第1页共51页编号:时间:2021年x月x日书山有路勤为径,学海无涯苦作舟页码:第1页共51页摘要针对传统的再生纸废水处理方法一次性投资高、管理难度大、处理效果不理想的问题,本研究将超声波技术与催化内电解工艺相结合,并用于实际再生纸废水的降解预处理。通过对废水COD和色度去除率两项实验指标的考察,探讨了铁-沸石比、铁-铜比、初始pH值、反应时间、超声功率等因素水平对超声-催化内电解耦合反应的影响。同时还进行了超声强化催化内电解法与单独催化内电解法处理再生纸废水的对比实验,最后在已得出的最佳影响条件下,进行该耦合体系的循环小试试验,讨论了该试验方案的可行性。研究结果表明,超声-催化内电解法能够达到并优于单独催化内电解法对再生纸废水的处理效果。各因素对超声-催化内电解耦合反应的影响按大小次序来说是反应时间>初始pH值>铁-铜质量比>超声功率>铁-沸石质量比。最佳反应条件为铁-铜-沸石比3:1:1、初始pH值4.0、超声功率200W、曝气量为0.4L/min、反应时间90mins。在最佳反应条件下COD去除率达到64%以上,色度去除率达74%以上。循环小试试验确定超声-催化内电解出水的最佳回流比为50%,经两次循环后,不同反应时间下废水的COD去除率都稳定在52%~63%,色度去除率最高可达92%。实验证明,超声协同催化内电解法处理再生纸废水具有可行性。该耦合工艺的设备结构简单、能耗低、操作简便,应用潜力巨大,市场前景十分广阔。关键词:超声,催化内电解,再生纸废水第2页共51页第1页共51页编号:时间:2021年x月x日书山有路勤为径,学海无涯苦作舟页码:第2页共51页ABSTRACTDuetotheproblemoftheconventionalmethodofrecycledpaper-makingwastewatertreatmentwithhighone-timeinvestment,difficultmanagementandunsatisfactoryresults,thestudycombinesultrasonictechnologywithcatalyzedinternalelectrolysistechnologyandusesthecombinationaspretreatmenttodegradetheactuallyrecycledpaper-makingwastewater.ThroughinspectingthetwoindicatorsofCODremovalandcolorremoval,theimpactoffactorsandlevelssuchasiron-zeoliteproportion,iron-copperproportion,initialpH,reactiontime,ultrasonicpowerontheus-catalyzedinternalelectrolysiscoupledreactionisinvestigated.Meanwhile,thecomparativeexperimentsbetweenus-catalyzedinternalelectrolysisandindividuallycatalyzedinternalelectrolysisarealsotested.Finally,wediscussthefeasibilityoftheprogrambyconductingcirculationpilottestundertheoptimumconditions.Theresultsshowedthatthetreatmenteffectofus-catalyzedinternalelectrolysiscanachieveevenbesuperiortothatofindividuallycatalyzedinternalelectrolysis.Theimpactofvariousfactorsonthecoupledreactionaccordingtotheorderisthereactiontime,initialpH,theratioofirontocopper,ultrasonicpowerandtheratioofirontozeolite.Theoptimumconditionfortheratioofiron-copper-zeoliteis3:1:1;fortheinitialpHis4.0;forultrasonicpoweris200W;foraerationcapacityis0.4L/minandforthereactiontimeis90mins.UndertheoptimumconditionsCODremovalrateisabove64%andcolorremovalrateisabove74%.Thebestrefluentratioofthecirculationis50%.Aftertwicerecycles,theCODremovalratesunderdifferentreactiontimesareallstableat52%~63%,whilethehighestcolorremovalrateisupto92%.Theexperimentsshowthatthetechnologythatcatalyzedinternalelectrolysisiscoordinatedbyultrasoundisfeasible.Thecoupledprocesshastheadvantageofsimple第3页共51页第2页共51页编号:时间:2021年x月x日书山有路勤为径,学海无涯苦作舟页码:第3页共51页equipment,lowenergyconsumptionandsimpleoperation.Itsapplicationisgreatlypotential,andthemarketprospectsareverybroad.KEYWORDS:ultrasound,catalyzedinternalelectrolysis,recycledpaper-makingwastewater.第4页共51页第3页共51页编号:时间:2021年x月x日书山有路勤为径,学海无涯苦作舟页码:第4页共51页目...
