| 摘要 |
In geological processes, thermochemical sulphate reduction (TSR) is a significant way to transform oxidising sulphur into reducing sulphur, such as H2S, that can promote the formation of metal sulphide deposits. The occurrence of TSR is a complex process, where all kinds of sulphate, organic matter, and catalysis materials are involved, in which Al exists commonly in geological background. In order to figure out the function of Al in the TSR process, a series of experiments were conducted to investigate the TSR by using fused silica capillary capsules combined with Raman spectroscopy at temperatures ranging from 250 degrees C to 350 degrees C in this study. Ethanol (cracked into ethylene by heating) or acetic acid was used as reducing agents, and sodium sulphate or magnesium sulphate as oxidising agents, and the AlCl3 was introduced as a variable to investigate its effect on the initiation of TSR. Raman spectra were collected from the quenched and in-situ experiments. The results indicate that the addition of AlCl3 favours the initiation of TSR. In-situ Raman investigation reveals that HSO4- is the dominant sulphate species involved in TSR under our experimental conditions. This facilitating effect of AlCl3 on TSR has been attributed to the increased acidity in solution caused by the release of H+ through the formation of Al3+-bearing minerals such as natroalunite, where the released H+ combines with SO4 2-to form HSO4- . And SO2 was detected as an intermediate product during the reduction of HSO4- by in situ Raman spectroscopy. The experimental results imply that it is possible that the TSR can occur and accumulate enough reduced sulphur in a short period of time in an aluminium-rich geological environment at temperatures as low as 250 degrees C.
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