简介：The30-kt/aPXdemonstrationunitjointlydevelopedbySINOPECYangziPetrochemicalCompany,SPECandRIPPhasimplementedalltestitemsafterhavingsuccessfullysettingupitslastwing-theadsorptiveseparationtechnology.TherebySINOPEChasbecomeamajorpetrochemicalcompanycapableofprovidingpackagedaro

简介：Recentlytheproject'Developmentofpackagetechnologyforregenerationofstyrenethroughextractivedistillationofpyrolysisgasoline(STED)'undertakenjointlybytheSINOPECResearchInstituteofPetroleumProcessing(RIPP)andotherinstitutionshaspassedtheappraisalheldinBeijing.Theexpertgroupattendingtheappraisal

简介：ThekeyscienceandtechnologydevelopmentprojectofSINOPEC—thepilotscalestudyofsyngas-to-ethyleneglycolpackagetechnologyhaspassedtheexpertappraisalsponsoredbytheSINOPECScienceandTechnologyDivision.Thisprojectfacility,whichisjointlydevelopedbytheSINOPECShanghaiPetrochemicalResearchInstitute

简介：FiveChinaInventionPatentshavebeengrantedto'Plasmaprocessforcoal-basedacetylenetechnology'independentlydevelopedbytheXinjiangTianyeCompany,whichboastsagroupoftechnicalpatentsonitscoreprocessandequipment.Pyrolysisofcoaltomanufactureacetyleneinthermalplasmareactor,whichisbasedonthehigh-temperaturehydrogenplasma,enhancedchemicalaffinity,andthecharacteristicfeaturerelatingtotheclosecarbon/hydro-

简介：Nitrobenzene-containingindustrialwastewaterwasdegradedinthepresenceofozonecoupledwithH2O2byhighgravitytechnology.Theeffectofhighgravityfactor,H2O2concentration,pHvalue,liquidflow-rate,andreactiontimeontheefficiencyforremovalofnitrobenzenewasinvestigated.TheexperimentalresultsshowthatthehighgravitytechnologyenhancestheozoneutilizationefficiencywithO3/H2O2showingsynergisticeffect.ThedegradationefficiencyintermsoftheCODremovalrateandnitrobenzeneremovalratereached45.8%and50.4%,respectively,underthefollowingreactionconditions,viz.:ahighgravityfactorof66.54,apHvalueof9,aH2O2/O3molarratioof1:1,aliquidflowrateof140L/h,anozoneconcentrationof40mg/L,aH2O2multipledosingmodeof6mL/h,andareactiontimeof4h.Comparedwiththeperformanceofconventionalstirredaerationmixers,thehighgravitytechnologycouldincreasetheCODandnitrobenzeneremovalraterelatedwiththenitrobenzene-containingwastewaterby22.9%and23.3%,respectively.