EXAFS and XRD characterization of palladium sorbents for high temperature mercury capture from fuel gas

Stephen Poulston; Timothy I. Hyde; Hugh Hamilton

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EXAFS and XRD characterization of palladium sorbents for high temperature mercury capture from fuel gas

机译：EXAFS和XRD表征用于从燃气中捕集高温汞的钯吸附剂

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Removal of pollutants such as mercury at elevated temperatures provides improvements in the overall thermal efficiency during the process of coal gasification. The two high temperature sorbents studied were 5 wt% Pd/Al2O3 and 5 wt% Pd/SiO2: materials shown to have significantly different Hg adsorption capacities. A combination of XRD and EXAFS has been used to characterize the Pd-Hg alloy formed when these Pd-based sorbents were exposed to fuel gas (CO, CO2, H2) containing Hg vapour at 204 °C. Significant differences were found in the nature of the alloy formed on the two sorbents following Hg exposure. The Pd/Al2O3 sorbent produced a single homogeneous solid solution of Pd-Hg whilst the silica-supported Pd produced an alloy of varying composition.

机译：在高温下去除汞等污染物可改善煤气化过程中的整体热效率。所研究的两种高温吸附剂分别为5 wt％的Pd / Al2O3和5 wt％的Pd / SiO2：材料显示出明显不同的Hg吸附能力。 XRD和EXAFS的组合已用于表征当这些基于Pd的吸附剂在204°C下暴露于含有Hg蒸气的燃料气体（CO，CO2，H2）时形成的Pd-Hg合金。汞暴露后，两种吸附剂上形成的合金的性质存在显着差异。 Pd / Al2O3吸附剂产生了单一的Pd-Hg固溶固溶体，而二氧化硅负载的Pd产生了成分不同的合金。

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《Physical chemistry chemical physics: PCCP 》 |2010年第2期| 共8页
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Stephen Poulston; Timothy I. Hyde; Hugh Hamilton;
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1. EXAFS and XRD characterization of palladium sorbents for high temperature mercury capture from fuel gas [J] . Stephen Poulston, Timothy I. Hyde, Hugh Hamilton Physical chemistry chemical physics: PCCP . 2010 ,第2期

机译：EXAFS和XRD表征用于从燃气中捕集高温汞的钯吸附剂
2. XAFS characterization of mercury captured from combustion gases on sorbents at low temperatures [J] . Frank E.Huggins, Nora Yap, Gerald P.Huffman, Fuel Processing Technology . 2003 ,第2a3期

机译：XAFS表征在低温下从吸附剂上的燃烧气体中捕获的汞
3. Pd/activated carbon sorbents for mid-temperature capture of mercury from coal-derived fuel gas [J] . Dekui Li, Jieru Han, Lina Han, Journal of environmental sciences . 2014 ,第7期

机译：钯/活性炭吸附剂，用于中温捕集源自煤的燃气中的汞
4. Surface Characterization of Palladium-Alumina Sorbents for High-Temperature Capture of Mercury and Arsenic from Fuel Gas [C] . John P. Baltrus, Evan J. Granite, Henry W. Pennline AIChE National Meeting . 2009

机译：钯 - 氧化铝吸附剂的表面特征，用于高温捕获汞和燃气气体的砷
5. High temperature reactive separation process for combined carbon dioxide and sulfur dioxide capture from flue gas and enhanced hydrogen production with in-situ carbon dioxide capture using high reactivity calcium and biomineral sorbents. [D] . Iyer, Mahesh V. 2006

机译：高温反应分离工艺，用于从烟道气中捕获二氧化碳和二氧化硫，并使用高反应性钙和生物矿物吸附剂进行原位捕获，从而提高了制氢量。
6. A Magnetically Recoverable Fe3O4–NH2–Pd Sorbent for Capture of Mercury from Coal Derived Fuel Gas [O] . Lina Han, Qinglian Li, Shuai Chen, -1

机译：磁性可回收的Fe3O4–NH2–Pd吸附剂用于从煤衍生的燃料气中捕获汞
7. Surface characterizatin of palladium-alumina sorbents for high-temperature capture of mercury and arsenic from fuel gas [O] . Baltrus, J.P., Granite, E.J., Pennline, H.W., 2010

机译：钯 - 氧化铝吸附剂的表面特征，用于高温捕获燃料气中的汞和砷

EXAFS and XRD characterization of palladium sorbents for high temperature mercury capture from fuel gas

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