研究报告
徐亦寒,孔殿超,岳正波,周跃飞,陈天虎.针铁矿对硫酸盐还原菌分解铅矾的影响[J].环境科学学报,2017,37(5):1688-1694
针铁矿对硫酸盐还原菌分解铅矾的影响
- Effect of goethite on the decomposition of anglesite by sulfate-reducing bacteria
- 基金项目:国家自然科学基金(No.41130206,41572029,41372046)
- 徐亦寒
- 合肥工业大学资源与环境工程学院, 纳米矿物与环境材料实验室, 合肥 230009
- 孔殿超
- 合肥工业大学资源与环境工程学院, 纳米矿物与环境材料实验室, 合肥 230009
- 岳正波
- 合肥工业大学资源与环境工程学院, 纳米矿物与环境材料实验室, 合肥 230009
- 周跃飞
- 合肥工业大学资源与环境工程学院, 纳米矿物与环境材料实验室, 合肥 230009
- 陈天虎
- 合肥工业大学资源与环境工程学院, 纳米矿物与环境材料实验室, 合肥 230009
- 摘要:铅矾(PbSO4)是工业生产中释放进入环境的重要含Pb物相,具有潜在的环境风险.采用硫酸盐还原菌(SRB)在厌氧条件下将重金属沉淀形成低溶度积的硫化物是有效固定重金属的方法之一.本研究重点考察了SRB作用下铅矾的转化过程及针铁矿对铅矾分解的影响.结果表明,反应体系中溶液pH和ORP均有所降低;SO42-在SRB生长停滞期上升,随后保持稳定;酸可挥发性S浓度随SRB的生长逐渐升高,并最后保持稳定;实验结束后铅矾大部分转化为白铅矿(PbCO3)和方铅矿.对结果的分析表明,在SRB作用下,铅矾分解转化的机制为:首先转化为白铅矿,其次硫酸盐被还原产生S2-,进一步促进铅矾的分解和白铅矿的形成,最后S2-同溶液及新生白铅矿中的Pb2+反应生成溶度积更低的方铅矿;针铁矿的主要作用为:固定溶液中的S2-,降低铅矾SRB分解的环境污染风险;通过作为SRB生长的电子受体和降低S2-的生物毒害作用,提高体系中SRB的生物活性.
- Abstract:Anglesite (PbSO4) generated from industrial process is an important Pb-containing substance and has a potential risk of environmental pollution. Transformation of anglesite to galena (PbS) by sulfate-reducing bacteria (SRB) under anaerobic condition is an effective technique for Pb immobilization (formation of met al sulfide with a lower solubility product)). In the current study the transformation process of PbSO4 with SRB was investigated and the effects of goethite was explored. Results show that pH and redox potential decreased gradually in the batch experiments. Aqueous SO2-4increased in the first 40 h when SRB was in the static state. SO2-4 was kept stable during the following exponential and steady growth phase of SRB. Protein and acid volatile sulfur increased with the growth of SRB. When the experiment was terminated, it was found that anglesite had been transformed to cerussite (PbCO3) and PbS. Mechanism for SRB mediated immobilization of Pb is elucidated as follows. Firstly, PbSO4 reacted with the aqueous carbonate and generated PbCO3 which has a low solubility. Secondly, S2- was generated from the reduction of SO2-4 which further accelerated the decomposition of PbSO4 and the generation of PbCO3. Thirdly, the S2- reacted with the aqueous Pb2+ and Pb2+ in PbCO3 to generate PbS, which has a lower solubility. The role of goethite in the process was attributed to the immobilization of S2- decrease the risk of pollution caused by PbSO4 decomposition and to work as the electron acceptors for SRB and reduce the toxic effect on SRB activity.
摘要点击次数: 1147 全文下载次数: 2500