ebook img

Process Heat Transfer. Principles, Applications and Rules of Thumb PDF

615 Pages·2014·49.47 MB·English
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Process Heat Transfer. Principles, Applications and Rules of Thumb

DEDICATION This book is dedicated to C.C.S. The authors would also like to dedicate this edition to all the students and engineering professionals who providedthoughtfulfeedbackonthefirstedition,identifyingmanycorrectionsandimprovements.Wewould especially like to thank members of HTRI who have shared their expertise and experience to further the development ofthermal analysis methodsfor process heat exchangers. PROCESS HEAT TRANSFER PRINCIPLES, APPLICATIONS AND RULES OF THUMB Robert W. Serth Department of Chemical and Natural Gas Engineering, Texas A&M University-Kingsville, Kingsville, Texas, USA Thomas G. Lestina Vice President, Research & Engineering Services, Heat Transfer Research, Inc., College Station, Texas, USA AMSTERDAM(cid:129)BOSTON(cid:129)HEIDELBERG(cid:129)LONDON(cid:129)NEWYORK(cid:129)OXFORD PARIS(cid:129)SANDIEGO(cid:129)SANFRANCISCO(cid:129)SINGAPORE(cid:129)SYDNEY(cid:129)TOKYO AcademicPressisanimprintofElsevier AcademicPressisanimprintofElsevier TheBoulevard,LangfordLane,Kidlington,OxfordOX51GB,UK 225WymanStreet,Waltham,MA02451,USA Radarweg29,POBox211,1000AEAmsterdam,TheNetherlands 525BStreet,Suite1800,SanDiego,CA92101-4495,USA Firstedition2007 Secondedition2014 Copyright(cid:1)2014ElsevierInc.Allrightsreserved. Nopartofthispublicationmaybereproduced,storedinaretrievalsystemortransmittedinanyformorbyanymeans electronic,mechanical,photocopying,recordingorotherwisewithoutthepriorwrittenpermissionofthepublisher PermissionsmaybesoughtdirectlyfromElsevier’sScience&TechnologyRightsDepartmentinOxford,UK:phone(+44)(0) 1865843830;fax(+44)(0)1865853333;email:[email protected] onlinebyvisitingtheElsevierwebsiteathttp://elsevier.com/locate/permissions,andselectingObtainingpermissionto useElseviermaterial Notice Noresponsibilityisassumedbythepublisherforanyinjuryand/ordamagetopersonsorpropertyasamatterof productsliability,negligenceorotherwise,orfromanyuseoroperationofanymethods,products,instructionsorideas containedinthematerialherein.Becauseofrapidadvancesinthemedicalsciences,inparticular,independentverificationof diagnosesanddrugdosagesshouldbemade BritishLibraryCataloguinginPublicationData AcataloguerecordforthisbookisavailablefromtheBritishLibrary LibraryofCongressCatalogNumber AcatalogrecordforthisbookisavailablefromtheLibraryofCongress ISBN978-0-12-397195-1 ForinformationonallAcademicPresspublications visitourwebsiteathttp://store.elsevier.com/ TypesetbyTNQBooksandJournalsPvtLtd. www.tnq.co.in PrintedandboundintheUnitedStatesofAmerica 1415161718 10987654321 PREFACE TO FIRST EDITION ThisbookisbasedonacourseinprocessheattransferthatIhavetaughtformanyyears.Thecoursehasbeen taken by seniors and first-year graduate students who have completed an introductory course in engineering heattransfer.Althoughthisbackgroundisassumed,nearlyallstudentsneedsomereviewbeforeproceedingto more advanced material. For this reason, and also to make the book self-contained, the first three chapters provideareviewofessentialmaterialnormallycoveredinanintroductoryheattransfercourse.Furthermore,the bookisintendedforusebypracticingengineersaswellasuniversitystudents,andithasbeenwrittenwiththe aim of facilitatingself-study. Unlike some books in this field, no attempt is made herein to cover the entire panoply of heat transfer equipment. Instead, the book focuses on the types of equipment most widely used in the chemical process industries, namely, shell-and-tube heat exchangers (including condensers and reboilers), air-cooled heat exchangersanddouble-pipe (hairpin) heat exchangers. Within the confinesof asinglevolume, thisapproach allowsanin-depthtreatmentofthematerialthatismostrelevantfromanindustrialperspective,andprovides studentswiththedetailedknowledgeneededforengineeringpractice.Thisapproachisalsoconsistentwiththe time available inaone-semester course. Design of double-pipe exchangers is presented in Chapter 4. Chapters 5 to 7 comprise a unit dealing with shell-and-tube exchangers in operations involving single-phase fluids. Design of shell-and-tube exchangers is coveredinChapter5usingtheSimplifiedDelawaremethodforshell-sidecalculations.Forpedagogicalreasons, more sophisticated methods for performing shell-side heat-transfer and pressure-drop calculations are pre- sented separately in Chapter 6 (full Delaware method) and Chapter 7 (Stream Analysis method). Heat exchangernetworksarecoveredinChapter8.Inormallypresentthistopicatthispointinthecoursetoprovide a change of pace. However, Chapter 8 is essentially self-contained and can, therefore, be covered at any time. Phase-changeoperationsarecoveredinChapters9to11.Chapter9presentsthebasicsofboilingheattransfer andtwo-phaseflow.ThelatterisencounteredinbothChapter10,whichdealswiththedesignofreboilers,and Chapter11,whichcoverscondensationandcondenserdesign.Designofair-cooledheatexchangersispresented inChapter12.Thematerialinthischapterisessentiallyself-containedand,hence,itcanbecoveredatanytime. Sincetheprimarygoalofboththebookandthecourseistoprovidestudentswiththeknowledgeandskills neededformodernindustrialpractice,computerapplicationsplayanintegralrole,andthebookisintendedfor use with one or more commercial software packages. HEXTRAN (SimSci-Esscor), HTRI Xchanger Suite (Heat TransferResearch,Inc.)andtheHTFSSuite(AspenTechnology,Inc.)areusedinthebook,alongwithHX-Net (AspenTechnology,Inc.)forpinchcalculations.HEXTRANaffordsthemostcompletecoverageoftopics,asit handlesalltypesofheatexchangersandalsoperformspinchcalculationsfordesignofheatexchangernetworks. Itdoesnotperformmechanicaldesigncalculationsforshell-and-tubeexchangers,however,nordoesitgenerate detailedtube layoutsor settingplans. Furthermore, themethodologyusedbyHEXTRANisbasedon publicly availabletechnologyandisgenerallylessrefinedthanthatoftheothersoftwarepackages.TheHTRIandHTFS packagesuseproprietarymethodsdevelopedbytheirrespectiveresearchorganizations,andaresimilarintheir level of refinement. HTFS Suite handles all types of heat exchangers; it also performs mechanical design calculationsanddevelopsdetailedtubelayoutsandsettingplansforshell-and-tubeexchangers.HTRIXchanger Suitelacksamechanicaldesignfeature,andthemoduleforhairpinexchangersisnotincludedwithanacademic license. Neither HTRInor HTFS hasthe capability to performpinch calculations. Asofthiswriting,AspenTechnologyisnotprovidingtheTASCandACOLmodulesoftheHTFSSuiteunder itsuniversityprogram.Instead,itisofferingtheHTFS-plusdesignpackage.Thispackagebasicallyconsistsofthe TASCandACOLcomputationalenginescombinedwithslightlymodifiedGUI’sfromthecorrespondingBJAC ix x Preface tofirst edition programs (HETRAN and AEROTRAN),and packaged with the BJAC TEAMS mechanical design program. This packagediffersgreatlyinappearanceandtosomeextentinavailablefeaturesfromHTFSSuite.However,most of the results presentedin the text usingTASC and ACOLcan be generated using the HTFS-pluspackage. Software companies are continually modifying their products, making differences between the text and currentversionsofthe software packages unavoidable.However, manymodificationsinvolveonly superficial changesinformatthathavelittle,ifany,effectonresults.Moresubstantivechangesoccurlessfrequently,and even then the effects tend to be relatively minor. Nevertheless, readers should expect some divergence of the software from the versions used herein, and they should not be unduly concerned if their results differ somewhat from those presented in the text. Indeed, even the same version of a code, when run on different machines,can produce slightly differentresults dueto differencesin round-off errors. With thesecaveats, it is hopedthatthedetailedcomputerexampleswillprovehelpfulinlearningtousethesoftwarepackages,aswell as in understanding theiridiosyncrasies andlimitations. Ihavemadeaconcertedefforttointroducethecomplexitiesofthesubjectmattergraduallythroughoutthe bookinordertoavoidoverwhelmingthereaderwithamassiveamountofdetailatanyonetime.Asaresult, informationonshell-and-tubeexchangersisspreadoveranumberofchapters,andsomeofthefinerdetailsare introduced in the context of example problems, including computer examples. Although there is an obvious downside to thisstrategy,I nevertheless believe thatit represents good pedagogy. Both English units, which are still widely used by American industry, and SI units are used in this book. Students in the United States need to be proficient in both sets of units, and the same is true of students in countriesthatdoalargeamountofbusinesswithU.S.firms.Inordertominimizetheneedforunitconversion, however,workingequationsareeithergivenindimensionlessformor,whenthisisnotpractical,theyaregiven in both sets of units. Iwouldliketotakethisopportunitytothankthemanystudentswhohavecontributedtothiseffortoverthe years,bothdirectlyandindirectlythroughtheirparticipationinmycourse.Iwouldalsoliketoexpressmydeep appreciationtomycolleaguesintheDepartmentofChemicalandNaturalGasEngineeringatTAMUK,Dr.Ali Pilehvari and Mrs. Wanda Pounds. Without their help, encouragement, and friendship, this book would not have been written. PREFACE TO SECOND EDITION Thiseditionprovidesanimproveddiscussionofpracticalindustryconsiderationsinthedesignandoperationof processheatexchangers.ManyoftherevisionsarebasedonrecentadvancesofHTRIresearch,plustheongoing feedbackofprocessengineersandheat-exchangerdesignersviatheHTRITechnicalSupportGroup.Anumberof newexampleshavealsobeenincludedthatillustrateadditionalaspectsofheat-exchangerdesign.Thefollowing is asummary ofthe most importantadditions: l A section on radiation has been added in Chapter 2 to provide more complete coverage of heat transfer fundamentals. Materialon mixed convection andnon-ideal heat transfer fromfinshas alsobeenadded in thischapter. l AsectiononplateheatexchangershasbeenaddedinChapter3toprovidemorecompletecoverageofthe mostwidelyusedtypesofindustrialheatexchangers.Newmaterialonbafflesandshellselectioncriteriafor shell-and-tube exchangershas also been added. l Two examples involving the design of amulti-tubehairpin exchanger have been added in Chapter 4. l An example illustrating the significance of temperature profiles in the design of shell-and-tube heat exchangershas been added in Chapter5. l Asectioncoveringshell-side designguidelinesbasedon stream analysishasbeen added inChapter7,and Example 7.4hasbeen re-worked on this basis. Two new computer examples havealso been added. l InChapter 8, acase study has been added that illustrates the application of Pinch Analysis to a real-world process,the production ofgasolinefrom bio-ethanol. l AnewexamplehasbeenaddedinChapter10thatillustratessomeoftheunintendedconsequencesthatcan arise from the use of fouling factors in reboiler design. l In Chapter 11, a section on condenser venting, draining, and subcooling has been added. A new example comparingdifferentbaffleconfigurationsanddifferenttypesoftubingforcondensingapplicationshasalso been added, andExample 11.10 hasbeencompletely re-worked. l Anexampleinvolving the design of an air-cooled condenser hasbeenadded in Chapter12. Allmaterial pertainingto HTRI Xchanger Suite hasbeenupdatedto Version7.0,the most recent release at the timeofwriting.Wehavealsocorrectednumerouserrorsthatunfortunatelyescapedthereviewprocessforthe firstedition.Itisoursincerehopethattheserevisionswillenhancetheutilityofthebookforbothstudentsand practitioners of the subject. xi CONVERSION FACTORS Acceleration 1m/s2¼4.2520(cid:2)107ft/h2 Area 1m2¼10.764ft2 Density 1kg/m3¼0.06243lbm/ft3 Energy 1J¼0.239cal ¼9.4787(cid:2)l0e4Btu Force 1N¼0.22481lbf Foulingfactor 1m2$K/W¼5.6779h$ft2$(cid:3)F/Btu Heatcapacityflowrate 1kW/K¼1kW/(cid:3)C ¼1895.6Btu/h$(cid:3)F Heatflux 1W/m2¼0.3171Btu/h$ft2 Heatgenerationrate 1W/m3¼0.09665Btu/h$ft3 Heattransfercoefficient 1W/m2$K¼0.17612Btu/h$ft2$(cid:3)F Heattransferrate 1W¼3.4123Btu/h Kinematicviscosityandthermaldiffusivity 1m2/s¼3.875(cid:2)104ft2/h Latentheatandspecificenthalpy 1kJ/kg¼0.42995Btu/lbm Length 1m¼3.2808ft Mass 1kg¼2.2046lbm Massflowrate 1kg/s¼7936.6lbm/h Massflux 1kg/s$m2¼737.35lbm/h$ft2 Power 1kW¼3412Btu/h ¼1.341hp Pressure(stress) 1Pa(1N/m2)¼0.020886lbf/ft2 ¼1.4504(cid:2)10e4psi ¼4.015(cid:2)10e3in.H O 2 Pressure 1.01325(cid:2)105Pa¼1atm ¼14.696psi ¼760torr ¼406.8in.H O 2 Specificheat 1kJ/kg$K¼0.2389Btu/lbm$(cid:3)F Surfacetension 1N/m¼1000dyne/cm ¼0.068523lbf/ft Temperature K¼(cid:3)C+273.15 ¼(5/9)((cid:3)F+459.67) ¼(5/9)((cid:3)R) Temperaturedifference 1K¼1(cid:3)C ¼1.8(cid:3)F ¼1.8(cid:3)R Thermalconductivity 1W/m$K¼0.57782Btu/h$ft$(cid:3)F xiii xiv Conversion Factors Thermalresistance 1K/W¼0.52750(cid:3)F$h/Btu Viscosity 1kg/m$s¼1000cp ¼2419lbm/ft$h Volume 1m3¼35.314ft3 ¼264.17gal Volumetricflowrate 1m3/s¼2118.9ft3/min(cfm) ¼1.5850(cid:2)104gal/min(gpm) lbf:poundforceandlbm:poundmass. PHYSICAL CONSTANTS Quantity Symbol Value Universalgasconstant R~ 0.08205atm$m3/kmol$K 0.08314bar$m3/kmol$K 8314J/kmol$K 1.986cal/mol$K 1.986Btu/lbmole$(cid:1)R 10.73psia$ft3/lbmole$(cid:1)R 1545ft$lbf/lbmole$(cid:1)R Standardgravitationalacceleration g 9.8067m/s2 32.174ft/s2 4.1698(cid:3)108ft/h2 StefaneBoltzmanconstant sSB 5.670(cid:3)10e8W/m2$K4 1.714(cid:3)10e9Btu/h$ft2$(cid:1)R4 xv ACKNOWLEDGMENTS Item SpecialCreditLine Figure3.1 Reprinted,withpermission,fromExtendedSurfaceHeatTransferbyD.Q.KernandA.D.Kraus.Copyright(cid:1) 1972byTheMcGraw-HillCompanies,Inc. Table3.1 Reprinted,withpermission,fromPerry’sChemicalEngineers’Handbook,7thedn.,R.H.PerryandD.W.Green, eds.Copyright(cid:1)1997byTheMcGraw-HillCompanies,Inc. Figure3.6 Reprinted,withpermission,fromExtendedSurfaceHeatTransferbyD.Q.KernandA.D.Kraus.Copyright(cid:1) 1972byTheMcGraw-HillCompanies,Inc. Table3.2 Reproduced,withpermission,fromJ.W.PalenandJ.Taborek,Solutionofshellsideflowpressuredropand heattransferbystreamanalysismethod,Chem.Eng.Prog.SymposiumSeries,65,No.92,53e63,1969. Copyright(cid:1)1969byAIChE. Table3.5 Reprinted,withpermission,fromPerry’sChemicalEngineers’Handbook,7thedn.,R.H.PerryandD.W.Green, eds.Copyright(cid:1)1997byTheMcGraw-HillCompanies,Inc. Figure4.1 Copyright(cid:1)1998fromHeatExchangers:Selection,RatingandThermalDesignbyS.KakacandH.Liu. ReproducedbypermissionofTaylor&Francis,adivisionofInformaplc. Figure4.2 Copyright(cid:1)1998fromHeatExchangers:Selection,RatingandThermalDesignbyS.KakacandH.Liu. ReproducedbypermissionofTaylor&Francis,adivisionofInformaplc. Figure4.4 Reprinted,withpermission,fromExtendedSurfaceHeatTransferbyD.Q.KernandA.D.Kraus.Copyright(cid:1) 1972byTheMcGraw-HillCompanies,Inc. Figure4.5 Reprinted,withpermission,fromExtendedSurfaceHeatTransferbyD.Q.KernandA.D.Kraus.Copyright(cid:1) 1972byTheMcGraw-HillCompanies,Inc. Figure5.3 Copyright(cid:1)1988fromHeatExchangerDesignHandbookbyE.U.Schlünder,Editor-in-Chief.Reproducedby permissionofTaylor&Francis,adivisionofInformaplc. Figures6.1e6.5 Copyright(cid:1)1988fromHeatExchangerDesignHandbookbyE.U.Schlunder,Editor-in-Chief.Reproducedby permissionofTaylor&Francis,adivisionofInformapic. Table6.1 Copyright(cid:1)1988fromHeatExchangerDesignHandbookbyE.U.Schlünder,Editor-in-Chief.Reproducedby permissionofTaylor&Francis,adivisionofInformaplc. Figure6.10 Copyright(cid:1)1988fromHeatExchangerDesignHandbookbyE.U.Schlünder,Editor-in-Chief.Reproducedby permissionofTaylor&Francis,adivisionofInformaplc. Figure7.1 Reproduced,withpermission,fromJ.W.PalenandJ.Taborek,Solutionofshellsideflowpressuredropand heattransferbystreamanalysismethod,Chem.Eng.Prog.SymposiumSeries,65,No.92,53e63,1969. Copyright(cid:1)1969byAIChE. Table,p.283 Reproduced,withpermission,fromR.Mukherjee,Effectivelydesignshell-and-tubeheatexchangers,Chem. Eng.Prog.,94,No.2,21e37,1998.Copyright(cid:1)1998byAIChE. Figure8.20 ReprintedfromComputersandChemicalEngineering,Vol.26,X.X.ZhuandX.R.Nie,PressureDrop ConsiderationsforHeatExchangerNetworkGrassrootsDesign,pp.1661e1676,Copyright(cid:1)2002,with permissionfromElsevier. Figure9.2 Copyright(cid:1)1997fromBoilingHeatTransferandTwo-PhaseFlow,2ndedn.,byL.S.TongandY.S.Tang. ReproducedbypermissionofTaylor&Francis,adivisionofInformaplc. (Continued) xvii

Description:
Process Heat Transfer is a reference on the design and implementation of industrial heat exchangers. It provides the background needed to understand and master the commercial software packages used by professional engineers in the design and analysis of heat exchangers. This book focuses on types of
See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.