Xuesong Lu scite author profile

Experiments were carried out in a downer reactor integrated in a circulating fluidized bed combustor to examine the performance of the coal topping process. The effects of reaction temperature and coal particle size on the product distribution and their compositions were determined. The experimental results show that an increase in temperature will increase the yields of gas and liquid product, and the liquid yield decreases with the increase in coal particle size. The experiments exhibit an optimal condition for the liquid product. When the pyrolysis temperature is 660°C and coal particle size is less than 0.28 mm, the yield of light tar (hexanesoluble fraction) reaches 7.5 wt % (dry coal basis). The light tar is composed of acid groups (57.1 wt %), crude gasoline (aliphatics) (12.9 wt %), aromatics (21.4 wt %), and polar and basic groups (8.6 wt %). The experiments indicate that the coal topping process is a promising technology for partially converting coal into liquid fuels and fine chemicals.

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A porous media model for CFD simulations of gas-liquid two-phase flow in rotating packed beds

Xie

Ingham

et al. 2018

Chemical Engineering Science

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Highly hydrophobic polyaniline nanoparticles for anti-corrosion epoxy coatings

Chen

Fan

et al. 2021

Chemical Engineering Journal

118

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Modelling of CO2 absorption in a rotating packed bed using an Eulerian porous media approach

Xie

Ingham

et al. 2019

Chemical Engineering Science

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Xuesong Lu

Characteristics of liquid flow in a rotating packed bed for CO2 capture: A CFD analysis

Experimental Study of Coal Topping Process in a Downer Reactor

A porous media model for CFD simulations of gas-liquid two-phase flow in rotating packed beds

Highly hydrophobic polyaniline nanoparticles for anti-corrosion epoxy coatings

Modelling of CO2 absorption in a rotating packed bed using an Eulerian porous media approach

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