![周濤[中南大學教授]](/img/2/bd4/nBnauM3X3UjM0AjM4EzMwUDOxMTM0EjN1UDOwADMwAzMxAzLxMzL2IzLt92YucmbvRWdo5Cd0FmLyE2LvoDc0RHa.jpg "周濤[中南大學教授]")
化工系教學主任
個人簡介
周濤,男,1963年生,教授,博士生導師,粉體技術研究所副所長,化工系教學主任。
學習與工作經歷
1982.09-1986.06:成都科學技術大學化工系,學士
![周濤[中南大學]](/img/7/b24/cGcq5CM0EzX3UjM0AjM4EzMwUDOxMTM0EjN1UDOwADMwAzMxAzLxMzL2IzLt92YucmbvRWdo5Cd0FmLyE2LvoDc0RHa.jpg)
周濤[中南大學]1986.07-1989.08:西北輕工業學院(鹹陽)造紙系,教師
1989.09-1992.04:北京化工大學化工系,碩士
1992.05-1995.08:協和石油化工集團(中國)有限公司,總裁助理、工程師
1995.09-1999.05:中國科學院化冶所多相反應研究開放實驗室(北京),博士
1999.06-1999.11:中國科學院化冶所多相反應研究開放實驗室,助研
1999.12-2001.12:日本九州工業大學,JSPS特別研究員
2001.12-2002.04:日本北海道大學材料科學與工程系,研究員
2002.07-2003.07:美國新澤西理工學院粉末工程研究中心,高級研究學者
2003.09-:中南大學化學化工學院,教授
主講課程
本科生《化學反應工程》、《催化導論》,研究生《分離工程》、《納米科學與技術概論》、《科技論文寫作》
研究方向
1.多相流與流態化技術
納米顆粒由於粒徑非常小,比表面積大,但顆粒間力較大,一般以聚團的形式出現,套用起來有一定難度。但在外力場(振動或磁場)作用下,納米顆粒以小聚團的形式流化。振動或磁場能大大降低納米顆粒最小流化速度,節省能源;且在最小流化速度時無氣泡,床層膨脹高,從而反應或傳熱效率高。掌握了納米顆粒的關鍵套用技術就能開發出新型反應器、乾燥器等。比如,如果納米催化劑能用在現有煉油廠流化催化裂化裝置上,將大大提高催化劑的利用率和產品收率,降低成本;納米顆粒的乾燥,如果採用外力場(振動或磁場)作用下流態化乾燥,將會大大降低顆粒間團聚,減少結塊,從而提高產品質量。因此,納米材料的套用技術的研究與開發已成為國際高科技競爭的焦點之一。
2.納米材料、超微細顆粒的造粒和表面改性
對納米材料、超微細顆粒在轉筒造粒機、圓盤造粒機、擠壓造粒機、對輥壓縮造粒機中的造粒,以及流化床中的噴霧造粒進行理論與套用研究,並採用模型對其進行理論模擬,為生產套用提供理論指導。採用化學方法對粉體材料,如鋁粉顏料、CaCO3進行表面改性,研究各種操作條件對表面改性的影響,使其達到工業生產的要求。
3.醫藥中間體的合成
通過對工藝操作條件的最佳化,提出合成醫藥中間體的新路徑,為工業化套用提供技術參數和理論指導。
代表性成果
1.周濤,曾平.混合納米顆粒流態化的方法(申請專利號200710035165.2)
2.周濤,魏盼中,許仙波,唐清.一種塗布抗水劑及其製備方法(申請專利號200810143581.9)
3.專著:周濤,黏性顆粒聚團流態化及套用,化學工業出版社,2008
4.T.zhouandH.Z.Li.EstimationofAgglomerateSizeofCohesiveParticlesDuringFluidization.PowderTechnol.1999,101(1):57-62.
5.T.ZhouandH.Z.Li.EffectsofAddingDifferentSizeParticlesonFluidizationofCohesiveParticles.PowderTechnol.1999,102,215.
6.T.ZhouandH.Z.Li.ForceBalanceModelingforAgglomeratingFluidizationofCohesiveParticles.PowderTechnol.2000,111:60-65.
7.T.Zhou,H.Z.Li.FluidizationofgroupCpowdersandeffectsofaddingparticles,inFluidization2000,ScienceandTechnology,CJF-7,D.XuandS.Mori(eds.),Xian:XianPublishingHouse,2000,p.131.
8.T.Zhou,S.Funaoka,H.Kage,H.OguraandY.Matsuno.Effectofvibrationparametersonthefluidizationbehaviorofglassbeads,The13thSymposiumonChemicalEngineering(Japan-Korea),Fukuoka,Japan,2000,131.
9.T.Zhou,H.Kage,S.Funaoka,H.OguraandY.Matsuno.Fluidizationbehaviorofglassbeadsunderdifferentvibrationmodule,AdvancedPowderTechnology,2001,12(4):559-575.
10.T.Zhou,H.Kage,S.Funaoka,H.Ogura.Thebubblebehaviorinanew-typehorizontalvibro-fluidizedbed,J.Chem.Eng.Japan,2002,35(8):737-743.
11.T.Zhou,H.Kage,S.Funaoka,H.Ogura.Comparisonoffluidizationcharacteristicsofafluidizedbedwithverticalandhorizontalvibration,The4thWorldCongressonParticleTechnology(CD),Sydney,Australia,2002,No.56.
12.T.Zhou,K.Shinohara,H.KageandH.Li.AGGLOMERATINGFLUIDIZATIONOFGROUPCPOWDERS:MAJORFACTORSOFAGGLOMERATECOALESCENCEANDBREAKUP,The4thWorldCongressonParticleTechnology(CD),Sydney,Australia,2002,No.159.
13.H.Kage,R.Abe,R.Hattanda,T.Zhou,H.Ogura,Y.Matsuno.Effectofsolidcirculationrateoncoatingefficiencyandagglomerationincirculatingfluidizedbedtypecoater,PowderTechnol.2003,130:203-210.
14.T.Zhou,H.Ogura,M.Yamamura,H.Kage.BubbleMotionPatternandRiseVelocityinTwo-dimensionalHorizontalandVerticalVibro-fluidizedBeds,TheCanadianJournalofChemicalEngineering,2004,82(2):236-242.
15.H.Kage,S.Funaoka,H.Kohno,T.Zhou,M.Yamamura.Effectofvibrationadditiononbubblesizeandvelocityintwo-dimensionalfluidizedbed,FluidizationXI,Italy,2004,651-657.
16.T.Zhou,H.Kage,H.Z.Li.Bubblecharacteristicsinatwo-dimensionalverticallyvibro-fluidizedbed,ChinaParticuology,2005,3(4):224-228.
17.T.Zhou,B.GolmanandK.Shinohara.Preparationoflargeagglomeratesofhighvoidagefromcharcoalparticlesforliquidabsorptionandrelease,AdvancedPowderTechnology,2005,16(5):535-548.
18.T.Zhou,H.Z.Li,K.Shinohara.AgglomeratingfluidizationofgroupCparticles:majorfactorsofcoalescenceandbreakupofagglomerates,AdvancedPowderTechnology,2006,17(2):159-166.
19.ZENGPing,ZHOUTao,YANGJingsi,CHENQuanqun.BehaviorofMixturesofNano-particlesinMagneticFluidizedBed.CJF9,Beijing,2006,215-222.
20.PingZeng,TaoZhou,GuanqunChen,QingshanZhu.BehaviorofmixedZnOandSiO2nano-particlesinmagneticfieldassistedfluidization,ChinaParticuology,2007,5:169-173
21.TaoZhou,JingsiYang,LianyingSong.Characteristicsofmixturesofnon-magneticcohesiveparticlesandmagnetsinmagneticfluidizedbeds,The3thAsianParticleTechnologySymposium,Beijing,2007,72-78
22.PingZeng,TaoZhou,JingsiYang,Behaviorofmixturesofnano-particlesinmagneticallyassistedfluidizedbed,ChemicalEngineeringandProcessing,2008,47:101-108
23.GuanqunChen,TaoZhou,HongzhongLi.Characteristicsofanthraquinonehydrogenationcatalystsinaliquid-solidfluidizedbed,TheCanadianJournalofChemicalEngineering,2008,86:288-292.
24.HuiLiu,HongqiYe,TianquanLin,TaoZhou.SynthesisandcharacterizationofPMMA/Al2O3compositeparticlesbyinsituemulsionpolymerization,Particuology,2008,6(3):207-213
25.JingsiYang,TaoZhou,LianyingSong.Agglomeratingvibro-fluidizationbehaviorofnano-particles,AdvancedPowderTechnology,2009,20(2):158-163
26.LianyingSong,TaoZhou,JingsiYang.Fluidizationbehaviorofnano-particlesbyaddingcoarseparticles,AdvancedPowderTechnology,2009,20(4):366-370
27.TaoZhou,JingsiYang,RunliDiao,LianyingSong,HiroyukiKage,andYoshihideMawatari.Agglomeratingfluidizationcharacteristicsofnanoparticles,UK-ChinaParticleTechnologyForumII,guiyang,China,2009,91-94
28.JingsiYang,HuiWang,TaoZhou,FengZhang,HiroyukiKage,andYoshihideMawatari.CharacteristicofNano-ParticleAgglomeratesinVibro-fluidizedBed,UK-ChinaParticleTechnologyForumII,Guiyang,China,2009,86-89
29.LuXiao,TaoZhou,JiaMeng.HydrothermalsynthesisofMn-ZnferritesfromspentalkalineZn-Mnbatteries,Particuology,2009,7:491-495
30.LIUMin,JINBaoduo,XIEXiaofeng,ZHOUTao.StudyonPerformanceDegradationofDMFCbyElectrochemicalImpedanceSpectroscopy,60thAnnualMeetingoftheInternationalSocietyofElectrochemistry,Beijing,China,2009,s05-P-157
31.ModelforCalculationofAgglomerateSizesofNanoparticlesinaVibro-fluidizedBed,ChemicalEngineering&Technology,2010,33(3):388-394.
