共查询到18条相似文献,搜索用时 78 毫秒
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研究了废水pH值、Cu2+初始浓度、吸附剂投加量、时间及温度对香菇培养基废料吸附Cu2+的影响,并探讨了吸附机理.随着pH值的降低,吸附量显著降低;废料吸附Cu2+同时符合Langmuir模型和Freundlich模型,最大吸附量为33.11 mg·g-1;平衡吸附时间为1 h,拟二级动力学模型可以很好地描述吸附过程,相关系数为0.9995;吸附剂最佳投加量为10 g·L-1;吸附量随着温度的升高显著减少,热力学研究表明,该吸附过程放热,低温宜自发.对吸附前后的废料进行扫描电镜及Zeta电位分析表明,废料吸附Cu2+在低pH值下以物理吸附为主,而在较高pH值下以化学吸附为主. 相似文献
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沉淀浮选法处理含铅离子酸性矿冶废水的研究 总被引:1,自引:0,他引:1
研究了酸性矿冶废水中铅离子的沉淀浮选行为。得出:在单体系模拟废水中,PH为22时,用什么调PH值与浮选有什么影响,以硫化钠为沉淀剂,以乙基黄原酸钠、丁基黄原酸钠、二乙基二硫代氨基甲酸钠、二丁基二硫代磷酸铵为捕收剂,均可使浮选后残液中铅离子残余浓度达到排放要求;在由铅、镉、砷、锌诸离子组成的复合体系中,混合使用丁基黄原酸纳、二丁基二硫代磷酸铵为捕收剂,可使浮选后液中铅离子残余浓度达到排放标准。 相似文献
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Guanrong Song Xingchao Wang Carlos Romero Huazhi Chen Zheng Yao Alfred Kaziunas Rolf Schlake Madhu Anand Tom Lowe Greg Driscoll Boyd Kreglow Harold Schobert Jonas Baltrusaitis 《中国稀土学报(英文版)》2021,39(1):83-89
Rare earth elements(REEs) are valuable raw materials which are in great demand in modern high technology industries.Developing methods to produce/recover REEs from waste is significant to the national security of any developed country.This study was focused on investigating the use of supercritical CO2(sCO_2) to extract REEs from anthracite acid mine drainage(AMD).Four different mine drainage water source locations at Blaschak Coal Corp.in Pennsylvania,USA were selected for sample collection.An extraction process was developed and demonstrated for two of those water sources containing the highest concentration of REEs.A method involving metal ion coagulation,their dissolution from the sludge into a concentrated aqueous HNO_3 solution,complexation with organic ligands and sCO_2 extraction was developed to recover REEs from AMD.Specifically,sodium aluminate(NaAlO_2) was used as the coagulant to concentrate REEs from the AMD into a solid precipitate.Consequently,over 99%of the REEs in AMD is concentrated in the remaining sludge.During the coagulation process,the effects of pH and NaAlO_2 concentration on REE precipitation were investigated.Fuming nitric acid(HNO_3) was used to digest the pre-concentrated sludge and tributyl phosphate(TBP) was used to form REE/TBP/HNO_3,a non-polar complex with selected REEs,specifically,cerium(Ce),lanthanum(La) and neodymium(Nd).HNO_3 concentration and organic/aqueous phase ratio were considered as the variables to improve complexation efficiency.Dynamic extraction experiments using sCO_2 and REE/TBP/HNO_3 solutions were then conducted at optimal conditions of 60℃ and 20 MPa.The overall REE extraction efficiencies are found to increase with the atomic number of the REE.As a result,the average overall REE extraction efficiencies of 41.8%,40.1% and 58.2% for Ce,La and Nd,respectively,are obtained.The potential improvements in the overall extraction efficiency are also discussed. 相似文献
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矿井排水系统安全性的模糊综合评价 总被引:1,自引:0,他引:1
对矿井排水系统中存在的危险因素进行了初步的分析,建立了矿井排水系统模糊综合评价模型,并对矿井排水系统评价模型中的隶属函数的确定进行了研究。通过实例及分析,矿井排水系统模糊综合评价取得了较好的结果,对该系统开展有效的安全管理提供了依据。 相似文献
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针对紫金山铜矿低质量浓度酸性废水通过漂白粉去除氰化物-石灰中和处理后浓密上清液中总铜质量浓度仍超标的问题,研究了絮凝剂类型、絮凝剂用量、底流回流量、废渣类型、废渣添加量等因素对中和渣浆沉降性能的影响。其研究结果表明:添加紫金山铜矿萃余液中和渣膏体浓密机底流进行辅助沉降,当体系固体质量分数增加到1.5%、絮凝剂AP8120添加量为3 mg/L时,沉降0.5 h后的上清液中总铜质量浓度为0.056 mg/L,出水水质达到《污水综合排放标准》(GB 8978—1996)一级排放标准。 相似文献
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以剩余污泥裂解灰为主要原材料,按照剩余污泥裂解灰︰膨润土︰淀粉为6︰3︰1的比例混合,经过造粒、熟化、干燥,最后于1 050 ℃氮气气氛下煅烧60 min制备多孔陶瓷颗粒。采用SEM-EDS、XRD表征陶粒吸附酸性矿山废水中Zn2+、Cu2+、Pb2+前后的微观形貌、元素变化及晶体结构。结果表明,所制备陶粒表面粗糙,具有大量孔隙结构。当陶粒投加量为3 g,初始pH=3.2,反应时间24 h时,制备的剩余污泥裂解灰陶粒对于Zn2+、Cu2+、Pb2+ 去除率分别达到99.2 0%、85.1 0%、96.27%。初始pH为中性时陶粒吸附效果优于酸性条件。陶粒对于Cu2+、Pb2+的吸附过程符合准二级动力学模型,以离子交换为主;对于Zn2+,准一级与准二级动力学模型均能较好拟合,物理吸附与化学吸附发挥同等重要作用。陶粒吸附过程均符合Freundlich等温模型,对于Cu2+的吸附主要发生在非均相活性位点,对于Zn2+和Pb2+的吸附既可以发生在均相单层也可以发生在非均相活性位点。利用剩余污泥裂解灰制备多孔陶瓷颗粒,不仅可以用于酸性矿山废水中处理重金属离子,还能解决污泥处置的问题,达到以废治污的目的。 相似文献