超声波强化生物麦饭石固定化颗粒处理AMD试验
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摘要
针对煤矿酸性废水污染严重、处理效果不理想的特点,以麦饭石和硫酸盐还原菌为包埋材料制作3组固定化颗粒,构建1号(未超声)、2号(激活前超声)、3号(激活后超声),探讨了超声波强化技术对固定化颗粒处理煤矿酸性废水的影响。结果表明,3组固定化颗粒对煤矿酸性废水的处理效果为:2号>1号>3号,2号颗粒体系最终pH值为7.78,SO_4~(2-)、Cr~(6+)和Cr~(3+)去除率分别达到89.37%、97.07%和99.39%。表明在麦饭石生物固定颗粒激活前进行超声波处理可有效提高其对煤矿酸性废水的处理效果,对修复煤矿酸性废水有一定的积极作用。
Aimed at the characteristics of acid mine drainage(AMD) with severe pollution and unsatisfactory treatment effect,three sets of immobilized particles were made by using Maifan stone and sulfate reducing bacteria as embedding materials, and No 1(unultrasound), No 2(pre-activation ultrasound), No 3(ultrasound after activation), the effect of ultrasonic intensification technology on the treatment of coal mine acid wastewater by immobilized particles was discussed. The analysis shows that the treatment effect of three groups of immobilized particles on coal mine acid wastewater is No 2>No 1>No 3, the final pH of No 2 particle system is 7.78, and the removal rates of SO42-, Cr6+ and Cr3+ are respectively 89.37%,97.07% and 99.39%. The results show that the ultrasonic treatment before the activation of the biological fixed particles of the Maifan stone can effectively improve the treatment effect on the acid waste water in the coal mine, and has a certain positive effect on the repair of the acid waste water in the coal mine.
Aimed at the characteristics of acid mine drainage(AMD) with severe pollution and unsatisfactory treatment effect,three sets of immobilized particles were made by using Maifan stone and sulfate reducing bacteria as embedding materials, and No 1(unultrasound), No 2(pre-activation ultrasound), No 3(ultrasound after activation), the effect of ultrasonic intensification technology on the treatment of coal mine acid wastewater by immobilized particles was discussed. The analysis shows that the treatment effect of three groups of immobilized particles on coal mine acid wastewater is No 2>No 1>No 3, the final pH of No 2 particle system is 7.78, and the removal rates of SO42-, Cr6+ and Cr3+ are respectively 89.37%,97.07% and 99.39%. The results show that the ultrasonic treatment before the activation of the biological fixed particles of the Maifan stone can effectively improve the treatment effect on the acid waste water in the coal mine, and has a certain positive effect on the repair of the acid waste water in the coal mine.
引文
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[2]娄毅.生活污水与酸性矿山废水联合处理污染物去除效果研究[D].贵阳:贵州大学,2017.
[3]王继勇,肖挺,何伟.一株耐酸SRB的分离及其脱硫除镉性能[J].中国环境科学,2018,38(11):4255-4260.
[4]狄军贞,王明昕,赵微,等.麦饭石固定化SRB污泥颗粒处理模拟煤矿酸性废水的适应性[J].环境工程学报,2017,11(7):3985-3990.
[5]彭贵芬.低强度超声波处理促进污泥厌氧消化实验研究[D].武汉:华中科技大学,2009.
[6]周华,张晓华,熊丽凤,等.超声波辅助纳米铁-牡蛎壳材料处理As(Ⅲ)废水的研究[J].水处理技术,2017,43(9):47-51.
[7]狄军贞,赵微,郭俊杰,等.改性麦饭石固定化颗粒处理AMD的特性试验[J].煤炭学报,2016,41(12):3151-3157.
[8]王星敏,傅敏.超声波处理有机废水的新进展[J].重庆工商大学学报:(自然科学版),2003(2):86-89,93.
[9]李会东,李晓蕾,霍凯利,等.超声处理增强生物吸附剂去除废水中铅的研究[J].水处理技术,2018,44(5):53-56,65.
[10]赵欣欣,孙玲,董玉玮,等.固定化微生物技术及其在污水处理中的应用[J].水处理技术,2015,41(7):17-20.
[11]WOOD B E,ALDRICH H C,Ingram L O.Ultrasound Stimulates Ethanol Production during the Simultaneous Saccharification and Fermentation of Mixed Waste Office Paper[J].Biotechnology Progress,1997,13(3):232-237.
[12]SCHLAFER O,ONYECHE T,BORMANN H,et al.Ultrasound stimulation of micro-organisms for enhanced biodegradation.[J].Ultrasonics,2002,40(1):25-29.
[13]陈婷.改性麦饭石对水中Cd(Ⅱ)、Cr(Ⅵ)的吸附性能研究[D].成都:成都理工大学,2017.
[14]任亚东.改性玉米芯固定SRB污泥颗粒修复煤矿酸性废水实验[D].阜新:辽宁工程技术大学,2017.
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