Verfügbarkeit: Gas cyclones and swirl tubes | Technische Universität München

Gas cyclones and swirl tubes: principles, design and operation

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Bibliographische Detailangaben
Beteiligte Personen:	Hoffmann, Alex C. (VerfasserIn), Stein, Louis E. (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin Springer 2008
Ausgabe:	2. ed.
Schlagwörter:	Gases > Separation Separators (Machines) Wirbelrohr Zyklonabscheider
Links:	http://deposit.dnb.de/cgi-bin/dokserv?id=3011803&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016160386&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XXVI, 422 S. Ill., graph. Darst. 235 mm x 155 mm
ISBN:	9783540746942 3540746943

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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION ............................................... 1 1.1 SOMEHISTORICALBACKGROUND.............................. 1 1.2 REMOVALOFPARTICLESFROMGASES........................... 6 1.2.1 FILTRATION ........................................ 8 1.2.2 WETSCRUBBERS.................................... 10 1.2.3 CENTRIFUGAL/CYCLONICDEVICES ....................... 11 1.2.4 KNOCK-OUTVESSELSANDSETTLINGCHAMBERS ............ 12 1.3 A CLOSER LOOK AT CENTRIFUGAL GAS CLEANING DEVICES.......... 12 1.3.1 APPLICATIONSOFCENTRIFUGALSEPARATORS ............... 13 1.3.2 CLASSIFICATIONOFCENTRIFUGALSEPARATORS............... 17 1.3.3 TWO MAIN CLASSES-CYCLONES AND SWIRL TUBES ........ 20 2B A S I C I D E A S ................................................ 23 2.1 GASFLOW............................................... 23 2.1.1 SWIRLINGFLOW..................................... 23 2.1.2 STATICANDDYNAMICPRESSURE ....................... 26 2.2 PARTICLEMOTION ......................................... 27 2.3 PARTICLESIZE ............................................ 32 2.3.1 DEFINITIONSOFPARTICLESIZE.......................... 32 2.3.2 PARTICLESIZEDISTRIBUTION........................... 33 2.4 PARTICLEDENSITY......................................... 37 2.A IDEALVORTEXLAWSFROMN-SEQS........................... 38 2.B MODELFUNCTIONSFORSIZEDISTRIBUTIONS ..................... 41 2.B.1 THENORMALDISTRIBUTION........................... 42 2.B.2 THELOG-NORMALDISTRIBUTION....................... 42 2.B.3 THEROSIN-RAMMLERDISTRIBUTION.................... 43 3H O W C Y C L O N E S W O R K ....................................... 45 3.1 FLOWINCYCLONES........................................ 45 3.1.1 GASFLOWPATTERN ................................. 45 3.1.2 PARTICLEFLOW ..................................... 49 XXII CONTENTS 3.2 SEPARATIONEFFICIENCY..................................... 51 3.2.1 OVERALLSEPARATIONEFFICIENCY ....................... 51 3.2.2 GRADE-EFFICIENCY .................................. 51 3.2.3 CONVERTING BETWEEN OVERALL EFFICIENCY AND CUT-SIZE.... 54 3.3 PRESSUREDROP........................................... 54 3.A WORKED EXAMPLE: CALCULATING A GRADE-EFFICIENCY CURVE ...... 56 4 CYCLONE FLOW PATTERN AND PRESSURE DROP .................. 59 4.1 DISCUSSION ............................................. 59 4.1.1 FLOWPATTERN ..................................... 60 4.1.2 PRESSUREDROP .................................... 61 4.2 MODELSFORTHEFLOWPATTERN.............................. 64 4.2.1 N-TYPEMODEL..................................... 65 4.2.2 BARTH............................................ 66 4.3 MODELSFORTHEPRESSUREDROP ............................ 70 4.3.1 MODELS BASED ON ESTIMATING THE DISSIPATIVE LOSS...... 71 4.3.2 COREMODEL....................................... 72 4.3.3 PURELYEMPIRICALMODELS........................... 77 4.4 MODELASSUMPTIONSINLIGHTOFCFDANDEXPERIMENT........ 78 4.5 OVERVIEW............................................... 82 4.A WORKED EXAMPLE FOR CALCULATING CYCLONE PRESSURE DROP...... 83 4.B THE MEISSNER AND L¨OFFLERMODEL........................... 85 5 CYCLONE SEPARATION EFFICIENCY .............................. 89 5.1 DISCUSSION.............................................. 89 5.2 MODELS................................................. 90 5.2.1 EQUILIBRIUM-ORBIT MODELS: THE MODEL OF BARTH......... 90 5.2.2 TIME-OF-FLIGHTMODELS ............................. 93 5.2.3 HYBRIDMODELS.................................... 96 5.2.4 COMPARINGTHEMODELS............................. 96 5.3 COMPARISON OF MODEL PREDICTIONSWITHEXPERIMENT. ......... 97 5.3.1 AGREEMENTWITHEXPERIMENTINGENERAL .............. 97 5.3.2 A CASE STUDY: THE EFFECT OF CYCLONE LENGTH .......... 98 5.4 OVERVIEW...............................................102 5.A WORKEDEXAMPLE,SEPARATIONPERFORMANCE..................103 5.B MODELS OF DIETZ AND OF MOTHES AND L¨OFFLER..................106 6 THE MUSCHELKNAUTZ METHOD OF MODELING ..................111 6.1 BASISOFTHEMODEL.......................................112 6.2 COMPUTATION OF THE INNER VORTEX CUT-POINT, X 50 .............118 6.3 COMPUTATION OF EFFICIENCY AT LOW SOLIDS LOADINGS ..........120 6.4 DETERMININGIFTHEMASSLOADINGEFFECTWILLOCCUR...........122 6.5 OVERALL SEPARATION EFFICIENCY WHEN C O C OL ................122 6.6 COMPUTATIONOFPRESSUREDROP............................124 6.A EXAMPLEPROBLEMS.......................................125 CONTENTS XXIII 6.A.1 DATA FROM HOFFMANN, PENG AND POSTMA (2001)........125 6.A.2 DATA FROM OBERMAIR AND STAUDINGER (2001)...........128 6.A.3 SIMULATION OF THE DATA FROM GREIF (1997).............129 6.B INCORPORATIONOFTHE INNERFEED ..........................133 7 COMPUTATIONAL FLUID DYNAMICS ............................139 7.1 SIMULATINGTHEGASFLOWPATTERN..........................140 7.1.1 SETTINGUPTHEFINITEDIFFERENCEEQUATIONS............140 7.1.2 TURBULENCEMODELS ................................142 7.1.3 SIMULATIONS.......................................143 7.2 SIMULATINGTHEPARTICLEFLOW..............................147 7.2.1 EULERIANMODELING.................................148 7.2.2 LAGRANGIANPARTICLETRACKING .......................148 7.2.3 3-DPARTICLETRACKS.................................148 7.3 SOME SIMULATIONS OF THE GAS AND PARTICLE FLOW IN CYCLONES...149 7.3.1 LES SIMULATIONS OF DERKSEN AND VAN DEN AKKER .......149 7.3.2 SOMEREMARKSONCFDINCYCLONES .................160 7.A TRANSPORTEQUATIONS.....................................161 8 DIMENSIONAL ANALYSIS AND SCALING RULES ...................163 8.1 CLASSICALDIMENSIONALANALYSIS............................164 8.1.1 SEPARATIONEFFICIENCY ..............................164 8.1.2 PRESSUREDROP ....................................167 8.2 SCALINGCYCLONESINPRACTICE ..............................168 8.2.1 APPROXIMATELY CONSTANT STK 50 OVER A WIDE RANGE OF RE 168 8.2.2 EU ONLY WEAKLY DEPENDENT ON RE ..................171 8.2.3 SOMEOTHERCONSIDERATIONS .........................172 8.2.4 STK - EU RELATIONSHIPS..............................173 8.A INSPECTINGTHEEQUATIONSOFMOTION........................176 8.A.1 EQUATIONOFMOTIONFORTHEGAS .....................176 8.A.2 EQUATIONOFMOTIONFORAPARTICLE....................176 8.B SAMPLECYCLONESCALINGCALCULATIONS.......................177 8.B.1 INLET VELOCITY FOR RE SIMILARITY......................177 8.B.2 PREDICTIONFROMSCALEMODEL........................178 9 OTHER FACTORS INFLUENCING PERFORMANCE ....................183 9.1 THEEFFECTOFSOLIDSLOADING..............................183 9.1.1 EFFECT ON SEPARATION EFFICIENCY OF CYCLONES ...........183 9.1.2 MODELS FOR EFFECT ON SEPARATION EFFICIENCY ............185 9.1.3 EFFECT ON THE SEPARATION EFFICIENCY OF SWIRL TUBES .....191 9.1.4 EFFECT ON THE PRESSURE DROP OF CYCLONES..............192 9.1.5 EFFECT ON THE PRESSURE DROP ACROSS SWIRL TUBES .......194 9.1.6 COMPUTING PERFORMANCE WITH HIGH LOADING ..........194 9.2 THEEFFECTOFTHENATURALVORTEXLENGTH ...................195 9.2.1 THENATUREOFTHEVORTEXEND ......................195 XXIV CONTENTS 9.2.2 WALLVELOCITYDUETOCOREPRECESSION................197 9.2.3 THESIGNIFICANCEOFTHEVORTEXEND .................199 9.2.4 MODELSFORTHENATURALVORTEXLENGTH ...............203 9.A PREDICTING THE EFFECT OF SOLIDS LOADING ON CYCLONE EFFICIENCY..205 9.B PREDICTING THE EFFECT OF LOADING ON CYCLONE PRESSURE DROP ...208 10 MEASUREMENT TECHNIQUES ..................................213 10.1 GASFLOWPATTERN .......................................216 10.2 PRESSUREDROP...........................................218 10.3 PARTICLEFLOW ...........................................219 10.4 OVERALLSEPARATIONEFFICIENCY..............................220 10.4.1 ON-LINESAMPLINGOFSOLIDS..........................221 10.5 GRADE-EFFICIENCY.........................................224 10.5.1 ON-LINE VS. OFF-LINESIZEANALYSIS...................224 10.5.2 SAMPLECAPTUREANDPREPARATION....................225 10.5.3 METHODSFORSIZEANALYSIS..........................226 10.AESTIMATEOFERRORS.......................................231 11 UNDERFLOW CONFIGURATIONS AND CONSIDERATIONS ..............235 11.1 UNDERFLOWCONFIGURATIONS.................................235 11.2 IMPORTANCEOFAGOODUNDERFLOWSEAL......................239 11.2.1 INLEAKAGEEXAMPLE ................................242 11.3 UPSETSCAUSEDBY TOOGOOD ANUNDERFLOWSEAL ............243 11.4 SECOND-STAGEDIPLEGSOLIDS BACKUP .......................246 11.5 HOPPER CROSSFLOW ......................................248 11.6 HOPPERVENTINGOPTIONS..................................250 11.ADIPLEGCALCULATION.......................................253 11.BMOMENT BALANCE ON FLAPPER VALVE PLATE ...................253 11.B.1EXAMPLE .........................................256 12 SOME SPECIAL TOPICS .......................................257 12.1 CYCLONEEROSION.........................................257 12.1.1 INLET TARGETZONE ................................257 12.1.2 LOWERCONESECTION................................260 12.1.3 VORTEXTUBEOUTERSURFACE.........................263 12.1.4 EROSIONPROTECTION ................................268 12.2 CRITICALDEPOSITIONVELOCITY...............................279 12.3 HIGHVACUUMCASE ......................................281 12.3.1 APPLICATION TO CYCLONE OR SWIRL TUBE SIMULATION ......282 12.AWORKED EXAMPLE FOR CRITICAL DEPOSITION VELOCITY ............283 12.BWORKEDEXAMPLEWITHSLIP ...............................283 CONTENTS XXV 13 DEMISTING CYCLONES ........................................287 13.1 LIQUIDCREEPAND LAYERLOSS .............................288 13.2 DEMISTINGCYCLONEDESIGNCONSIDERATIONS ..................290 13.3 SOME VAPOR-LIQUID CYCLONE DESIGN GEOMETRIES AND FEATURES..292 13.4 ESTIMATING INLET DROP SIZE FOR TWO-PHASE MIST-ANNULAR FLOW.299 13.4.1 ESTIMATINGDROPSIZEDISTRIBUTION ..................301 13.5 MODELING THE PERFORMANCE OF VAPOR-LIQUID CYCLONES .........302 13.5.1 COMPUTATIONOFCUTSIZE...........................302 13.5.2 COMPUTATION OF EFFICIENCY AT LOW INLET LOADINGS ......303 13.6 CRITERIA FOR DETERMINING IF MASS LOADING ( SALTATION ) OCCURS.303 13.6.1 OVERALL SEPARATION EFFICIENCY WHEN C O C OL ..........304 13.7 RE-ENTRAINMENTFROMDEMISTINGCYCLONES ..................305 13.7.1 RE-ENTRAINMENT MECHANISMS AND GOVERNING PARAMETERS 305 13.7.2 DATAFORRE-ENTRAINMENT ...........................308 13.AEXAMPLE CALCULATIONS OF DROPLET SIZES IN PIPE FLOW..........311 13.A.1FINDINGTHEMEANDROPLETSIZE......................311 13.A.2FINDINGTHEDROPLETSIZEDISTRIBUTION................312 13.BFLOW DISTRIBUTION IN PARALLEL DEMISTING CYCLONES............312 13.B.1CALCULATIONOFFLOWDISTRIBUTION ....................317 13.B.2CALCULATIONOFLIQUIDLEVELDIFFERENCE................317 13.CMETHOD FOR ESTIMATING WALL FILM THICKNESS AND VELOCITY.....318 13.C.1TWO-PHASE, CO-CURRENT, ANNULAR FORCE BALANCE, RESOLVEDINTHEAXIALDIRECTION .....................320 13.C.2FRICTIONFACTORSANDSHEARSTRESSES..................321 13.C.3FINAL FORM OF VOID FRACTION EQUATION................323 13.DEXAMPLECALCULATION .....................................324 14 FOAM-BREAKING CYCLONES ...................................327 14.1 INTRODUCTION............................................327 14.2 SOME DESIGN CONSIDERATIONS AND FACTORS INFLUENCING BEHAVIOR.330 14.3 APPLICATIONS............................................334 14.4 ESTIMATING SUBMERGENCE REQUIRED TO PREVENT GAS BLOW OUT 334 14.AEXAMPLE CALCULATION OF SUBMERGENCE REQUIRED..............340 15 DESIGN ASPECTS ............................................341 15.1 CYLINDER-ON-CONE CYCLONES WITH TANGENTIAL INLET ............341 15.1.1 SOMESTANDARDCYCLONEDESIGNS.....................341 15.1.2 DESIGNOFTHEINLET.................................342 15.1.3 DESIGNOFTHECONESECTION .........................349 15.1.4 SOLIDSOUTLETCONFIGURATIONS........................350 15.1.5 VORTEXFINDERGEOMETRIES ..........................353 15.1.6 CYCLONELENGTH ...................................363 15.1.7 CYCLONEROOF .....................................364 15.1.8 CYCLONEOPERATINGCONDITIONS ......................367 15.2 DESIGNOFSWIRLTUBESWITHSWIRLVANES ....................368 XXVI CONTENTS 15.2.1 DESIGNOFTHEINLETVANES...........................368 15.2.2 CALCULATIONOFINLET THROAT AREA ...................370 15.2.3 LENGTH OF THE SWIRL TUBE BODY AND THE SOLIDS EXIT ....372 15.AEXAMPLECALCULATIONOFTHETHROATAREA ...................373 15.BCONSTRUCTIONOFVANE CUT-OUT PATTERN....................374 16 MULTICYCLONE ARRANGEMENTS ................................381 16.1 CYCLONESINSERIES .......................................381 16.2 CYCLONESINPARALLEL......................................382 16.AEXAMPLE CALCULATION FOR MULTICYCLONE ARRANGEMENTS.........391 LIST OF SYMBOLS ................................................397 LIST OF TRADENAMES ............................................403 REFERENCES .....................................................405 INDEX ..........................................................411
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spellingShingle	Hoffmann, Alex C. Stein, Louis E. Gas cyclones and swirl tubes principles, design and operation Gases Separation Separators (Machines) Wirbelrohr (DE-588)4190000-5 gnd Zyklonabscheider (DE-588)4068316-3 gnd
subject_GND	(DE-588)4190000-5 (DE-588)4068316-3
title	Gas cyclones and swirl tubes principles, design and operation
title_auth	Gas cyclones and swirl tubes principles, design and operation
title_exact_search	Gas cyclones and swirl tubes principles, design and operation
title_full	Gas cyclones and swirl tubes principles, design and operation Alex C. Hoffmann ; Louis E. Stein
title_fullStr	Gas cyclones and swirl tubes principles, design and operation Alex C. Hoffmann ; Louis E. Stein
title_full_unstemmed	Gas cyclones and swirl tubes principles, design and operation Alex C. Hoffmann ; Louis E. Stein
title_short	Gas cyclones and swirl tubes
title_sort	gas cyclones and swirl tubes principles design and operation
title_sub	principles, design and operation
topic	Gases Separation Separators (Machines) Wirbelrohr (DE-588)4190000-5 gnd Zyklonabscheider (DE-588)4068316-3 gnd
topic_facet	Gases Separation Separators (Machines) Wirbelrohr Zyklonabscheider
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3011803&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016160386&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hoffmannalexc gascyclonesandswirltubesprinciplesdesignandoperation AT steinlouise gascyclonesandswirltubesprinciplesdesignandoperation

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