资源描述:
《《常压塔设计论文》doc版》由会员上传分享,免费在线阅读,更多相关内容在学术论文-天天文库。
1、常减压装置中常压塔设计摘要塔设备是化工,石油化工和炼油生产中最重要的设备之一。塔设备是大部分机械专业理论学习的重点设备,也是化工厂中常见的设备。随着石油,化工生产的迅速发展,塔设备在石油化工生产中投入所占的比例越来越大,占到大概百分之五十的比例。塔设备的性能,整个装置的产品产量,质量,生产能力和消耗定额,以及三废处理和环境保护方面都有重要意义。因此选择沥青装置常压塔设计。本文是以专业知识为基础,对六十万吨每年氧化沥青装置常压塔进行的设计计算,该塔可以在常压,一百五十摄氏度温度下工作。该塔设备为浮阀塔,优点是生产能力高,操作
2、弹性大,气液流动阻力较小,塔板效率较高,但浮阀装卸清洗较困难,造价高,总体来讲综合性能较好,可以在工业上得到普遍应用。塔设备的设计具有很强的综合性,尤其在塔的高度较高时,要注意考虑高振型以及横风向风振对塔设备的影响。当前板式塔应该以处理能力为第一目标,传质效率为第二目标,开发的重点集中在降液管结构改进,塔板空间合理利用,气液分散结构优化以及降低成本等方面的改进。关键词:常压塔;沥青装置;浮阀DesignofatmospherictowerAbstractTowerequipmentinchemical,petrochemi
3、calandoilrefiningproductionisoneofthemostimportantequipment.Towerequipmentiskeyequipmentwhichlearnedbymostmechanicalengineering,butalsocommonequipmentinchemicalfactory.Withtherapiddevelopmentofpetroleum,chemicalproduction,towerequipmentinpetrochemicalproductioninp
4、utaccountedforanincreasinglylargeproportionaboutfiftypercent.Performance,theentiredeviceproductyield,quality,productionandconsumption,andwastetreatmentandenvironmentalprotectionoftowerequipmenthasimportantsignificance.Soasphaltunitatmosphericdistillationtowerdesig
5、nisthechoice.Thispaperisbasedontheprofessionalknowledgeasthebasis,todesignandcalculateofsixhundredthousandtonsperyearofasphaltoxidationdeviceatmospherictower,whichatatmosphericpressure,onehundredandfiftydegreesCelsiustemperature.Thetowerequipmentforthefloatvalveto
6、wer,hastheadvantagesofhighproductioncapacity,highoperatingflexibility,whichgas-liquidflowresistanceissmallandtheplateefficiencyishigher,buthandlingandcleaningfloatvalveismoredifficultandcostsmore,generallyspeaking,thefloatvalvetower,whichcomprehensiveperformanceis
7、good,canbewidelyappliedinindustry.Towerequipmentdesignhastheverystrongcomprehensive,especiallyintheheightofthetowerishigh,andpayingattentiontohighvibrationmodeandcrosswindvibrationthathasainfluenceontowerequipmentisamust.Thecurrenttowershouldtaketoprocessingcapaci
8、tyasthefirstgoal,themasstransferefficiencyassecondgoal,focusinimprovementofstructureofdowncomerplate,reasonableuseinplatespace,optimizationofgas-liquidd
