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斯洛文尼亚Idrija矿区的汞同位素分馏

Mercury isotope fractionation in the Idrija mining region, Slovenia
课程网址: http://videolectures.net/ipssc2017_shlyapnikov_mercury_isotope/  
主讲教师: Yaroslav Shlyapnikov
开课单位: 约瑟夫·斯特凡研究所
开课时间: 2017-05-23
课程语种: 英语
中文简介:
伊德里加汞矿是世界第二大汞矿,有500年的历史,总产量为144.800吨汞,占全球总产量的13%以上。在此期间,已售出107.700吨商业汞,37.100吨汞流失到环境中,这是在关闭矿山20年后,当地环境中仍然存在的现象。汞(Hg)以两种主要形式存在,即朱砂矿(70%)和天然Hg0(30%)。如今,Idrija汞的主要来源是:仍然活跃的矿井通风井、前冶炼厂严重污染环境中汞的蒸发、主要或部分开采矿石的矿化堆、矿床露头以及以各种方式处理的矿石残渣。在三叠纪伊德里加矿形成过程中,基于汞同位素分馏的不同过程和汞源的识别,开发和使用了新的方法和方法。这将有助于确定不同环境汞源的汞同位素比值(IR)特征,并在更广泛的Idrija环境中重建汞质量平衡,并将大大有助于评估以前采矿和冶炼作业与当地环境之间汞的动态和转化。 本研究的目的是研究汞同位素组成,并评估汞矿、加工(蒸馏)矿石、矿中存在并出现在Idrijca河附近的天然元素Hg0(L)以及Idrija冶炼厂生产的元素Hg0的不同矿石的汞同位素分馏。对冷蒸汽发生器系统(CVG)和MC-ICP-MS(英国如新仪器有限公司如新等离子II)进行了分析。初步测量表明,元素Hg0的δ202Hg值存在巨大差异,从产出汞中的-4.06±0.19‰到矿区天然汞中的-0.74±0.12‰,而伊德里卡河天然汞的δ202Hg值为-0.35±0.15‰。对矿区不同位置的土芯样品进行分析,得出δ202Hg值为-1.11至0.26‰(2SD=0.20‰)。与其他岩芯相比,靠近冶炼厂的岩芯样品中的汞同位素指纹显示出很大的差异。研究结果将提供有关Idrija矿区汞源的新信息。
课程简介: Idrija mercury mine is world second largest with 500 years history, and total production of 144.800 tons of mercury, which represents over 13% of the entire world production. During that time, 107.700 tons of commercial mercury have been sold and 37.100 tons of mercury was lost into the environment, which is after 20 years of mine closure still persistent in local environment. Mercury (Hg) is present in two main forms as cinnabar ore (70%) and as native Hg0 (30%). Nowadays, the main sources of Hg in Idrija are: still active mine ventilation shafts, evaporation of Hg from the heavily polluted surroundings of the former smelting plant, mineralized rock dumps of primary or partially exploited ore, outcrops of the ore deposit, and ore residues treated in various ways. Novel methodologies and approaches developed and used based on identification of mercury isotope fractionation caused by different processes and sources of Hg during formation of Idrija mine in Triassic. This will enable identification of mercury isotope ratios (IR) characteristic for different environmental Hg sources and reconstruction of Hg mass balance in wider Idrija environment, and will significantly contribute to assess dynamics and transformations of mercury between former mining and smelting operations and local environment. The objective of this research was to study Hg isotopic compositions and evaluate Hg isotopic fractionation of different ores from the mercury mine, processed (retorted) ore, native elemental Hg0 (L) present in the mine and appeared in near-by Idrijca river, and elemental Hg0 , produced in Idrija smelting plant. Analysis has been done on Cold Vapour Generator system (CVG) coupled with MC-ICP-MS (Nu plasma II, Nu instruments Ltd, UK). Initial measurements showed huge difference in δ 202Hg values were obtained for elemental Hg0 , from -4.06 ± 0.19 ‰ in produced mercury to -0.74 ± 0.12 ‰ in the native mercury from the mine, whereas the native mercury from the Idrijca river presented δ 202Hg value of -0.35 ± 0.15 ‰. Soil core samples from different locations in the mining district were analysed and presented δ 202Hg values from -1.11 to 0.26 ‰ (2SD = 0.20 ‰). Hg isotope fingerprints in core samples close to the smelting plant show a big difference in comparison with other cores. The results, which give new information about Hg sources in Idrija mining region, will be presented.
关 键 词: 伊德里加汞矿; 汞同位素分馏; 汞同位素组成
课程来源: 视频讲座网
数据采集: 2021-11-07:zkj
最后编审: 2021-11-07:zkj
阅读次数: 60