燃煤锅炉超低负荷洁净高效运行的数值模拟

华北电力大学（北京）硕士学位论文燃煤锅炉超低负荷洁净高效运行的数值模拟姓名：卫宏强申请学位级别：硕士专业：工程热物理指导教师：孙保民20060301燃煤锅炉超低负荷洁净高效运行的数值模拟作者：卫宏强学位授予单位：华北电力大学(北京)参考文献(64条)1.中国火力发电行业分析研究报告20052.姚强洁净煤技术20053.徐宪斌高温空气无油点火可行性研究与初步设计2004(04)4.AMEatonComponents,formulations,solutions,evaluation,andapplicationofcomprehensivecombustionmodels19995.毛健雄.毛健权.赵树民煤的清洁燃烧19986.AnnualEnergyReview1997.[DOE/EIA-0384(97)USDepartmentofEnergy,EnergyInformationAgencyWASHINGTON,D.C]19987.DBSpaldingMathematicalModelsofTurbulentFlames,AReview,Comb.Sci.andTech.SpecialissueonTurbulent19768.CroweCt.SharmaMP.StockDETheparticlesource-in-cell(PSI-cell)modelforgasdropletflows19779.SuhasVPartankarNumericalheattransferandfluidflow198010.WBemech.HKremerMathematicalModelingofFluidFlowandMixinginTangentiallyFiredFurnaces198411.ASAbbes.FCLockwoodPredictionofACorner-fired198612.SmithPhilipJ.BaxterLarryCoalcombustionmodeling:Particulatea[ndgasphaseheattransfereffects198813.DeMicheleG.GhiribelliL.PasiniS.Tozzi,A3-Dcodeforpredictingradiativeandconvectiveheattransferinboilers198914.CanadesL.SalvadorL.011eroPRadiativeheat-transfermodelintheinteriorofapulverizedcoalfurnace1990(04)15.Pfannstiel.DIsermann.RModelingsimulationanddigitalcontrolofthecombustionofafurnace199116.LaFleshRC.MarionJL.TowleDP.Maney,C.Q.DeMichele,G.Pasini,S.Betacchi,S.Piantanida,A.Gall,G.mainini,GApplicationofreburningtechnologiesforNO//xemissionscontrolonoilandpulverizedcoaltangentiallyfiredboilers199117.AokiH.TannoS.MiuraT.Ohnishi,SModelingandpredicationofapracticalboiler199118.SakaiMakoto.BHenNumericalsimulationofpulverizedcoalcombustioninafurnace(PredictionsofemissioncharacteristicsofNO//xforvariouskindsofcoalsandNO//xreductionduetotwo-stageairinjection).NipponKikaiGakkaiRonbunshu1994(596)19.WalshPeterM.XieJianyang.DouglasRobertE.Battista,JosephJ.Zawadzki,EdwardAUnburnedcarbonlossfrompulverizedcoalcombustors1994(07)20.MannAP.KentJHComputationalstudyofheterogeneouscharreactionsinafull-scalefurnace1994(01)21.ZhouHuaichun.HahcaiyuanSimulationstudyondynamicanalysisofstabilityoftangentialcombustionprocess.Part1.Modelestablishment1994(02)22.LiWenyan.Wangyaqin.SunShaoxingThree-dimensionalfullsimulationofturbulentflow,combustionandheattransferprocessesinboilercombustionchamber1994(02)23.ZhaoZongrang.ZhangMingchuanResearchanddevelopmentonstabilizingpulverizedcoalcombustiontechnologybycounter-offsettingprimaryairandcoalstreamsforT-firedboilers1997(01)24.Liuxiangjun.XuXuchangComparisonoftheinfluenceofpseudo-diffusiononthenumericalsimulationofflowfieldinatangential-firingfurnacewitdifferentgridsystems1997(01)25.ChoSM.ConnRE.SeltzerAH.Ma,J.Shenker,J.DCharacteristicsofcharcombustioninahightemperatureadvancedfurnaceforthehighperformancepowersystem199726.孙保民W型火焰煤粉锅炉炉内流动、换热、燃烧过程的数值模拟和流场的实验研究[学位论文]博士199427.刘向军四角切向燃烧煤粉锅炉炉内燃烧过程的数值模拟[学位论文]博士199728.梁晓宏W型火焰煤粉锅炉燃烧过程,污染物生成的数值模拟及冷态流场试验研究199729.孙平600MW电站锅炉炉内多相流动、传热、燃烧过程及炉内偏差、污染、结渣的数值试验研究[学位论文]博士199930.孙昭星.王雅琴.李文彦锅炉燃烧过程三位数值计算方法的研究和应用1997(06)31.黄少鳄俄罗斯电站锅炉无油电加热煤粉点火燃烧技术2002(10)32.刘影.宋资勤.包克福煤粉锅炉点火技术及其发展[期刊论文]-发电设备2001(4)33.张永彩.张孝勇.刘鹏.李本伟电厂锅炉应用等离子点火的技术经济分析[期刊论文]-中国电力2004(3)34.岑可法.周昊.池作合大型电站锅炉安全及优化运行技术200335.北京国力能高科技有限公司燃煤锅炉超低负荷洁净高效控制与运行技术的研究及应用36.北京国力能高科技有限公司高温空气无油点火燃烧器简介200437.岑可法.樊建人工程气固多相流动的理论与计算199038.陶文铨数值传热学200439.王应时.范维澄燃烧过程的数值计算198640.岑可法.樊建人燃烧流体力学199141.周力行燃烧理论和化学流体力学198642.张兆顺.崔桂林流体力学199143.RodiWTurbulencemodelsandtheirapplicationinhydraulics198444.YakhotV.OrzagSARenormalizationgroupanalysisogturbulenc:basictheory198645.ShihTH.LiouWW.ShabbirA.YangZG,ZhuJAnewk-εeddyviscositymodelforhighReynoldsnumberTurbulentflows1995(03)46.LamderBE.ReeceGJ.RediWProgressinDevelopmentofReynoldsStressTurbulenceClosure197547.SpaldingDBMixingandChemicalReactioninSteadyConfinedTurbulenceFlame197148.岑可法.姚强.骆仲泱.李绚天高等燃烧学200249.周力行湍流两相流动与燃烧的数值模拟199150.LockwoodFC.SpaldingDBPredictionofaTurbulentDustFlowwithSignificantRadiation197151.HottelHC.SarofimAMRadiativeTransfer196752.HowellJR.PerlmufferMMonteCarloSolutionofRadiativeHeatTransferinaNongray,NonisothermalGaswithTemperatureDependantProperties196453.唐晓犇使用超细粉再燃技术的锅炉炉内过程的数值模拟[学位论文]硕士200454.HinzeJDTurbulence197555.MoritomiH.SuzukiY.KioN.OgisuYNO,xFormationMechanismofCFBCombustors199156.MitchellRE查看详情198857.HurtRH.MitchellRE查看详情199258.SmootLD.SmithPJCoalcombustionandgasification198559.HeckerwC.McDonaldKM.ReadeW.SwensenMR,CopeRF查看详情199260.HurtR查看详情199861.ReadeWC.MorrisK.HeckerWC查看详情199562.ReadeWC.HeckerWCPaperNo.94-05,WesternStatesSection199563.MescherAM.EssenhighRH查看详情64.FluentIncFLUENTuser'sguide:release5.4.82000相似文献(10条)1.期刊论文陈燕.王恒.赵立合.冯武军.李栋.CHENYan.WANGHeng.ZHAOLi-he.FENGWu-jun.LIDong电站煤粉锅炉无油点火技术分析-工业加热2005,34(1)就目前电站锅炉使用的几种无油点火方式及其特点进行了详细地分析,在此基础上提出了利用中频感应加热高温空气煤粉直燃技术方案,并进行了高温空气煤粉点火系统的实验研究,为高温空气煤粉点火燃烧器的优化设计奠定了坚实的实验基础.所开发的新型点火装置,具有启动迅速、防结焦性能优越、污染排放少等特点,完全满足环保和工程应用的要求.2.会议论文袁德.李明高温空气无油点火技术研究与应用2004目前我国每年用于火电机组锅炉启动及低负荷稳燃的燃油量相当惊人,2002年我国用于锅炉点火和助燃的燃料油超过600万吨,我国又是一个贫油国,如何节约、降低电站锅炉耗油量已引起政府部分的高度重视.在我国已陆续开发一些节油少油技术,等离子无油点火技术也已在国内许多机组上得到应用.文中着重介绍一种新的无油点火技术-高温空气点火技术的试验开发及实际应用.3.会议论文袁德.李明高温空气无油点火技术研究与应用2004目前我国每年用于火电机组锅炉启动及低负荷稳燃的燃油量相当惊人,我国又是一个贫油国,如何节约、降低电站锅炉耗油量已引起政府部分的高度重视.在我国已陆续开发一些节