Numerical Investigation of the Effects of Gas-release Rate and Viscosity under Various Heating Rates on Swelling Ratio of Coal in the Coke Production Process

Abstract: The effect of heating rate on the swelling ratio of coke during heating of coal was investigated using numerical simulations. The mathematical model in our previous study was modified to observe the effect of the heating rate, and the equation for the reaction rate of coal pyrolysis and gas formation was changed to a first-order temperature-dependent equation. The original and viscosity-dependent classical bubble nucleation equations were compared, and the results showed that the swelling ratio in the numerica… Show more

“…The iron ores and fine coke/coal are primary components in the recycling dust. They both show obvious swelling behavior under a higher heating rate. , It can be inferred that the dust particles will also expand after entering into the high-temperature region, potentially increasing porosity simultaneously, improving the diffusion rate of the reactive gas in the particles. After that, as the intense oxidation/gasification reactions proceed, the dust particle diameter decreases rapidly.…”

Numerical Simulation of Combustion Characteristics in the Dome Zone of the COREX Melter-Gasifier: The Effect of Rising Gas

“…The iron ores and fine coke/coal are primary components in the recycling dust. They both show obvious swelling behavior under a higher heating rate. , It can be inferred that the dust particles will also expand after entering into the high-temperature region, potentially increasing porosity simultaneously, improving the diffusion rate of the reactive gas in the particles. After that, as the intense oxidation/gasification reactions proceed, the dust particle diameter decreases rapidly.…”

Numerical Simulation of Combustion Characteristics in the Dome Zone of the COREX Melter-Gasifier: The Effect of Rising Gas

Preparation of foamed gel for preventing spontaneous combustion of coal