (characteristic temperature, reactivity, ignition, burnout, stabilization and integrated combustion index, etc.) were revealed. It is found that the effects of co-firing mainly occur in the char combustion stage. The addition of ammonia significantly prolongs the reaction time of coal combustion , increasing the characteristic temperature (9.89–55.78 %), and significantly decreasing the reaction rate and combustion characteristic parameters. Furthermore, the kinetic parameters of co-firing are investigated by combining model-free and model-based methods, and the two models show highly consistent results: the average activation energy of the coal samples increases significantly (24.18–78.23 %) under co-firing and further intensified with the increase of the co-firing ratio. Meanwhile, the mechanism models applicable to ammonia/coal co-firing are selected from 40 commonly used models, and the Nucleation growth and Reaction order models show good applicability. This paper reveals the behavior and combustion mechanism of ammonia/coal co-firing under varying conditions. It proposes a reliable ammonia/coal combustion mechanism model, which is of great significance for developing and applying ammonia/coal co-firing.

Topics & Concepts

Thermogravimetric analysisAtmosphere (unit)CombustionKinetic energyCoalAmmoniaEnvironmental scienceChemistryThermodynamicsPhysical chemistryOrganic chemistryPhysicsQuantum mechanicsThermochemical Biomass Conversion ProcessesThermal and Kinetic AnalysisCoal and Its By-products
Behavior and kinetic analysis of coal combustion under ammonia atmosphere based on thermogravimetric experiment | Litcius