[EN] During the combustion of coal in power plants Hg is released from the coal into the environment. Several technologies are under developed to reduce these emissions, but the need to implement new control systems will depend in part on the extent to which Hg can be captured in the fly ash. Previous studies have demonstrated that fly ashes may not only retain Hg species but also oxidize Hg0(g). This should be taken into consideration when developing technologies for Hg retention. The aim of this study is to acquire a better understanding of the interactions between Hg0(g) and fly ashes and to clarify the effect of unburned carbon and the flue gas composition upon the retention and oxidation mechanisms. A series of retention, oxidation and desorption experiments were carried out using lab-scale reactors. All the results obtained indicate that the interaction between Hg and fly ash is mainly chemical since the retention of Hg involves oxidation. Moreover, if the oxidation takes place in gas phase, condensation of oxidized mercury occurs. Carbonaceous matter is involved in most of the retention and oxidation mechanisms between Hg and fly ash. The carbon concentrates with the highest Hg retention capacity produce the highest Hg oxidation. The gas mixtures containing O2 + CO2 + SO2 + H2O were observed to increase Hg retention in the carbon concentrates from fly ashes. However, the presence of HCl in the mixtures may increase or decrease Hg capture. Heterogeneous oxidation was only significant in the fly ash fractions enriched in unburned carbon.
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机译:[EN]在电厂燃烧煤炭时,汞从煤中释放到环境中。目前正在开发减少这些排放的几种技术,但是实施新控制系统的需求将部分取决于飞灰中Hg的捕集程度。先前的研究表明,飞灰不仅可能保留汞物种,而且还会氧化Hg0(g)。在开发汞保留技术时应考虑到这一点。这项研究的目的是更好地了解Hg0(g)与飞灰之间的相互作用,并阐明未燃烧的碳和烟气成分对保留和氧化机理的影响。使用实验室规模的反应器进行了一系列保留,氧化和解吸实验。所有获得的结果表明,汞和粉煤灰之间的相互作用主要是化学相互作用,因为汞的保留涉及氧化。此外,如果氧化在气相中发生,则发生氧化汞的冷凝。碳与汞和粉煤灰之间的大多数保留和氧化机理有关。具有最高汞保留能力的碳精矿会产生最高的汞氧化。观察到包含O2 + CO2 + SO2 + H2O的气体混合物会增加飞灰中碳精矿中的汞保留。但是,混合物中HCl的存在可能会增加或减少汞的捕获。异质氧化仅在富含未燃烧碳的粉煤灰馏分中才有意义。
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