祝贺郑威论文“Facile Fabrication of Regenerable Spherical La0.8Ce0.2MnO3 Pellet via Wet-Chemistry Molding Strategy for Elemental Mercury Removal”被Chemical Engineering Journal(IF:15.1)接收发表!
发布时间:2023-11-26
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简介:Perovskite-based sorbents have received extensive attention in the field of mercury abatement. However, the excellent Hg0 adsorption performance on the lab scale hardly transforms into industrial-scale utilization because of the elutriation and microcrystalline nature of powdery perovskite sorbent. In this work, a universal granulation strategy is exploited for fabricating perovskite sorbent pellets for Hg0 capture from coal combustion flue gas (CCFG) based on a facile wet-chemistry method. This route takes advantages of the unique thermal sensitivity and thermal decomposition characteristics of agar powder and surface tension of medium to simultaneously trade off the molding, pore creation, and mechanical property of perovskite-based sorbent pellets. This work makes first step towards the application of sorbent pellets under application-relevant conditions and support the ultimate implementation of traditional sorbents in various large-scale industrial scenarios.
是否译成外文:否
上一条: 祝贺郑娇琴论文“Self-Constructing 100% Water-Resistant MetalSulfides through In-Situ Acid Etching for Effective Elemental Mercury (Hg0) Capture”被选为Langmuir杂志封面!
下一条: 祝贺郑娇琴论文“Self-Constructing 100% Water-Resistant MetalSulfides through In-Situ Acid Etching for Effective Elemental Mercury (Hg0) Capture”被Langmuir(IF:3.9)接收发表!