Understanding the interaction between transport, reaction and morphology at the scale of individual char particles is important for optimizing solid fuel gasification and combustion processes. However, most particle-scale models treat porous char particles as an effective porous continuum, even though the presence of large, irregular macropores, voids and fractures render such upscaled treatments mathematically invalid, and the models non-predictive. A new modeling framework is therefore proposed to elucidate the impact of morphology on char particle gasification and combustion. A pore-resolving, transient, three-dimensional simulation for gasification of a realistic coal char particle is developed based on X-ray micro-computed tomography (...
Char particle combustion typically occurs under internal diffusion control, which results in inter-p...
The influence of particle size on the growth of nanopores arising from gasification of a South Afric...
Chars produced by pyrolysis and gasification of almond shells to different peak temperatures have be...
Combustion and gasification of pulverized char often occur under zone II conditions, in which the ra...
Coal is a significant source of energy in today’s world and many studies have been conducted in orde...
Combustion of pulverized coal and biomass in furnaces and boilers involves millions of particles wit...
Biomass char morphology affects combustion behavior at the particle scale for zone II conditions, in...
Morphological analysis of pulverized coal char particles using two-dimensional (2-D) cross-sectional...
The effects of pyrolysis heating rates, particle size and ash upon the macropore structure of coal-d...
Cellular automata and discrete iterations are employed to develop a new simula-tion method for gas-s...
The purpose of this study is to develop an experimental data-based char particle gasification model ...
A robust, single-particle gasification model is presented that is capable of predicting char partic...
Studies have shown that both char particle diameter and apparent density vary during char conversion...
AbstractThe evolution of char porous structure can affect the gasification rate of biomass char. A m...
Coal pyrolysis and combustion have been systematically investigated at high temperatures where exter...
Char particle combustion typically occurs under internal diffusion control, which results in inter-p...
The influence of particle size on the growth of nanopores arising from gasification of a South Afric...
Chars produced by pyrolysis and gasification of almond shells to different peak temperatures have be...
Combustion and gasification of pulverized char often occur under zone II conditions, in which the ra...
Coal is a significant source of energy in today’s world and many studies have been conducted in orde...
Combustion of pulverized coal and biomass in furnaces and boilers involves millions of particles wit...
Biomass char morphology affects combustion behavior at the particle scale for zone II conditions, in...
Morphological analysis of pulverized coal char particles using two-dimensional (2-D) cross-sectional...
The effects of pyrolysis heating rates, particle size and ash upon the macropore structure of coal-d...
Cellular automata and discrete iterations are employed to develop a new simula-tion method for gas-s...
The purpose of this study is to develop an experimental data-based char particle gasification model ...
A robust, single-particle gasification model is presented that is capable of predicting char partic...
Studies have shown that both char particle diameter and apparent density vary during char conversion...
AbstractThe evolution of char porous structure can affect the gasification rate of biomass char. A m...
Coal pyrolysis and combustion have been systematically investigated at high temperatures where exter...
Char particle combustion typically occurs under internal diffusion control, which results in inter-p...
The influence of particle size on the growth of nanopores arising from gasification of a South Afric...
Chars produced by pyrolysis and gasification of almond shells to different peak temperatures have be...