Verfügbarkeit: Transport modeling for environmental engineers and scientists

Transport modeling for environmental engineers and scientists:

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1. Verfasser:	Clark, Mark M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2009
Ausgabe:	2. ed.
Schlagworte:	Environmental chemistry / Mathematical models Transport theory / Mathematical models Mathematisches Modell Transportprozess Ökologische Chemie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXX, 630 S. Ill., graph. Darst.
ISBN:	9780470260722 0470260726

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MARC


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Datensatz im Suchindex

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adam_text	TRANSPORT MODELING FOR ENVIRONMENTAL ENGINEERS AND SCIENTISTS SECOND EDITION MARK M. CLARK ($)WILEY A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE ACKNOWLEDGMENTS LIST OF SYMBOLS 1 CONSERVATION LAWS AND CONTINNA 1.1. INTRODUCTION, 1 1.2. CONSERVATION LAWS: SYSTEMS APPROACH, 2 1.3. CONSERVATION LAWS: CONTROL VOLUME APPROACH, 4 1.4. CONSERVATION LAWS: DIFFERENTIAL ELEMENT APPROACH, 10 1.5. CONTINUA, 14 1.6. SOURCES, SINKS, REACTIONS, AND BOX MODELS, 18 1.7. SUMMARY, 20 EXERCISES, 21 REFERENCES, 32 BIBLIOGRAPHY, 32 2 LOW-CONCENTRATION PARTICLE SNSPENSIONS AND FLOWS 2.1. INTRODUCTION, 33 2.2. DRAG ON A SPHERE, 34 2.3. DRAG FORCE ON NONSPHERICAL PARTICLES, 37 2.4. LOW REYNOLDS NUMBER PARTICLE DYNAMICS AND STOKES LAW, 39 2.5. PARTICLE MOTIONS IN ELECTRIC FIELDS, 43 XV XVII XIX 1 33 VII VIII 2.6. QUIESCENT AND PERFECT-MIX BATCH SEDIMENTATION, 45 2.7. CONTINUOUS SEDIMENTATION PROEESSES, 48 2.8. INERTIAL FOREES ON PARTICLES AND STOPPING DISTANCE, 55 2.9. INERTIAL FOREES IN PARTICLE FLOWS, 56 2.10. ROTATING FLOWS, 59 2.11. CENTRIFUGATION, 62 2.12. SUMMARY, 66 EXERCISES. 68 REFERENEES, 81 BIBLIOGRAPHY, 82 CONTENTS 3 INTERACTIONS OF SMALL CHARGED PARTICLES 3.1. INTRODUCTION, 83 3.2. IMPORTANCE OF SURFAEE, 85 3.3. AEQUISITION OF SURFAEE CHARGE, 88 3.3.1. HYDROSOLS, 89 3.3.2. AEROSOLS, 91 3.4. PARTICLE SIZE, SHAPE, AND POLYDISPERSITY, 91 3.5. THE DOUBLE LAYER AND COLLOIDAL STABILITY, 96 3.5.1. DEBYE-HUECKEL MODEL OF THE DOUBLE LAYER, 97 3.5.2. OVERLAPPING DOUBLE LAYERS AND INTERPARTICLE REPULSION, 101 3.5.3. VAN DER WAALS FOREES AND THE DLVO THEORY, 103 3.6. THE SEHULZE-HARDY RULE, 106 3.7. ELEETROPHORESIS AND ZETA POTENTIAL, 108 3.8. PARTICLE COLLISION AND FAST COAGULATION, 112 3.8.1. THE GENERAL DYNAMIC EQUATION, 112 3.8.2. COLLISION-FREQUENEY FUNETIONS, 114 3.8.3. SIMPLIFIED DISCRETE PARTICLE DYNAMICS, 119 3.8.4. SIMPLE KINETICS WITH MASS CONSERVATION, 120 3.8.5. SIMPLE KINETICS WITH MASS CONSERVATION AND BREAKUP, 123 3.9. SLOW COAGULATION, 125 3.10. SUMMARY, 128 EXERCISCS, 129 REFERENCES, 133 BIBLIOGRAPHY, 134 4 ADSORPTION, PARTITIONING, AND INTERFACES 4.1. INTRODUCTION, 135 4.2. ACCUMULATION OF SOLUTES AT INTERFACES, 136 4.2.1. GIBBS ADSORPTION ISOTHERM, 136 4.2.2. ORIENTATION OF LARGE MOLECULES AT INTERFACES, 141 4.3. ADSORPTION AT SOLID-LIQUID AND SOLID-GAS INTERFACES, 145 83 135 CONTENTS 4.4. ADSORPTION ISOTHERMS, 147 4.5. LINEAR EQUILIBRIUM PARTITIONING BETWEEN TWO PHASES, 157 4.5.1. DALTON S AND RAOULT S LAWS, 157 4.5.2. HENRY S LAW AND PARTITION COEFFICIENTS, 160 4.5.3. MASS BALANCES AND THE PARTITION COEFFICIENT, 163 4.6. PARTITIONING AND SEPARATION IN FLOW SYSTEMS, 165 4.7. SUMMARY, 168 EXERCISES, 169 REFERENCES, 172 BIBLIOGRAPHY, 173 IX 5 BASIC FLUID MECHANICS OF ENVIRONMENTAL TRANSPORT 175 5.1. INTRODUCTION, 175 5.2. THE JOY OF FLUID MECHANICS, 176 5.3. THE NAVIER-STOKES EQUATIONS, 179 5.4. FLUID STATICS AND THE BUOYANCY FORCE, 181 5.5. CAPILLARITY AND INTERFACIAL TENSION, 185 5.6. THE MODIFIED PRESSURE AND FREE-SURFACE FLOWS, 189 5.7. STEADY UNIDIRECTIONAL FLOWS AND STEADY CIRCULAR STREAMLINE FLOWS, 190 5.8. FLUID SHEAR STRESSES AND THE VISCOSITY OF NEWTONIAN FLUIDS, 194 5.9. SLIP FLOW, 196 5.10. FIELD-FLOW FRACTIONATION, 198 5.11. NONSTEADY UNIDIRECTIONAL FLOWS: STOKES FIRST PROBLEM, 200 5.12. LOW REYNOLDS NUMBER FLOWS, 203 5.12.1. THE REYNOLDS NUMBER AND THE STOKES EQUATION, 203 5.12.2. SPHERE IN AXISYMMETRIC LOW RE FLOW: STOKES DRAG LAW, 205 5.12.3. FLOW THROUGH POROUS MEDIA, 208 5.13. IDEAL FLUIDS, POTENTIAL FLOWS, AND STREAM FUNCTIONS, 212 5.13.1. INVISCID FLOWS AND THE EULER EQUATION, 212 5.13.2. IRROTATIONAL FLOWS AND THE VELOCITY-POTENTIAL FUNCTION, 212 5.13.3. THE STREAM FUNCTION, 213 5.14. THE BERNOULLI EQUATION, 217 5.15. STEADY VISCOUS MOMENTUM BOUNDARY LAYERS, 223 5.16. TURBULENT FLOWS, 229 5.16.1. CHARACTERISTICS OF TURBULENCE, 230 5.16.2. REYNOLDS AVERAGING, 234 5.16.3. REYNOLDS STRESSES AND THE CLOSURE PROBLEM, 237 5.16.4. EDDY VISCOSITY AND THE MIXING-LENGTH MODEL, 239 5.16.5. ADVANCED TURBULENCE MODELING: THE K-E MODEL, 241 X CONTENTS 5.16.6. ISOTROPIE TURBULENCE AND KOLMOGOROFF S UNIVERSAL EQUILIBRIUM RANGE, 242 5.16.7. FLOW THROUGH CYLINDRIEAL CONDUITS, 244 5.16.8. TURBULENT BOUNDARY LAYERS AND UNIVERSAL VELOCITY LAWS,247 5.17. SUMMARY, 250 EXEREISES, 251 REFERENCES, 265 BIBLIOGRAPHY, 267 268 6 DIFFNSIVC MASS TRANSPORT 6.1. INTRODUETION, 268 6.2. THERMODYNAMIES OF DIFFUSION, 269 6.3. FICK S FIRST LAW AND GENERAL DIFFUSIVE TRANSPORT, 271 6.4. THE DIFFUSION COEFFICIENT, 275 6.4.1. CLASSICAL APPROACHES, 275 6.4.2. EFFECT OF SOLUTION CONDITIONS ON DIFFUSION COEFFICIENT, 280 6.4.3. KNUDSEN DIFFUSION, 282 6.5. STEADY-STATE DIFFUSION PROBLEMS WITH NO OVERALL DIFFUSIVE MASS TRANSFER, 283 6.6. STEADY-STATE MASS BALANCES OVER DIFFERENTIAL ELEMENTS, 284 6.6.1. DIFFUSION OF ONE GAS THROUGH ANOTHER STAGNANT GAS, 284 6.6.2. DIFFUSION WITH HETEROGENEOUS REACTION AT THE PARTICLE SURFAEE, 289 6.6.3. BROWNIAN COAGULATION AS A STEADY, DIFFUSION-LIMITED, HETEROGENEOUS REACTION, 295 6.6.4. DIFFUSION WITH HOMOGENEOUS FIRST-ORDER REACTION, 296 6.7. FIEK S SECOND LAW AND NONSTEADY-STATE DIFFUSION, 298 6.7.1. FICK S SEEOND LAW, 298 6.7.2. DIFFUSION FROM A PLANE SOUREE, 300 6.7.3. DIFFUSION IN A SEMI-INFINITE MEDIUM WITH CONSTANT BOUNDARY CONEENTRATION, 304 6.7.4. DIFFUSION AND PARTITIONING INTO A HOMOGENEOUS SPHERE, 306 6.8. EFFECTIVE DIFFUSION COEFFICIENTS IN POROUS MEDIA, 309 6.9. HINDERED DIFFUSION, 313 6.10. WHEN CHEMIEALS DIFFUSE AGAINST A CONEENTRATION GRADIENT, 315 6.11. SUMMARY, 317 EXERCISES, 318 RCFERENEES, 333 BIBLIOGRAPHY, 335 336 CONTENTS 7 CONVECTIVE DIFFUSION, DISPERSION, AND MASS TRANSFER 7.1. INTRODUCTION AND SIMPLE EXAMPLE OF CONVECTIVE DIFFUSION, 336 7.2. THE CONVECTIVE-DIFFUSION EQUATION, 340 7.3. MASS TRANSPORT IN STEADY LAMINAR FLOW IN A CYLINDRICAL TUBE, 342 7.4. TAYLOR-ARIS DISPERSION, 352 7.5. TURBULENT DISPERSION: THE LAGRANGIAN APPROACH, 353 7.6. TURBULENT DISPERSION: THE EULERIAN APPROACH, 359 7.7. MASS TRANSFER IN LAMINAR FLOW ALONG REACTING OR DISSOLVING SOLID SURFACES, 364 7.7.1. FLAT PLATE WITH FAST HETEROGENEOUS REACTION OR CONSTANT SURFACE CONCENTRATION, 365 7.7.2. LAMINAR TUBE FLOW WITH FAST HETEROGENEOUS REACTION OR CONSTANT SURFACE CONCENTRATION, 372 7.7.3. LAMINAR FLOW PAST SPHERE WITH FAST HETEROGENEOUS REACTION OR CONSTANT SURFACE CONCENTRATION, 377 7.8. MASS-TRANSFER COEFFICIENTS, MODELS, AND CORRELATIONS FOR LAMINAR AND TURBULENT FLOWS, 381 7.8.1. MASS-TRANSFER COEFFICIENTS AND THE SHERWOOD NUMBER, 382 7.8.2. MASS-TRANSFER MODELS AND ANALOGIES, 384 7.8.3. MASS-TRANSFER CORRELATIONS AND CALCULATIONS, 394 7.9. INTERPHASE MASS TRANSPORT AND RESISTANCE MODELS, 403 7.9.1. NONSTEADY-STATE MASS TRANSFER TO PARTICLE, 404 7.9.2. STEADY-STATE INTERPHASE MASS TRANSFER WITH HOMOGENEOUS REACTION IN ONE PHASE, 407 7.9.3. STEADY-STATE INTERPHASE MASS TRANSFER WITH HETEROGENEOUS REACTION, 410 7.9.4. TWO-FILM MODELS, LIMITING FORMS, AND GAS ABSORPTION, 416 7.10. SUMMARY, 424 EXERCISES, 424 REFERENCES, 434 XI 8 FILTRATION AND MASS TRANSPORT IN POROUS MEDIA 8.1. INTRODUCTION, 437 8.2. POROSITY, VELOCITY, AND POROUS MEDIA CONTINUA, 440 8.3. COEFFICIENTS OF MECHANICAL, MOLECULAR, AND HYDRODYNAMIC DISPERSION, 443 8.4. POROUS MEDIA DISPERSION EQUATION IN A HOMOGENEOUS ISOTROPIE MEDIUM, 446 437 XII CONTENTS 8.5. SOLUTION OF THE DISPERSION EQUATION IN AN INFINITE ONE- DIMENSIONAL MEDIUM, 448 8.6. ANALYTICAL CHROMATOGRAPHY, 453 8.7. FILTRATION, 460 8.7.1. CLASSIC CAPTURE MECHANISMS FOR ISOLATED COLLECTORS, 460 8.7.2. EFFECT OF ADJACENT COLLECTORS ON LOCAL FLOW HELD,472 8.7.3. HYDRODYNAMIC RETARDATION, 473 8.7.4. COLLECTION EFFICIENCIES FOR FIBROUS AND GRANULAR FILTERS, 474 8.7.5. ATTACHMENT PROBABILITY, 476 8.7.6. HEAD LOSS THROUGH FILTER BEDS AND MATS, 477 8.8. OSMOTIC PRESSURE AND REVERSE OSMOSIS, 478 8.8.1. OSMOSIS, 478 8.8.2. REVERSE OSMOSIS, 485 8.9. SUMMARY, 488 EXERCISES, 489 REFERENCES, 493 BIBLIOGRAPHY, 494 9 REAETION KINETICS 9.1. INTRODUCTION, 495 9.2. FIRST-ORDER REACTIONS, 496 9.3. SECOND-ORDER REACTIONS, 503 9.4. PSEUDO-FIRST-ORDER REACTIONS, 507 9.5. ZERO-ORDER REACTIONS, 508 9.6. ELEMENTARY AND NONELEMENTAI-Y REACTIONS, 509 9.7. SIMPLE SERIES AND PARALLEL REACTIONS, 512 9.8. REVERSIBLE REACTIONS, 517 9.9. CHARACTERISTIC REACTION TIMES, 523 9.10. ARRHENIUS LAW AND THE EFFECT OFTEMPERATURE ON REACTION RATE, 525 9.11. THE FASTEST REACTIONS: DIFFUSION-CONTROLLED REACTIONS, 527 9.12. SUMMARY, 528 EXERCISES. 529 REFERENCES, 536 BIBLIOGRAPHY, 537 495 10 MIXING AND REACTOR MODELING 538 10.1. INTRODUCTION, 538 10.2. SIMPLE CLOSED-REACTOR AND RESIDENCE-TIME DISTRIBUTIONS, 539 10.3. MEASUREMENT OF RESIDENCE-TIME DISTRIBUTIONS, 546 10.4. RESIDENCE-TIME DISTRIBUTIONS TROM DISCRETE DATA, 550 CONTENTS XIII 10.5. PERFEET MIXING AND IDEAL PLUG FLOW, 555 10.6. F, W, AND DISINFECTION, 561 10.7. MOMENTS OF RESIDENCE-TIME DISTRIBUTIONS, 563 10.8. OTHER RESIDENCE-TIME MODELS, 567 10.8.1. TANKS IN SERIES, 567 10.8.2. GAMMA-FUNCTION EXTENSION TO TANKS-IN-SERIES MODEL,569 10.8.3. FRACTIONAL TUBULARITY, 571 10.8.4. CROSSFLOW AND STAGNANCY, 574 10.8.5. RECYCLE MODELS, 575 10.9. AXIAL-DISPERSION MODEL, 580 10.10. FITTING RESIDENCE-TIME DISTRIBUTIONS TO DATA, 581 10.11. MIXING AND REACTIONS, 583 10.11.1. REACTION PROBABILITIES AND CONVERSION FOR FIRST-ORDER REACTIONS, 583 10.11.2. CONVERSION FOR SECOND-ORDER REACTIONS, 590 10.11.3. COMPLETE SEGREGATION AND MICROMIXING, 592 10.11.4. PLUG FLOW VERSUS PERFEET MIXING, 596 10.12. SUMMARY, 597 EXERCISES, 598 REFERENCES, 605 BIBLIOGRAPHY, 605 APPENDIX I. SI UNITS AND PHYSICAL CONSTANTS BIBLIOGRAPHY, 607 APPENDIX 11. REVIEW OF VECTORS BIBLIOGRAPHY, 615 606 608 APPENDIX 111. EQUATIONS OF FLUID MECHANICS AND CONVECTIVE DIFFUSION IN RECTANGULAR, CYLINDRICAL, AND SPHERICAL COORDINATES 616 BIBLIOGRAPHY, 619 APPENDIX IV. PHYSICAL PROPERTIES OF WATER AND AIR BIBLIOGRAPHY, 621 INDEX 620 622
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spelling	Clark, Mark M. Verfasser aut Transport modeling for environmental engineers and scientists Mark M. Clark 2. ed. Hoboken, NJ Wiley 2009 XXX, 630 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Environmental chemistry / Mathematical models Transport theory / Mathematical models Mathematisches Modell Mathematisches Modell (DE-588)4114528-8 gnd rswk-swf Transportprozess (DE-588)4185932-7 gnd rswk-swf Ökologische Chemie (DE-588)4135167-8 gnd rswk-swf Ökologische Chemie (DE-588)4135167-8 s Transportprozess (DE-588)4185932-7 s Mathematisches Modell (DE-588)4114528-8 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018937192&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Clark, Mark M. Transport modeling for environmental engineers and scientists Environmental chemistry / Mathematical models Transport theory / Mathematical models Mathematisches Modell Mathematisches Modell (DE-588)4114528-8 gnd Transportprozess (DE-588)4185932-7 gnd Ökologische Chemie (DE-588)4135167-8 gnd
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title	Transport modeling for environmental engineers and scientists
title_auth	Transport modeling for environmental engineers and scientists
title_exact_search	Transport modeling for environmental engineers and scientists
title_full	Transport modeling for environmental engineers and scientists Mark M. Clark
title_fullStr	Transport modeling for environmental engineers and scientists Mark M. Clark
title_full_unstemmed	Transport modeling for environmental engineers and scientists Mark M. Clark
title_short	Transport modeling for environmental engineers and scientists
title_sort	transport modeling for environmental engineers and scientists
topic	Environmental chemistry / Mathematical models Transport theory / Mathematical models Mathematisches Modell Mathematisches Modell (DE-588)4114528-8 gnd Transportprozess (DE-588)4185932-7 gnd Ökologische Chemie (DE-588)4135167-8 gnd
topic_facet	Environmental chemistry / Mathematical models Transport theory / Mathematical models Mathematisches Modell Transportprozess Ökologische Chemie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018937192&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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