In order to solve the ecological and environmental problems caused by microplastics remaining in the ocean and improve the gasification efficiency of plastics, the gasification experiments of acrylonitrile butadiene styrene (ABS) microplastics were carried out in supercritical water and the novel in-situ hydrogenation induction gasification was used to achieve optimal gasification. In this paper, the effects of different operating conditions (temperature, time, feedstock concentration, pressure) on gasification performance were investigated. The in-situ hydrogenation induction gasification of organic acid (formic acid) and inorganic acid (hydrochloric acid) were introduced to compare the effects of in-situ hydrogenation on gasification with traditional pyrolysis and supercritical water. The experimental results showed that increasing the gasification temperature, prolonging the reaction time and reducing the feedstock concentration can effectively improve the gasification efficiency of the microplastics, and the change in reaction pressure has no effect on the gasification efficiency. It is found that the valuable results that in-situ hydrogenation induction gasification significantly improved the gasification performance of ABS microplastics in supercritical water, in which the catalytic performance of organic acid (formic acid) was the most significant, followed by inorganic acid (hydrochloric acid). In-situ hydrogenation promoted the cracking of unsaturated chain hydrocarbons and polycyclic aromatic hydrocarbons. Finally, it was considered that the optimum gasification condition was at a temperature of 800?°C, a time of 60?min, a feedstock concentration of 3?wt%, a pressure of 23?MPa, and a solution of 1?wt% formic acid, the carbon conversion rate of the microplastics reached 97.0?wt%.

» Author: Bin Bai, Hui Jin, Shixing Zhu, Pengfei Wu, Chao Fan, Jingli Sun

» Reference: 10.1016/j.fuproc.2019.04.020

» Publication Date: 01/09/2019

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