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Combustion physics PDF

742 Pages·2006·6.158 MB·English
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P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 This page intentionally left blank ii P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 COMBUSTION PHYSICS Inthepastseveraldecades,combustionhasevolvedfromascientificdiscipline thatwaslargelyempiricaltoonethatisquantitativeandpredictive.Thesead- vancesarecharacterizedbythecanonicalformulationofthetheoreticalfoun- dation;thestronginterplaybetweentheory,experiment,andcomputation;and theunifieddescriptionoftherolesoffluidmechanicsandchemicalkinetics.This graduate-leveltextincorporatestheseadvancesinacomprehensivetreatmentof thefundamentalprinciplesofcombustionphysics.Thepresentationemphasizes analytical proficiency and physical insight, with the former achieved through complete, though abbreviated, derivations at different levels of rigor, and the latterthroughphysicalinterpretationsofanalyticalsolutions,experimentalob- servations,andcomputationalsimulations.Exercisesaredesignedtostrengthen thestudent’smasteryofthetheory.Implicationsofthefundamentalknowledge onpracticalphenomenaarediscussedwheneverappropriate.Thesedistinguish- ingfeaturesprovideasolidfoundationforanacademicprogramincombustion scienceandengineering. ChungK.LawistheRobertH.GoddardProfessorofMechanicalandAerospace EngineeringatPrincetonUniversity.Heobtainedhisdoctorateinengineering physics from the University of California at San Diego in 1973. His research interests are in combustion, propulsion, heat and mass transfer, and issues on energyandtheenvironment.Forhisresearchaccomplishments,hereceivedthe CurtisW.McGrawResearchAwardoftheAmericanSocietyforEngineering Education(ASEE)in1984foroutstandingearlyachievementinresearch,asil- vermedaloftheCombustionInstitutein1990,thePropellantsandCombustion AwardoftheAmericanInstituteofAeronauticsandAstronautics(AIAA)in 1994,theHeatTransferMemorialAward,inscience,oftheAmericanSociety ofMechanicalEngineers(ASME)in1997,theEnergySystemsAwardandthe PendrayLiteratureAwardoftheAIAAin1999and2004,respectively,andsev- eralawardsforbestconferencepapers.HeisanoriginalmemberoftheHighly CitedResearchersdatabaseoftheInstituteforScientificInformation(ISI). Professor Law is a former president of the Combustion Institute, a Fellow oftheAIAAandtheASME,andamemberoftheU.S.NationalAcademyof Engineering. i P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 ii P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 COMBUSTION PHYSICS CHUNG K. LAW PrincetonUniversity iii cambridge university press Cambridge, New York, Melbourne, Madrid, Cape Town, Singapore, São Paulo Cambridge University Press TheEdinburghBuilding,Cambridgecb22ru,UK Published in the United States of America by Cambridge University Press, New York www.cambridge.org Information on this title: www.cambridge.org/9780521870528 © Chung K. Law 2006 This publication is in copyright. Subject to statutory exception and to the provision of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press. First published in print format 2006 isbn-13 978-0-511-24584-8eBook (EBL) isbn-10 0-511-24584-XeBook (EBL) isbn-13 978-0-521-87052-8hardback isbn-10 0-521-87052-6 hardback Cambridge University Press has no responsibility for the persistence or accuracy of urls for external or third-party internet websites referred to in this publication, and does not guaranteethatanycontentonsuchwebsitesis,orwillremain,accurateorappropriate. P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 TomywifeHelen andtoourchildren Jonathan,Jennifer,andJeffrey v P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 vi P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 Contents Preface pagexvii INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 0.1. MajorAreasofCombustionApplication 1 0.2. ScientificDisciplinesComprisingCombustion 6 0.3. ClassificationsofFundamentalCombustionPhenomena 7 0.4. OrganizationoftheText 10 0.5. LiteratureSources 12 1. CHEMICALTHERMODYNAMICS . . . . . . . . . . . . . . . . . . . . . . . . 14 1.1. PracticalReactantsandStoichiometry 14 1.1.1. PracticalReactants 14 1.1.2. Stoichiometry 15 1.2. ChemicalEquilibrium 16 1.2.1. FirstandSecondLaws 16 1.2.2. ThermodynamicFunctions 16 1.2.3. CriterionforChemicalEquilibrium 18 1.2.4. PhaseEquilibrium 18 1.2.5. EquilibriumConstants 21 1.2.6. EquilibriumConstantsinthePresenceofCondensedPhases 22 1.2.7. MultipleReactions 24 1.2.8. ElementConservation 24 1.2.9. RestrictedEquilibrium 25 1.3. EquilibriumCompositionCalculations 26 1.3.1. EquilibriumCompositionofHydrocarbon–AirMixtures 26 1.3.2. TheMajor–MinorSpeciesModel 28 1.3.3. ComputerSolutions 30 1.4. EnergyConservation 31 1.4.1. HeatsofFormation,Reaction,andCombustion 31 1.4.2. EstimationofHeatofReactionfromBondEnergies 34 1.4.3. DeterminationofHeatofReactionfromK (T) 35 p 1.4.4. SensibleEnergiesandHeatCapacities 35 vii P1:JZP 0521870526pre CUFX045/Law Printer:cupusbw 0521870526 July21,2006 8:49 viii Contents 1.4.5. EnergyConservationinAdiabaticChemicalSystems 37 1.4.6. AdiabaticFlameTemperatureandEquilibriumComposition 37 PROBLEMS 49 2. CHEMICALKINETICS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 2.1. PhenomenologicalLawofReactionRates 52 2.1.1. TheLawofMassAction 52 2.1.2. ReversibleReactions 53 2.1.3. MultistepReactions 54 2.1.4. Steady-StateApproximation 54 2.1.5. PartialEquilibriumApproximation 55 2.1.6. ApproximationsbyGlobalandSemiglobalReactions 56 2.1.7. ReactionOrderandMolecularity 57 2.2. TheoriesofReactionRates:BasicConcepts 58 2.2.1. TheArrheniusLaw 58 2.2.2. TheActivationEnergy 59 2.2.3. CollisionTheoryofReactionRates 62 2.2.4. TransitionStateTheoryofReactionRates 64 2.3. TheoriesofReactionRates:UnimolecularReactions 67 2.3.1. LindemannTheory 68 2.3.2. Rice–Ramsperger–Kassel(RRK)Theory 70 2.3.3. RepresentationofUnimolecularReactionRateConstants 71 2.3.4. ChemicallyActivatedReactions 72 2.4. ChainReactionMechanisms 74 2.4.1. Straight-ChainReactions:TheHydrogen–HalogenSystem 74 2.4.2. Branched-ChainReactions 76 2.4.3. FlameInhibitors 79 2.5. ExperimentalandComputationalTechniques 80 PROBLEMS 81 3. OXIDATIONMECHANISMSOFFUELS . . . . . . . . . . . . . . . . . . . . . 84 3.1. PracticalFuels 85 3.2. OxidationofHydrogenandCarbonMonoxide 89 3.2.1. ExplosionLimitsofHydrogen–OxygenMixtures 89 3.2.2. CarbonMonoxideOxidation 94 3.2.3. InitiationReactionsinFlames 94 3.3. OxidationofMethane 95 3.3.1. GeneralConsiderationsofHydrocarbonOxidation 95 3.3.2. MethaneAutoignition 96 3.3.3. MethaneFlames 99 3.4. OxidationofC Hydrocarbons 100 2 3.5. OxidationofAlcohols 102 3.6. High-TemperatureOxidationofHigherAliphaticFuels 103 3.6.1. Theβ-ScissionRule 104 3.6.2. OxidationMechanisms 106 3.7. OxidationofAromatics 109

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