A novel single particle study of steam gasification kinetics of a coal-derived char at high temperatures and pressures

Keywords

Steam gasification, activated carbon, feedstock characterization, kinetics

Abstract

A novel single particle experiment was developed to allow for detailed char gasification measurements in pure steam at temperatures from 1000 °C to 1400 °C and pressures from 1 bar to 15 bar. A coal-derived activated carbon was thoroughly characterized with respect to its composition, physical structure, and reactivity revealing properties consistent with chars reported in the literature. The single particle approach allowed for the boundary and initial conditions to be well known and for the mass of the particle to be accurately measured before and after testing to provide high-quality conversion data. The resulting conversion data were analyzed using the random pore model and the shrinking core model, of which the random pore model provided the best fit. Apparent activation energies were calculated using the random pore model which provided values ranging from 57.1 kJ/mol to 129 kJ/mol which are nominally half of the magnitude of the values reported in the literature under kinetically controlled conditions, thus demonstrating that regime II conditions were present. Additionally, the activation energies decreased with increasing temperature further demonstrating the presence of regime II conditions. The calculated reaction order ranged from 0 to 0.5 and decreased with increasing pressure agreeing well with literature values and trends.

Original Publication Citation

MA Kelley, SR Smith, JM Porter, A novel single particle study of steam gasification kinetics of a coal-derived char at high temperatures and pressures, Proceedings of the Combustion Institute (2019) 37 (3), 3061-3069

Document Type

Peer-Reviewed Article

Publication Date

2019

Publisher

Elsevier

Language

English

College

Ira A. Fulton College of Engineering and Technology

Department

Mechanical Engineering

University Standing at Time of Publication

Associate Professor

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