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梅炽 著 / 冶金工业出版社 / 2010-01 / 精装
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有色冶金炉窑仿真与优化(英文版)
SimulationandOptimizationofFurnacesandKilnsforNonferrousMetallurgicalEngineeringisbasedonadvancedtheoriesandresearchmethodsforfluidflow,massandheattransfer,andfuelcombustion.Itintroducesahologramsimulationandoptimizationmethodsforfluidfield,temperaturefield,concentrationfield,andelectro-magneticfieldinvariouskindsoffurnacesandkilns.Practicalexamplesandadetailedintroductiontomethodsforsimulationandoptimizationofcomplexsystemsareincludedaswell.Thesenewmethodshavebroughtsignificanteconomicbenefitstotheindustriesinvolved.
Thebookisintendedforresearchersandtechnicalexpertsinmetallurgicalengineering,materialsengineering,powerandthermalenergyengineering,chemicalengineering,andmechanicalengineering.ChiMei,JieminZhou,XiaoqiPeng,NaijunZhouandPingZhouareallprofessorsatSchoolofEnergyScienceandEngineering,CentralSouthUniversity,Changsha,HunanProvince,China.
Chi Mei, Jiemin Zhou, Xiaoqi Peng, Naijun Zhou and Ping Zhou are all professors at School of Energy Science and Engineering, Central South University, Changsha, Hunan Province, China.
1Introduction1.1ClassificationoftheFumacesandKilnsforNonferrousMetallurgicalEngineering(FKNME)1.2TheThermophysicalProcessesandThermalSystemsoftheFKNME1.3AReviewoftheMethodologiesforDesignsandInvestigationsofFKNME1.3.1MethodologiesfordesignandinvestigationofFKNME1.3.2ThecharacteristicsoftheMHSOmethod1.4ModelsandModelingfortheFKNME1.4.1ModelsforthemodemFKNME1.4.2ThemodelingprocessReferences2ModelingoftheThermophysicalProcessesinFKNME2.1ModelingoftheFluidFlowintheFKNME2.1.1Introduction2.1.2TheReynolds-averagingandtheFavre-averagingmethods2.1.3Turbulencemodels2.1.4LowReynoldsnumberk-emodels2.1.5Re-NormalizationGroup(RNG)k-emodels2.1.6Reynoldsstressesmodel(RSM)2.2TheModelingoftheHeatTransferinFKNME2.2.1Characteristicsofheattransferinsidefurnaces2.2.2Zonemethod2.2.3MonteCarlomethod2.2.4Discretetransferradiationmodel2.3TheSimulationofCombustionandConcentrationField2.3.1Basicequationsoffluiddynamicsincludingchemicalreactions2.3.2Gaseouscombustionmodels2.3.3Dropletandparticlecombustionmodels2.3.4NOxmodels2.4SimulationofMagneticField2.4.1Physicalmodels2.4.2Mathematicalmodelofcurrentfield2.4.3Mathematicalmodelsofmagneticfieldinconductiveelements..2.4.4Magneticfieldmodelsofferromagneticelements2.4.5Three-dimensionalmathematicalmodelofmagneticfield2.5SimulationonMeltFlowandVelocityDistributioninSmeltingFurnaces2.5.1Mathematicalmodelforthemeltflowinsmeltingfurnace2.5.2Electromagneticflow2.5.3Themeltmotionresultingfromjet-flowReferences3HologramSimulationoftheFKNME3.1ConceptandCharacteristicsofHologramSimulation3.2MathematicalModelsofHologramSimulation3.3ApplyingHologramSimulationtoMulti-fieldCoupling3.3.1Classificationofmulti-fieldcoupling3.3.2Anexampleofintra-phasethree-fieldcoupling3.3.3Anexampleoffour-fieldcoupling3.4SolutionsofHologramSimulationModelsReferences4ThermalEngineeringProcessesSimulationBasedonArtificialIntelligence4.1CharacteristicsofThermalEngineeringProcessesinNonferrousMetallurgicalFurnaces4.2IntroductiontoArtificialIntelligenceMethods4.2.1Expertsystem4.2.2Fuzzysimulation4.2.3Artificialneuralnetwork4.3ModelingBasedonIntelligentFuzzyAnalysis4.3.1Intelligentfuzzyself-adaptivemodelingofmulti-variablesystem4.3.2Example:fuzzyadaptivedecision-makingmodelfornickelmattesmeltingprocessinsubmergedarcfurnace4.4ModelingBasedonFuzzyNeuralNetworkAnalysis4.4.1Fuzzyneuralnetworkadaptivemodelingmethodsofmulti-variablesystem4.4.2Example:fuzzyneuralnetworkadaptivedecision-makingmodelforproductionprocessinslagcleaningfurnaceReferences5HologramSimulationofAluminumReductionCells5.1Introduction5.2ComputationandAnalysisoftheElectricFieldandMagneticField5.2.1Computationmodelofelectriccurrentinthebusbar5.2.2Computationalmodelofelectriccurrentintheanode5.2.3Computationandanalysisofelectricfieldinthemelt5.2.4Computationandanalysisofelectricfieldinthecathode5.2.5Computationandanalysisofthemagneticfield5.3ComputationandAnalysisoftheMeltFlowField5.3.1Electromagneticforceinthemelt5.3.2Analysisofthemoltenaluminummovement5.3.3Analysisoftheelectrolytemovement5.3.4Computationofthemeltvelocityfield5.4AnalysisofThermalFieldinAluminumReductionCells5.4.1Controlequationsandboundaryconditions5.4.2Calculationmethods5.5DynamicSimulationforAluminumReductionCells5.5.1Factorsinfluencingoperationconditionsandprincipleofthedynamicsimulation5.5.2Modelsandalgorithm5.5.3Technicalschemeofthedynamicsimulationandfunctionofthesoftwaresystem5.6ModelofCurrentEfficiencyofAluminumReductionCells5.6.1Factorsinfluencingcurrentefficiencyanditsmeasurements5.6.2ModelsofthecurrentefficiencyReferences6SimulationandOptimizationofElectricSmeltingFurnace6.1Introduction6.2SinteringProcessModelofSelf-bakingElectrodeinElectricSmeltingFurnace6.2.1Electricandthermalanalyticalmodeloftheelectrode6.2.2Simulationsoftware6.2.3Analysisofthecomputationalresultandthebakingprocess6.2.4Optimizationofself-bakingelectrodeconfigurationandoperationregime6.3ModelingofBathFlowinElectricSmeltingFurnace6.3.1Mathematicalmodelforvelocityfieldofbath6.3.2Theforcesactingonmoltenslag6.3.3Solutionalgorithmsandcharacters6.4HeatTransferintheMoltenPoolandTemperatureFieldModeloftheElectricSmeltingFurnace6.4.1Mathematicalmodelofthetemperaturefieldinthemoltenpool6.4.2Simulationsoftware6.4.3Calculationresultsandverification6.4.4EvaluationandoptimizationofthefurnacedesignandoperationReferences7CouplingSimulationofFour-fieldinFlameFurnaee7.1Introduction7.2SimulationandOptimizationofCombustionChamberofTower-TypeZincDistillationFurnace7.2.1Physicalmodel7.2.2Mathematicalmodel7.2.3Boundaryconditions7.2.4Simulationofthecombustionchamberpriortostructureoptimization7.2.5Structuresimulationandoptimizationofcombustionchamber7.3Four-fieldCouplingSimulationandIntensificationofSmeltinginReactionShaftofFlashFurnace7.3.1Mechanismofflashsmeltingprocessparticlefluctuatingcollisionmodel7.3.2Physicalmodel7.3.3Mathematicalmodel——couplingcomputationofparticleandgasphases7.3.4Simulationresultsanddiscussion7.3.5EnhancementofsmeltingintensityinflashfurnaceReferences8ModelingofDiluteandDensePhaseinGeneralizedFluidization8.1Introduction8.2ParticleSizeDistributionModels8.2.1Normaldistributionmodel8.2.2Logarithmicprobabilitydistributionmodel8.2.3Weibullprobabilitydistributionfunction……9MaultipleModelingofSingle-endedRadiantTubes10Multi-objectiveSytematicOptimizationofFKNMEIndex
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