Study on the variations of extractable polycyclic aromatic hydrocarbons in lignite and semi-coke

Abstract

Low-temperature pyrolysis is one of the most important technologies for the clean and efficient utilization of lignite. Semi-coke, the solid product of this process, has been widely used as both an industrial and household clean fuel. In this study, three lignites from China (EE), Indonesia (YN), and Mongolia (WM) and their semi-cokes obtained through pyrolysis at 550 °C were treated with dichloromethane, and the extracted polycyclic aromatic hydrocarbons (PAHs) were analyzed using a gas chromatograph/mass spectrometer. The results showed that the total concentrations of PAHs in EE, YN, and WM were 125000, 4400, and 5800 ng/g, respectively, and those in their semi-cokes were 4700, 10000, and 5500 ng/g, respectively. The concentrations of alkylated PAHs (aPAHs) were higher than those of parent 16 US EPA priority PAHs (16 PAHs) in lignites, while parent 16 PAHs were more abundant in semi-cokes. Both lignites and semi-cokes were dominated by 2-ring PAHs (naphthalene and alkylated naphthalenes), followed by 3- and 4-ring PAHs. The proportion of 2-ring PAHs in the semi-cokes increased with respect to that in the lignites, and the degree of alkylation of the PAHs decreased. This suggested that the extractable PAHs changed to smaller parent PAHs during the low-temperature pyrolysis. The concentration and composition of PAHs in the mobile phase of the semi-coke are an important part of its structural characteristics and are closely related to the macromolecular structure of raw coal. Thus, this study on PAHs in semi-coke provides relevant information on the structural evolution of coal during pyrolysis and further improves our understanding of clean fuel.