武俐, 王海坡, 李鹏, 等. 生物成气中离子和微量元素变化特征及健康风险评价[J]. 煤炭学报, 2021, 46(3): 994-1002.
引用本文: 武俐, 王海坡, 李鹏, 等. 生物成气中离子和微量元素变化特征及健康风险评价[J]. 煤炭学报, 2021, 46(3): 994-1002.
WU Li, WANG Haipo, LI Peng, et al. Variation characteristics of typical ions and trace elements and health risk assessment in the process of coal gasification by microorganism[J]. Journal of China Coal Society, 2021, 46(3): 994-1002.
Citation: WU Li, WANG Haipo, LI Peng, et al. Variation characteristics of typical ions and trace elements and health risk assessment in the process of coal gasification by microorganism[J]. Journal of China Coal Society, 2021, 46(3): 994-1002.

生物成气中离子和微量元素变化特征及健康风险评价

Variation characteristics of typical ions and trace elements and health risk assessment in the process of coal gasification by microorganism

  • 摘要: 向煤层中添加微生物群落和营养物质可产出甲烷,微生物在利用煤和营养物质进行成气时,典型离子与微量元素的质量浓度变化关系到周围环境安全性。为研究煤生物成气过程中液相微量元素的变化特征,选取河南平顶山、河南义马和山西长治3个地区的煤样,开展模拟生物成气实验研究。利用离子色谱和电感耦合等离子质谱(ICP-MS)对成气过程中液相的Na+,NH+4,K+,Cl-,PO3-4等常量离子与V,Cr,Mn,Co,Ni,Cu,Zn,As,Se,Ag,Cd,Sb,Ba,Ti,Pb等金属元素的质量浓度进行测定。结果表明,成气过程液相中,常量离子的质量浓度随产气时间的增加基本保持稳定,微量元素的变化与产气过程有很强的相关性,成气过程中V,Ag和Cd未检出,而As,Ba,Co,Ni和Pb等微量元素的质量浓度均随产气时间的增加而升高,Pb,Se和Ti质量浓度的变化与煤样有关。Ba质量浓度最高,为23.88~144.79 μg/L,As,Cu质量浓度分别为588~25.07,5.47~14.17 μg/L,其他金属元素质量浓度较低。煤粉浸泡前10 d,溶液中Ba,Cu,Ni和Se的质量浓度逐渐升高,需特别关注。健康风险评价结果表明,非致癌物质Pb,Ni,Cu和Ba的风险范围在4.37×10-12~1.48×10-9,远小于非致癌风险阈值1,其中,Cu的非致癌风险高于其他3种金属;致癌物As的风险范围在4.61×10-5~1.96×10-4,均超过了致癌风险阈值1×10-6,表明As是煤生物成气过程中对健康危害最大的潜在污染物质,应引起高度关注。

     

    Abstract: Methane can be produced by adding microbial communities and nutrients to the coal seam.In the microbial utilization of coal and nutrients,the concentration changes of typical ions and trace elements are related to the safety of the surrounding environment.Coal samples from Pingdingshan,Yima and Changzhi were selected to carry out some simulated biogas experiments to study the liquid phase change characteristics of trace elements in the process of coal biogas.The concentrations of Na+,NH4+,K+,Cl-,and PO3-4,which are major ions in the liquid phase of biological gas production from coal,were determined by ion chromatography (IC).The mass concentrations of V,Cr,Mn,Co,Ni,Cu,Zn,As,Se,Ag,Cd,Sb,Ba,Ti,and Pb were determined by inductively coupled plasma mass spectrometry (ICP-MS).The results show that the contents of major ions in the liquid phase were stable with the increase in gas production time.A strong correlation existed between the changes in trace elements and gas production.V,Ag,and Cd were not detected,but the mass concentrations of As,Ba,Co,Ni,and Pb increased with the prolonged biological gas production time from coal.The concentration changes of Pb,Se,and Ti were related to coal samples.The content of Ba was the highest at 23.88-144.79 μg/L,whereas the concentration ranges of As and Cu were 5.88-25.07 and 5.47-14.17 μg/L,respectively.The contents of other metal elements were low.Ten days before the coal immersion experiment,the contents of Ba,Cu,Ni,and Se in the solution increased gradually.The results of health risk assessment showed that the risk range of non carcinogenic substance,namely,Pb,Ni,Cu,and Ba was between 4.37×10-12 and 1.48×10-9 per year,which was considerably less than the non carcinogenic risk threshold of 1.The non carcinogenic risk of Cu was higher than that of the other three metals.The carcinogenic risk of As was between 4.61×10-5 and 1.96×10-4 per year,which exceeded the carcinogenic risk threshold of 1×10-6.Thus,As was the most harmful potential pollutant to health in coal gasification and should be given research attention.

     

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