AUTHOR=Liu Zhihao , Chen Zhijie , Chen Qian , Liu Luwei , Wang Yingjie , Shu Peng , Zhong Yu , Sun Zeqin , Qiu Kui 

TITLE=Heterogeneous catalytic oxidation regeneration of desulfurization-rich liquor with Fe3+ modified chitosan

JOURNAL=Frontiers in Environmental Engineering

VOLUME=2

YEAR=2023

URL=https://www.frontiersin.org/journals/environmental-engineering/articles/10.3389/fenve.2023.1167552

DOI=10.3389/fenve.2023.1167552

ISSN=2813-5067

ABSTRACT=<p>To solve the problem of pipeline blockage caused by sulfur deposition in industrial gas wet oxidative desulfurization operations, this study developed an iron-modified chitosan catalyst for the catalytic oxidation regeneration of conventional wet oxidative desulfurization-rich liquids. Detailed characterization results show that Fe<sup>3+</sup> species are successfully coordinated with the chitosan substrate. The results of desulfurization and regeneration experiments showed that the Fe<sup>3+</sup>-modified chitosan could effectively regenerate the desulfurization waste stream and remain stable in the acidic desulfurization stream. The powdered iron-based modified chitosan catalyst prepared with a mass ratio of chitosan to FeCl<sub>3</sub> of 1:5 and glutaraldehyde of 12.5% by mass has better catalytic performance than the microbead counterpart. The regeneration performance of the catalyst was evaluated by the desulfurization performance of the regenerated desulfurization solution. The iron-based modified chitosan shows a good regeneration performance, and the loss of Fe content is less than 1.5% after five runs. This study provides an efficient way to develop cost-effective catalysts for the regeneration of wet oxidative desulfurization-rich liquids.</p>