Vikrant Sharma scite author profile

2019

Braz. J. Chem. Eng.

This paper presents a 3D full-loop simulation of a circulating fluidized bed gasifier. The model is validated with experimental results from the literature. The validated model is thereupon used to compare Bubbling Fluidized Bed (BFB) and Circulating Fluidized Bed (CFB) gasifiers to highlight the effect of a change in fluidization regime from bubbling to fast fluidization on hydrodynamics, temperature and gas composition. Feed temperature as well as Air/Coal (A/C) and Steam/Coal (S/C) ratios are kept constant, whereas the velocity of the feed (Air-Steam) is increased so as to get into the fast fluidization regime. It was concluded that the flue gas from the CFB is richer in desired gases, i.e., CO and H 2 than that from BFB. H 2 remains approximately the same, CO 2 and CH 4 decreased to a negligible amount and CO approximately doubles when the regime is changed. In addition, tar content in the gas also decreases.

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Effect of process parameters on circulating fluidized bed coal gasification using 3D full‐loop CFD simulation

2020

Can J Chem Eng

This article presents a 3D full‐loop computational fluid dynamics (CFD) simulation of a circulating fluidized bed gasifier (CFBG). The simulation results are validated against the experimental data and found to be in good agreement. Thereupon, the effect of the process parameters, ie, temperature, pressure, air/coal (A/C) ratio, and steam/coal (S/C) ratio, on the performance of the gasifier is analyzed. The effect of temperature on the hydrodynamics was found to be small. The CO and H2 increase, whereas the CO2 and H2O decrease with an increase in temperature. While the effect of pressure on the outlet species mole fraction is negligible, the gas and solid axial velocity decrease with an increase in pressure. With an increasing A/C ratio or decreasing S/C ratio, the combustion products (CO2 and H2O) increase, whereas the gasification products (CO and H2) decrease due to the increase in the O2 concentration. In addition, temperature increases with an increase in the A/C ratio or a decrease in the S/C ratio. The feed velocity increases with an increasing A/C or S/C ratio, and, accordingly, the pressure increases and bed height decreases. The CH4 decreases in all of the cases as it is being consumed in gasification as well as combustion reactions.

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Equilibrium Modeling and Optimization for Gasification of High-Ash Indian Coals by the Gibbs Free Energy Minimization Method

Process Integr Optim Sustain

2019

Coal Gasification in a Circulating Fluidized Bed

Gupta

2022

Three-Dimensional Full-Loop Hydrodynamic Simulation of a Circulating Fluidized-Bed Gasifier: A Quantitative Assessment of Drag Models

2019

Arab J Sci Eng