One Step Interface Activation of ZnS Using Cupric Ions for Mercury Recovery from Nonferrous Smelting Flue Gas

One Step Interface Activation of ZnS Using Cupric Ions for Mercury Recovery from Nonferrous Smelting Flue Gas

The flue gases with high concentration of mercury are often encountered in the nonferrous smelting industries and the treatment of mercury-containing wastes. To recover mercury from such flue gases, sorbents with enough large adsorption capacity are required to capture and enrich mercury. ZnS is a c...

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Veröffentlicht in:Environmental science & technology 2019-04, Vol.53 (8), p.4511-4518
Hauptverfasser: Liao, Yong, Xu, Haomiao, Liu, Wei, Ni, Hengfa, Zhang, Xiaoguo, Zhai, Aiping, Quan, Zongwen, Qu, Zan, Yan, Naiqiang
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Copper
Cupric ions
Flue gas
Gases
Heat treatment
Industrial wastes
Mercury
Mercury (metal)
Mercury surface
Metallurgy
Minerals
Ores
Organic chemistry
Oxidation
Raw materials
Recovery
Smelting
Sorbents
Thermal utilization
Waste treatment
Zinc
Zinc sulfide
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container_end_page 4518
container_issue 8
container_start_page 4511
container_title Environmental science & technology
container_volume 53
creator Liao, Yong
Xu, Haomiao
Liu, Wei
Ni, Hengfa
Zhang, Xiaoguo
Zhai, Aiping
Quan, Zongwen
Qu, Zan
Yan, Naiqiang
description The flue gases with high concentration of mercury are often encountered in the nonferrous smelting industries and the treatment of mercury-containing wastes. To recover mercury from such flue gases, sorbents with enough large adsorption capacity are required to capture and enrich mercury. ZnS is a cheap and readily prepared material, and even can be obtained from its natural ores. In this work, a simple controllable oxidation methodsoaking in cupric solutionwas developed to improve the interfacial activity of ZnS and its natural ores for Hg0 adsorption. The gaseous Hg0 adsorption capacity of ZnS was enhanced from 0.3 to 3.6 mg·g–1 after such treatment. Further analysis indicated that a new interface rich in S1– ions was formed and provided sufficient active sites for the chemical adsorption of Hg0. In addition, the cyclic Hg0 adsorption and recovery experiments demonstrated that the adsorption performance of spent activated-ZnS was recovered after reactivating sorbents with Cu2+, indicating the recovery of activated interface. Meanwhile, the high concentration of adsorbed mercury at the surface can be collected using a thermal treatment method. Utilization of raw materials from a zinc production process provides a promising and cost-effective method for removing and recovering mercury from nonferrous smelting flue gas.
doi_str_mv 10.1021/acs.est.9b01310
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source American Chemical Society Journals
subjects Adsorption
Copper
Cupric ions
Flue gas
Gases
Heat treatment
Industrial wastes
Mercury
Mercury (metal)
Mercury surface
Metallurgy
Minerals
Ores
Organic chemistry
Oxidation
Raw materials
Recovery
Smelting
Sorbents
Thermal utilization
Waste treatment
Zinc
Zinc sulfide
title One Step Interface Activation of ZnS Using Cupric Ions for Mercury Recovery from Nonferrous Smelting Flue Gas
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