攀枝花含钛高炉渣资源化利用新途径

攀枝花含钛高炉渣资源化利用新途径一、本文概述Overviewofthisarticle随着全球对环境保护和资源可持续利用的重视日益加深，攀枝花含钛高炉渣的资源化利用成为了一个亟待解决的问题。作为一种工业废弃物，攀枝花含钛高炉渣的堆积不仅占用了大量土地，还可能对周边环境造成污染。因此，探索攀枝花含钛高炉渣的资源化利用新途径，不仅有助于缓解环境压力，还可以实现资源的有效回收和再利用，具有重大的经济、环境和社会意义。Withtheincreasingglobalattentiontoenvironmentalprotectionandsustainableresourceutilization,theresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihuahasbecomeanurgentproblemtobesolved.Asanindustrialwaste,theaccumulationoftitaniumcontainingblastfurnaceslaginPanzhihuanotonlyoccupiesalargeamountofland,butmayalsocausepollutiontothesurroundingenvironment.Therefore,exploringnewwaysofresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihuanotonlyhelpstoalleviateenvironmentalpressure,butalsoenableseffectiverecoveryandreuseofresources,whichhassignificanteconomic,environmental,andsocialsignificance.本文旨在系统介绍攀枝花含钛高炉渣的组成特性、传统利用方式及其存在的问题，重点阐述近年来在攀枝花含钛高炉渣资源化利用方面所取得的新进展和新途径。通过深入分析各种资源化利用技术的原理、工艺流程、优缺点及适用范围，本文旨在为相关领域的研究者和实践者提供有益的参考和启示，推动攀枝花含钛高炉渣资源化利用技术的不断创新和发展。本文也期望能够引起社会各界对工业废弃物资源化利用问题的更多关注，共同推动资源节约型、环境友好型社会的建设。Thisarticleaimstosystematicallyintroducethecompositioncharacteristics,traditionalutilizationmethods,andexistingproblemsofPanzhihuatitaniumcontainingblastfurnaceslag,withafocusonthenewprogressandapproachesmadeintheresourceutilizationofPanzhihuatitaniumcontainingblastfurnaceslaginrecentyears.Throughin-depthanalysisoftheprinciples,processflow,advantagesanddisadvantages,andapplicablescopeofvariousresourceutilizationtechnologies,thisarticleaimstoprovideusefulreferenceandinspirationforresearchersandpractitionersinrelatedfields,andpromotethecontinuousinnovationanddevelopmentofPanzhihuatitaniumcontainingblastfurnaceslagresourceutilizationtechnology.Thisarticlealsohopestodrawmoreattentionfromallsectorsofsocietytotheissueofindustrialwasteresourceutilization,andjointlypromotetheconstructionofaresource-savingandenvironmentallyfriendlysociety.二、含钛高炉渣的成分与特性分析Analysisofthecompositionandcharacteristicsoftitaniumcontainingblastfurnaceslag攀枝花地区的含钛高炉渣，作为一种特殊的工业废弃物，具有复杂的化学成分和独特的物理特性。这些特性直接影响了其资源化利用的可能性和方式。因此，对含钛高炉渣的成分与特性进行深入分析，是探索其资源化利用新途径的重要前提。ThetitaniumcontainingblastfurnaceslaginPanzhihuaarea,asaspecialindustrialwaste,hascomplexchemicalcompositionanduniquephysicalproperties.Thesecharacteristicsdirectlyaffectthepossibilityandwayofresourceutilization.Therefore,in-depthanalysisofthecompositionandcharacteristicsoftitaniumcontainingblastfurnaceslagisanimportantprerequisiteforexploringnewwaysofresourceutilization.从化学成分来看，含钛高炉渣主要含有钛、铁、钙、硅、铝等元素。其中，钛元素的存在形式主要以TiO2的形式存在，具有较高的回收价值。高炉渣中还含有一定量的铁元素，主要以Fe2O3的形式存在，这部分铁元素也有一定的回收利用潜力。其他元素如钙、硅、铝等，虽然含量相对较低，但在某些特定情况下，也可以作为有用的资源加以利用。Fromachemicalcompositionperspective,titaniumcontainingblastfurnaceslagmainlycontainselementssuchastitanium,iron,calcium,silicon,andaluminum.Amongthem,titaniummainlyexistsintheformofTiO2,whichhashighrecoveryvalue.Blastfurnaceslagalsocontainsacertainamountofironelement,mainlyintheformofFe2O3,whichhasacertainpotentialforrecyclingandutilization.Otherelementssuchascalcium,silicon,aluminum,etc.,althoughrelativelylowincontent,canalsobeutilizedasusefulresourcesincertainspecificsituations.在物理特性方面，含钛高炉渣具有多孔、质轻、耐磨、耐腐蚀等特点。这些特性使得含钛高炉渣在某些特定领域，如建筑材料、环保材料等方面具有一定的应用潜力。例如，由于其多孔性和质轻性，含钛高炉渣可以被用作轻质骨料，用于生产轻质混凝土、保温材料等。同时，其耐磨性和耐腐蚀性也使得它在某些工业领域具有一定的应用价值。Intermsofphysicalproperties,titaniumcontainingblastfurnaceslaghascharacteristicssuchasporosity,lightweight,wearresistance,andcorrosionresistance.Thesecharacteristicsmaketitaniumcontainingblastfurnaceslaghavecertainapplicationpotentialincertainspecificfields,suchasbuildingmaterials,environmentallyfriendlymaterials,etc.Forexample,duetoitsporosityandlightweight,titaniumcontainingblastfurnaceslagcanbeusedaslightweightaggregateforproducinglightweightconcrete,insulationmaterials,etc.Atthesametime,itswearresistanceandcorrosionresistancealsomakeithavecertainapplicationvalueincertainindustrialfields.然而，含钛高炉渣的成分与特性并非完全有利。由于其含有较高的钛元素和铁元素，使得其在实际利用过程中存在一定的技术难题。例如，如何有效地从高炉渣中提取和回收钛元素和铁元素，是制约其资源化利用的关键因素之一。含钛高炉渣的物理特性也对其利用方式产生了一定的限制。例如，其多孔性虽然有利于某些应用，但同时也可能导致其强度较低，不利于某些需要高强度材料的应用场景。However,thecompositionandcharacteristicsoftitaniumcontainingblastfurnaceslagarenotentirelyfavorable.Duetoitshighcontentoftitaniumandironelements,therearecertaintechnicaldifficultiesinitsactualutilizationprocess.Forexample,howtoeffectivelyextractandrecovertitaniumandironelementsfromblastfurnaceslagisoneofthekeyfactorsrestrictingitsresourceutilization.Thephysicalpropertiesoftitaniumcontainingblastfurnaceslagalsoimposecertainlimitationsonitsutilizationmethods.Forexample,althoughitsporosityisbeneficialforcertainapplications,itmayalsoleadtolowerstrength,whichisnotconducivetocertainapplicationscenariosthatrequirehigh-strengthmaterials.因此，在探索含钛高炉渣资源化利用新途径的过程中，需要综合考虑其成分与特性的优点和限制，选择合适的利用方式和技术手段。还需要加强技术研发和创新，解决当前存在的技术难题，提高含钛高炉渣的资源化利用率和附加值，实现其经济价值和社会效益的最大化。Therefore,intheprocessofexploringnewwaysofresourceutilizationoftitaniumcontainingblastfurnaceslag,itisnecessarytocomprehensivelyconsidertheadvantagesandlimitationsofitscompositionandcharacteristics,andchooseappropriateutilizationmethodsandtechnicalmeans.Itisalsonecessarytostrengthentechnologicalresearchandinnovation,solvecurrenttechnicalproblems,improvetheresourceutilizationrateandaddedvalueoftitaniumcontainingblastfurnaceslag,andachievethemaximizationofitseconomicvalueandsocialbenefits.三、国内外含钛高炉渣资源化利用现状Currentstatusofresourceutilizationoftitaniumcontainingblastfurnaceslagathomeandabroad中国是钛资源的主要生产国之一，攀枝花地区更是以其丰富的钛矿资源而著称。然而，随着钛矿开采和冶炼的不断发展，产生了大量的含钛高炉渣。这些炉渣中含有丰富的钛元素以及其他有价值的金属元素，但由于其复杂的成分和物理性质，资源化利用一直是一个技术难题。Chinaisoneofthemainproducersoftitaniumresources,andthePanzhihuaregionisknownforitsabundanttitaniumoreresources.However,withthecontinuousdevelopmentoftitaniumoreminingandsmelting,alargeamountoftitaniumcontainingblastfurnaceslaghasbeengenerated.Theseslagcontainabundanttitaniumandothervaluablemetalelements,butduetotheircomplexcompositionandphysicalproperties,resourceutilizationhasalwaysbeenatechnicalchallenge.近年来，国内科研机构和企业针对含钛高炉渣的资源化利用进行了大量研究和实践。目前，主要的利用途径包括提取钛白粉、制备钛铁合金、生产建筑材料等。其中，提取钛白粉是含钛高炉渣资源化利用的主要方向之一。通过化学或物理方法，可以从炉渣中提取出高品质的钛白粉，用于涂料、塑料、橡胶等行业。利用含钛高炉渣制备钛铁合金也是一种有效的利用方式，可用于钢铁行业的原料。Inrecentyears,domesticresearchinstitutionsandenterpriseshaveconductedextensiveresearchandpracticeontheresourceutilizationoftitaniumcontainingblastfurnaceslag.Atpresent,themainutilizationmethodsincludeextractingtitaniumdioxide,preparingtitaniumironalloys,andproducingbuildingmaterials.Amongthem,extractingtitaniumdioxideisoneofthemaindirectionsfortheresourceutilizationoftitaniumcontainingblastfurnaceslag.Highqualitytitaniumdioxidecanbeextractedfromslagthroughchemicalorphysicalmethodsandusedinindustriessuchascoatings,plastics,andrubber.Theuseoftitaniumcontainingblastfurnaceslagtopreparetitaniumironalloysisalsoaneffectiveutilizationmethod,whichcanbeusedasrawmaterialsinthesteelindustry.在国际上，许多国家和地区也面临着含钛高炉渣资源化利用的问题。由于技术水平和市场需求的不同，各国的利用方式和进展也有所差异。Internationally,manycountriesandregionsarealsofacingtheproblemofresourceutilizationoftitaniumcontainingblastfurnaceslag.Duetodifferencesintechnologicallevelandmarketdemand,theutilizationmethodsandprogressofdifferentcountriesalsovary.一些发达国家在含钛高炉渣资源化利用方面取得了显著成果。例如，某些国家通过先进的物理和化学方法，成功地从炉渣中提取出了高品质的钛元素和其他金属元素，实现了炉渣的高效利用。同时，这些国家还注重环保和可持续发展，在炉渣处理过程中严格控制污染物的排放，确保资源的合理利用和环境的保护。Somedevelopedcountrieshaveachievedsignificantresultsintheresourceutilizationoftitaniumcontainingblastfurnaceslag.Forexample,somecountrieshavesuccessfullyextractedhigh-qualitytitaniumandothermetalelementsfromslagthroughadvancedphysicalandchemicalmethods,achievingefficientutilizationofslag.Atthesametime,thesecountriesalsopayattentiontoenvironmentalprotectionandsustainabledevelopment,strictlycontrollingthedischargeofpollutantsintheslagtreatmentprocess,ensuringtherationalutilizationofresourcesandenvironmentalprotection.然而，也有一些国家在含钛高炉渣资源化利用方面仍面临挑战。由于技术水平和经济条件的限制，这些国家可能难以实施先进的提取和处理技术，导致炉渣的资源化利用程度较低。对于这些国家而言，加强技术研发和国际合作，提高炉渣资源化利用水平，是实现可持续发展的重要途径。However,somecountriesstillfacechallengesintheresourceutilizationoftitaniumcontainingblastfurnaceslag.Duetolimitationsintechnologicallevelandeconomicconditions,thesecountriesmayfinditdifficulttoimplementadvancedextractionandtreatmenttechnologies,resultinginalowerdegreeofresourceutilizationofslag.Forthesecountries,strengtheningtechnologicalresearchandinternationalcooperation,andimprovingthelevelofslagresourceutilizationareimportantwaystoachievesustainabledevelopment.含钛高炉渣的资源化利用在国内外都取得了一定的进展，但仍存在许多技术和环境方面的挑战。未来，随着科技的不断进步和环保要求的日益严格，含钛高炉渣的资源化利用将更加注重高效、环保和可持续发展。Theresourceutilizationoftitaniumcontainingblastfurnaceslaghasmadecertainprogressbothdomesticallyandinternationally,buttherearestillmanytechnicalandenvironmentalchallenges.Inthefuture,withthecontinuousprogressoftechnologyandincreasinglystrictenvironmentalrequirements,theresourceutilizationoftitaniumcontainingblastfurnaceslagwillpaymoreattentiontoefficiency,environmentalprotection,andsustainabledevelopment.四、攀枝花含钛高炉渣资源化利用新途径探索ExplorationofnewwaysforresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihua攀枝花作为我国重要的钛资源生产基地，其含钛高炉渣的资源化利用一直备受关注。近年来，随着科技的不断进步和环保要求的日益严格，对于含钛高炉渣的综合利用提出了新的挑战和机遇。攀枝花地区在探索含钛高炉渣资源化利用新途径方面，取得了显著成果，为钛资源的可持续发展提供了新的动力。AsanimportanttitaniumresourceproductionbaseinChina,theresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihuahasalwaysbeenofgreatconcern.Inrecentyears,withthecontinuousprogressoftechnologyandincreasinglystrictenvironmentalrequirements,newchallengesandopportunitieshavebeenproposedforthecomprehensiveutilizationoftitaniumcontainingblastfurnaceslag.ThePanzhihuaregionhasachievedsignificantresultsinexploringnewwaysofresourceutilizationoftitaniumcontainingblastfurnaceslag,providingnewimpetusforthesustainabledevelopmentoftitaniumresources.在技术创新方面，攀枝花地区积极探索含钛高炉渣的高效提取技术。通过研发新型提取剂和优化提取工艺，提高了钛资源的回收率，降低了能耗和环境污染。同时，还开展了含钛高炉渣中有价元素的综合利用研究，实现了钛、铁、钒等多种元素的综合回收，提高了资源的附加值。Intermsoftechnologicalinnovation,thePanzhihuaregionactivelyexploresefficientextractiontechnologiesfortitaniumcontainingblastfurnaceslag.Bydevelopingnewextractionagentsandoptimizingextractionprocesses,therecoveryrateoftitaniumresourceshasbeenimproved,andenergyconsumptionandenvironmentalpollutionhavebeenreduced.Atthesametime,researchonthecomprehensiveutilizationofvaluableelementsintitaniumcontainingblastfurnaceslaghasbeencarriedout,achievingthecomprehensiverecoveryofvariouselementssuchastitanium,iron,andvanadium,andimprovingtheaddedvalueofresources.在产业链延伸方面，攀枝花地区利用含钛高炉渣中的钛资源，发展了钛白粉、钛合金等高端钛产品。通过延伸产业链，提高了钛资源的附加值，促进了地区经济的可持续发展。同时，还推动了相关产业的发展，如化工、冶金等，形成了良性的产业生态。Intermsofextendingtheindustrialchain,thePanzhihuaregionhasutilizedthetitaniumresourcesinthetitaniumcontainingblastfurnaceslagtodevelophigh-endtitaniumproductssuchastitaniumdioxideandtitaniumalloys.Byextendingtheindustrialchain,theaddedvalueoftitaniumresourceshasbeenincreased,promotingsustainabledevelopmentoftheregionaleconomy.Atthesametime,ithasalsopromotedthedevelopmentofrelatedindustries,suchaschemicalandmetallurgicalindustries,formingahealthyindustrialecosystem.在政策支持方面，攀枝花地区政府出台了一系列支持含钛高炉渣资源化利用的政策措施。包括资金扶持、税收优惠、技术引进等，为企业的技术创新和产业发展提供了有力保障。政策的引导和支持，使得含钛高炉渣资源化利用工作得到了快速推进。Intermsofpolicysupport,thegovernmentofPanzhihuaregionhasintroducedaseriesofpolicymeasurestosupporttheresourceutilizationoftitaniumcontainingblastfurnaceslag.Includingfinancialsupport,taxincentives,technologyintroduction,etc.,itprovidesstrongguaranteesforthetechnologicalinnovationandindustrialdevelopmentofenterprises.Theguidanceandsupportofpolicieshaveledtorapidprogressintheresourceutilizationoftitaniumcontainingblastfurnaceslag.在环境保护方面，攀枝花地区注重含钛高炉渣处理过程中的环境保护。通过引进先进的环保设备和技术，加强了对废气、废水等污染物的治理，确保了处理过程的环境安全。还推动了循环经济的发展，实现了资源的循环利用和废物的减量化处理。Intermsofenvironmentalprotection,thePanzhihuaareapaysattentiontoenvironmentalprotectionduringthetreatmentprocessoftitaniumcontainingblastfurnaceslag.Byintroducingadvancedenvironmentalprotectionequipmentandtechnology,thetreatmentofpollutantssuchasexhaustgasandwastewaterhasbeenstrengthened,ensuringtheenvironmentalsafetyofthetreatmentprocess.Italsopromotesthedevelopmentofcirculareconomy,achievingtherecyclingofresourcesandthereductionofwastedisposal.攀枝花地区在含钛高炉渣资源化利用新途径的探索中，取得了显著成果。通过技术创新、产业链延伸、政策支持和环境保护等多方面的努力，实现了含钛高炉渣的高效利用和资源的可持续发展。这些经验和做法对于其他地区开展类似工作具有重要的借鉴意义和推广价值。SignificantachievementshavebeenmadeintheexplorationofnewwaysofresourceutilizationoftitaniumcontainingblastfurnaceslaginthePanzhihuaarea.Throughvariouseffortssuchastechnologicalinnovation,industrialchainextension,policysupport,andenvironmentalprotection,efficientutilizationoftitaniumcontainingblastfurnaceslagandsustainabledevelopmentofresourceshavebeenachieved.Theseexperiencesandpracticeshaveimportantreferencesignificanceandpromotionvalueforsimilarworkinotherregions.五、攀枝花含钛高炉渣资源化利用政策与措施建议PolicyandMeasuresSuggestionsforResourceUtilizationofTitaniumcontainingBlastFurnaceSlaginPanzhihua攀枝花作为中国重要的钛资源生产基地，其含钛高炉渣的资源化利用不仅关系到地方经济的可持续发展，还对环境保护和资源循环利用具有深远影响。因此，制定和实施一系列的政策与措施，推动含钛高炉渣的有效利用，显得尤为重要。AsanimportanttitaniumresourceproductionbaseinChina,theresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihuaisnotonlyrelatedtothesustainabledevelopmentofthelocaleconomy,butalsohasaprofoundimpactonenvironmentalprotectionandresourcerecycling.Therefore,itisparticularlyimportanttoformulateandimplementaseriesofpoliciesandmeasurestopromotetheeffectiveutilizationoftitaniumcontainingblastfurnaceslag.政府应出台相关的产业扶持政策，鼓励企业进行技术创新和产业升级。对于在含钛高炉渣资源化利用方面取得显著成效的企业，应给予税收优惠、资金扶持等政策支持，激发企业创新活力。同时，设立专项科研基金，支持高校和科研机构开展含钛高炉渣资源化利用的基础研究和应用研究，推动技术突破和成果转化。Thegovernmentshouldintroducerelevantindustrialsupportpoliciestoencourageenterprisestoengageintechnologicalinnovationandindustrialupgrading.Forenterprisesthathaveachievedsignificantresultsintheresourceutilizationoftitaniumcontainingblastfurnaceslag,policysupportsuchastaxincentivesandfinancialsupportshouldbeprovidedtostimulatetheirinnovationvitality.Atthesametime,aspecialresearchfundwillbeestablishedtosupportuniversitiesandresearchinstitutionsinconductingbasicandappliedresearchontheresourceutilizationoftitaniumcontainingblastfurnaceslag,promotingtechnologicalbreakthroughsandachievementtransformation.加强法律法规建设，制定和完善含钛高炉渣资源化利用的法规标准。明确企业在资源利用、环境保护等方面的责任和义务，加大违法行为的处罚力度，确保资源化利用工作有法可依、有章可循。Strengthentheconstructionoflawsandregulations,andformulateandimproveregulatorystandardsfortheresourceutilizationoftitaniumcontainingblastfurnaceslag.Clarifytheresponsibilitiesandobligationsofenterprisesinresourceutilization,environmentalprotection,etc.,increasethepunishmentforillegalactivities,andensurethatresourceutilizationworkhaslawsandregulationstofollow.构建多元化的合作机制，推动产学研用深度融合。鼓励企业、高校、科研机构之间建立紧密的合作关系，共同开展含钛高炉渣资源化利用的技术研发、项目推广和人才培养。同时，加强与国内外相关企业和机构的交流合作，引进先进技术和管理经验，提升资源化利用的整体水平。Builddiversifiedcooperationmechanismsandpromotedeepintegrationofindustry,academia,researchandapplication.Encourageenterprises,universities,andresearchinstitutionstoestablishclosecooperativerelationshipsandjointlycarryouttechnologicalresearchanddevelopment,projectpromotion,andtalentcultivationfortheresourceutilizationoftitaniumcontainingblastfurnaceslag.Atthesametime,strengthencommunicationandcooperationwithrelevantdomesticandforeignenterprisesandinstitutions,introduceadvancedtechnologyandmanagementexperience,andimprovetheoveralllevelofresourceutilization.加强公众宣传和教育，提高全社会对含钛高炉渣资源化利用的认识和支持。通过举办科普讲座、展览展示等形式多样的活动，普及资源循环利用和环境保护知识，增强公众的环保意识和资源意识。同时，发挥媒体的监督作用，对含钛高炉渣资源化利用工作进行持续关注和报道，形成全社会共同参与的良好氛围。Strengthenpublicpublicityandeducation,andenhancetheawarenessandsupportofthewholesocietyfortheresourceutilizationoftitaniumcontainingblastfurnaceslag.Byorganizingvariousformsofactivitiessuchassciencepopularizationlecturesandexhibitions,weaimtopopularizeknowledgeaboutresourcerecyclingandenvironmentalprotection,andenhancepublicawarenessofenvironmentalprotectionandresourceawareness.Atthesametime,leveragingthesupervisoryroleofthemedia,wewillcontinuetopayattentiontoandreportontheresourceutilizationoftitaniumcontainingblastfurnaceslag,andcreateagoodatmospherefortheparticipationofthewholesociety.建立健全含钛高炉渣资源化利用的监管体系。加强对企业资源化利用情况的监督检查，确保各项政策和措施落到实处。建立信息公开和反馈机制，及时发布含钛高炉渣资源化利用的进展情况和社会评价结果，接受社会监督和建议。Establishasoundregulatorysystemfortheresourceutilizationoftitaniumcontainingblastfurnaceslag.Strengthensupervisionandinspectionoftheutilizationofenterpriseresourcestoensurethatallpoliciesandmeasuresareimplementedeffectively.Establishaninformationdisclosureandfeedbackmechanism,timelyreleasetheprogressandsocialevaluationresultsoftheresourceutilizationoftitaniumcontainingblastfurnaceslag,andacceptsocialsupervisionandsuggestions.攀枝花含钛高炉渣资源化利用的政策与措施建议需要政府、企业、社会各方共同努力，形成政策引导、技术支持、法规保障、公众参与的良好格局，推动攀枝花含钛高炉渣资源化利用工作取得实效。ThepolicyandmeasuresfortheresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihuarequirejointeffortsfromthegovernment,enterprises,andsocietytoformagoodpatternofpolicyguidance,technicalsupport,regulatoryprotection,andpublicparticipation,andpromotetheeffectiveutilizationoftitaniumcontainingblastfurnaceslaginPanzhihua.六、结论与展望ConclusionandOutlook本文深入研究了攀枝花含钛高炉渣的资源化利用新途径，通过综合分析和实验验证，得出了一系列有益的结论。攀枝花含钛高炉渣中的钛资源具有较高的回收价值，通过合理的工艺流程和技术手段，可以有效地实现钛资源的提取和利用。本文提出的资源化利用新途径，不仅提高了资源的综合利用率，还降低了环境污染，具有显著的经济效益和环境效益。本文的研究成果为攀枝花含钛高炉渣的资源化利用提供了新的思路和方向，对于推动相关产业的发展和环境的改善具有积极的意义。ThisarticledelvesintoanewapproachtotheresourceutilizationoftitaniumcontainingblastfurnaceslaginPanzhihua.Throughcomprehensiveanalysisandexperimentalverification,aseriesofbeneficialconclusionshavebeendrawn.ThetitaniumresourcesinPanzhihuatitaniumcontainingblastfurnaceslaghavehighrecoveryvalue.Throughreasonableprocessflowandtechnicalmeans,theextractionandutilizationoftit