Title: Thermal Oxidation of Carbonaceous Nanomaterials Revisited: Evidence of Mechanism Changes.
Authors: Picheau, Emmanuel; Hof, Ferdinand; Derré, Alain; Daffos, Barbara; Pénicaud, Alain
Abstract: Kinetic data, for example, activation energy and reaction order, are crucial for the understanding of chemical reactions and processes. Here, we describe a novel method for obtaining kinetic data based on thermogravimetric measurements (TGA) that exploits in each measurement multiple successive isothermal steps (SIS). We applied this method to the notoriously challenging carbon combustion process for vastly different carbons for oxygen molar fractions between 1.4 % and 90 %. Our obtained apparent EA values are within the wide range of results in the literature and vary in a systematic way with the oxygen partial pressure. The improved accuracy and large amount of obtainable data allowed us to show that the majority of experimentally obtained apparent data for apparent EA are neither in a kinetic regime nor in a diffusion‐controlled one but rather in a transition regime.
Subjects: CHEMICAL processes; CHEMICAL reactions; OXIDATION; MOLE fraction; PARTIAL pressure
Publication: Angewandte Chemie, 2019, Vol 131, Issue 45, p16159
ISSN: 0044-8249
Publication type: Academic Journal
DOI: 10.1002/ange.201906026

Thermal Oxidation of Carbonaceous Nanomaterials Revisited: Evidence of Mechanism Changes.

Picheau, Emmanuel; Hof, Ferdinand; Derré, Alain; Daffos, Barbara; Pénicaud, Alain