Review on magnetic adsorbents for removal of elemental mercury from coal combustion flue gas

Abstract

Under the influence of human activities, atmospheric mercury (Hg) concentrations have increased by 450% compared with natural levels. In the context of the Minamata Convention on Mercury, which came into effect in August 2017, it is imperative to strengthen Hg emission controls. Existing Air Pollution Control Devices (APCDs) combined with collaborative control technology can effectively remove Hg²⁺ and Hg_p; however, Hg⁰ removal is substandard. Compared with the catalytic oxidation method, Hg⁰ removal through adsorbent injection carries the risk of secondary release and is uneconomical. Magnetic adsorbents exhibit excellent recycling and Hg⁰ recovery performance and have recently attracted the attention of researchers. This review summarizes the existing magnetic materials for Hg⁰ adsorption and discusses the removal performances and mechanisms of iron, carbon, mineral-based, and magnetosphere materials. The effects of temperature and different flue gas components, including O₂, NO, SO₂, H₂O, and HCl, on the adsorption performance of Hg⁰ are also summarized. Finally, different regeneration methods are discussed in detail. Although the research and development of magnetic adsorbents has progressed, significant challenges remain regarding their application. This review provides theoretical guidance for the improvement of existing and development of new magnetic adsorbents.

Keywords: Coal combustion flue gas; Magnetic adsorbents; Mercury removal; Regeneration.