兰州理工大学石油化工学院毕业设计（论文）PAGE\*MERGEFORMAT50摘要氨氮是引起水体富营养化和环境污染的重要物质，采用沸石去除水中氨氮是水污染控制领域的研究热点之一。沸石是一种廉价的非金属矿物，具有独特的吸附和离子交换性能。天然沸石在改性过程中,硅的质量分数显著减少，而钠的质量分数增多.这样有利于NH4+-N的交换反应，因此改性沸石对氨氮的吸附NH4+-N的性能加强。本研究首先对天然沸石进行了改性，确定了最佳的改性条件，并通过采用动态法研究改性沸石吸附柱去除微污染水源中氨氮的规律，包括改性沸石的粒径大小、入水流速、初始氨浓度等参数的影响，绘制穿透曲线。通过研究，本文得出了以下结论：①沸石改性的最佳条件为：NaCl溶液浓度3mol/L，水浴温度70～75℃，时间3h；②NaCl改性沸石的去除率明显高于未改性的。相比之下对氨氮的去除率增加了8%；③沸石粒径越小，去除率越高，改性效果越好。沸石粒径在0.5-1mm是对氨氮的去除率最高；④入水流速越小，改性沸石对氨氮的去除率越高；⑤废水的初始浓度越低，改性沸石对氨氮的去除率越高。最高可到达74%.关键词：改性沸石氯化钠氨氮吸附AbstractAmmonia-nitrogen(NH4+)isanimportantcontaminantforeutrophicationofwaterbodiesandenvironmentalpollution.Zeoliteisacheapnon-metallicminerals,withuniqueadsorptionandion-exchangeperformance。Afternaturalzeoliteismodifiedqualityscoreofsiliconsignificantlyreduces，AndqualityscoreofSodiumincreases。Ithelpsinammonium-ionexchange，sodsorptionperformanceofmodifiedzeolitestrengthens。Atfirstthenaturalzeolitewasmodifiedbychemicalapproachesintheresearch,andchoosethebestmodifyingconditionofzeolite.ThenstudyitstreatmenteffectoflowconcentrationNH4+incolumnreactoranddrawbreakthroughcurve,investigatingsuchfactorsaspelletsize,velocityofflowandnitialammoniaconcentrationetc.Themainresultsofthisresearchwereasfollows:ⅠUnderthesecircumstances:,c=3mol/l,T=70～75℃,themodificationtime3hours，wecangetthetherightmodifiedzeolite;Ⅱremovalefficiencyofzeolitemodifiedwithforammonianitrogenissignificantlyhigherthanunmodified。Incontrastto，removalrateofammonianitrogenincreasesby8%;ⅢThesmallerthemodifiedzeoliteparticlesize,thehigherthemodification；Ⅴthewatervelocityissmaller,removalofammonianitrogenishigher;Ⅳwastewaterconcentrationislower,themodifiedzeoliteofremovalrateofammonianitrogenishigher.Thehighestremovalratecanreach74percent.Keywords：modifiedzeoliteNaClammonianitrogewastewateradsorption目录TOC\o"1-3"\h\z\uHYPERLINK\l"_Toc295414932"1绪论PAGEREF_Toc295414932\h1HYPERLINK\l"_Toc295414933"1.1水体中氨氮污染现状概况PAGEREF_Toc295414933\h1HYPERLINK\l"_Toc295414934"1.1.1水体中氨氮污染的现状PAGEREF_Toc295414934\h1HYPERL