Abstract
The purpose of this paper is to study the effect of extracted compositions of the de-ash liquefaction residue (D-DCLR) on pyrolysis products yields, compressive strength and composition of the formed-coke, which was prepared by co-pyrolysis of the low metamorphic pulverized coal and D-DCLR. The scanning electron microscope (SEM) and the Fourier Transform Infrared (FT-IR) were used to characterize the morphology and functional group of the formed-coke, respectively. The results showed that the extracted compositions of D-DCLR were heavy oil (HS), asphaltene (A), pre-asphaltene (PA) and tetrahydrofuran isolusion (THFIS), whose contents were 5.10%, 40.90%, 14.4%, 39.60%, respectively. During the pyrolysis process, HS was the main source of tar, and HS, A as well as PA were conducive to improve gas yields. The THFIS helped to improve the yield of the formed-coke up to 89.5%, corresponding to the compressive strength was only 147.7N/ball for the coke. A and PA were the key factors affecting the compressive strength and surface structure of the formed-coke. The compressive strength of coke could be up to 728.0N/ball with adding D-DCLR, which reduced by 50% after the removal of A and PA. The FT-IR analysis showed that the types of surface functional groups of the formed-coke were remained the same after co-pyrolysis, but the absorption peak intensity of each functional group was changed.
Highlights
Coal resources reserves are abundant in China, where stored full range of coal species but its distribution is very uneven
The results showed that this technology is an effective way to utilize the low metamorphic pulverized coal and D-Direct coal liquefaction residue (DCLR)
The low-metamorphic fork pulverized coal is a kind of long flame coal from Shenmu Sunjiacha (SJC), the D-DCLR is from a coal chemical industry that in the west of China
Summary
Coal resources reserves are abundant in China, where stored full range of coal species but its distribution is very uneven. Low rank coal characterized by low rank and ignition, high volatile and tar yield in Ordos Basin and Northern Shaanxi, is a kind of high-quality steam coal, and is widely used in power plants and exports, currently. Through the medium or low temperature distillation process to produce semi coke, tar and gas are new ways explored in recent years. Pyrolysis of low metamorphic pulverized coal mostly concentrates on studying solid heat carrier, which still doesn’t achieve commercial applications by far. This is because that the heavy tar and semi coke fine particles will be adhered to the inner wall of the cyclone and the cooling circuit, which will have an impact on the stable operation of the system. The rapid mixing and heating of pulverized coal with solid heat carrier is the main reason, so is the rapid separation of volatiles
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