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Comparison of detailed reaction mechanisms for homogeneous ammonia combustion

László Kawka, Gábor Juhász, Máté Papp, Tibor Nagy, István Gy. Zsély, Tamás Turányi

2020Zeitschrift für Physikalische Chemie50 citationsDOIOpen Access PDF

Abstract

Abstract Ammonia is a potential fuel for the storage of thermal energy. Experimental data were collected for homogeneous ammonia combustion: ignition delay times measured in shock tubes (247 data points in 28 datasets from four publications) and species concentration measurements from flow reactors (194/22/4). The measurements cover wide ranges of temperature T , pressure p , equivalence ratio φ and dilution. The experimental data were encoded in ReSpecTh Kinetics Data Format version 2.2 XML files. The standard deviations of the experimental datasets used were determined based on the experimental errors reported in the publications and also on error estimations obtained using program MinimalSplineFit. Simulations were carried out with eight recently published mechanisms at the conditions of these experiments using the Optima++ framework code, and the FlameMaster and OpenSmoke++ solver packages. The performance of the mechanisms was compared using a sum-of-square error function to quantify the agreement between the simulations and the experimental data. Ignition delay times were well reproduced by five mechanisms, the best ones were Glarborg-2018 and Shrestha-2018. None of the mechanisms were able to reproduce well the profiles of NO, N 2 O and NH 3 concentrations measured in flow reactors.

Topics & Concepts

CombustionIgnition systemNuclear engineeringExperimental dataThermodynamicsComputer scienceStandard deviationDilutionMechanicsProcess engineeringMaterials scienceSimulationChemistryMathematicsStatisticsPhysicsPhysical chemistryEngineeringAdvanced Combustion Engine TechnologiesAtmospheric chemistry and aerosolsCombustion and flame dynamics
Comparison of detailed reaction mechanisms for homogeneous ammonia combustion | Litcius