Verfügbarkeit: Principles of heat transfer in porous media

Principles of heat transfer in porous media:

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Bibliographische Detailangaben
1. Verfasser:	Kaviany, Massoud (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York u.a. Springer 1995
Ausgabe:	2. ed.
Schriftenreihe:	Mechanical engineering series
Schlagworte:	Calor e temperatura Heat > Transmission Porous materials > Thermal properties Poröser Stoff Zweiphasenströmung Wärmeübertragung Einphasenströmung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 708 S. Ill., graph. Darst.
ISBN:	0387945504

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Datensatz im Suchindex

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adam_text	CONTENTS SERIES PREFACE VII PREFACE IX PREFACE TO SECOND EDITION XI ACKNOWLEDGMENTS XIII 1 INTRODUCTION 1 1.1 HISTORICAL BACKGROUND 2 1.2 LENGTH, TIME, AND TEMPERATURE SCALES 7 1.3 SCOPE 11 1.4 REFERENCES 12 PART I SINGLE-PHASE FLOW 15 2 FLUID MECHANICS 17 2.1 STOKES FLOW AND DARCY EQUATION 17 2.2 POROSITY 20 2.3 PORE STRUCTURE 24 2.4 PERMEABILITY 28 2.4.1 CAPILLARY MODELS 29 2.4.2 HYDRAULIC RADIUS MODEL 32 2.4.3 DRAG MODELS FOR PERIODIC STRUCTURES 34 2.5 HIGH REYNOLDS NUMBER FLOWS 45 2.5.1 MACROSCOPIC MODELS 45 2.5.2 MICROSCOPIC FLUID DYNAMICS 48 2.5.3 TURBULENCE 51 2.6 BRINKMAN SUPERPOSITION OF BULK AND BOUNDARY EFFECTS ... 52 2.7 LOCAL VOLUME-AVERAGING METHOD 53 2.7.1 LOCAL VOLUME AVERAGES 55 2.7.2 THEOREMS 56 2.7.3 MOMENTUM EQUATION 58 2.8 HOMOGENIZATION METHOD 61 2.8.1 CONTINUITY EQUATION 63 2.8.2 MOMENTUM EQUATION 64 2.9 SEMIHEURISTIC MOMENTUM EQUATIONS 66 2.10 SIGNIFICANCE OF MACROSCOPIC FORCES 68 2.10.1 MACROSCOPIC HYDRODYNAMIC BOUNDARY LAYER .... 69 2.10.2 MACROSCOPIC ENTRANCE LENGTH 70 2.11 POROUS PLAIN MEDIA INTERFACIAL BOUNDARY CONDITIONS .... 71 2.11.1 SLIP BOUNDARY CONDITION 72 2.11.2 ON BEAVERS-JOSEPH SLIP COEFFICIENT 75 2.11.3 TAYLOR-RICHARDSON RESULTS FOR SLIP COEFFICIENT .... 78 2.11.4 SLIP COEFFICIENT FOR A TWO-DIMENSIONAL STRUCTURE . . 79 2.11.5 NO-SLIP MODELS USING EFFECTIVE VISCOSITY 92 2.11.6 VARIABLE EFFECTIVE VISCOSITY FOR A TWO-DIMENSIONAL STRUCTURE 95 2.11.7 VARIABLE PERMEABILITY FOR A TWO-DIMENSIONAL STRUCTURE 98 2.12 VARIATION OF POROSITY NEAR BOUNDING IMPERMEABLE SURFACES 101 2.12.1 DEPENDENCE OF AVERAGE POROSITY ON LINEAR DIMENSIONS OF SYSTEM 101 2.12.2 LOCAL POROSITY VARIATION 102 2.12.3 VELOCITY NONUNIFORMITIES DUE TO POROSITY VARIATION 104 2.12.4 VELOCITY NONUNIFORMITY FOR A TWO-DIMENSIONAL STRUCTURE 106 2.13 ANALOGY WITH MAGNETO-HYDRODYNAMICS 112 2.14 REFERENCES 114 3 CONDUCTION HEAT TRANSFER 119 3.1 LOCAL THERMAL EQUILIBRIUM 120 3.2 LOCAL VOLUME AVERAGING FOR PERIODIC STRUCTURES 121 3.2.1 LOCAL VOLUME AVERAGING 122 3.2.2 DETERMINATION OF B F AND B S 125 3.2.3 NUMERICAL VALUES FOR B F AND B S 126 3.3 PARTICLE CONCENTRATIONS FROM DILUTE TO POINT CONTACT .... 127 3.4 AREAL CONTACT BETWEEN PARTICLES CAUSED BY COMPRESSIVE FORCE 128 3.4.1 EFFECT OF RAREFACTION 134 3.4.2 DEPENDENCE OF GAS CONDUCTIVITY ON KNUDSEN NUMBER 134 3.5 STATISTICAL ANALYSES 135 3.5.1 A VARIATIONAL FORMULATION 136 3.5.2 A THERMODYNAMIC ANALOGY 138 3.6 SUMMARY OF CORRELATIONS 144 3.7 ADJACENT TO BOUNDING SURFACES 145 3.7.1 TEMPERATURE SLIP FOR A TWO-DIMENSIONAL STRUCTURE 149 3.7.2 VARIABLE EFFECTIVE CONDUCTIVITY FOR A TWO-DIMENSIONAL STRUCTURE 151 3.8 ON GENERALIZATION 152 3.9 REFERENCES 153 4 CONVECTION HEAT TRANSFER 157 4.1 DISPERSION IN A TUBEHYDRODYNAMIC DISPERSION 157 4.1.1 NO MOLECULAR DIFFUSION 159 4.1.2 MOLECULAR DIFFUSION INCLUDED 159 4.1.3 ASYMPTOTIC BEHAVIOR FOR LARGE ELAPSED TIMES . . . 160 4.1.4 TURBULENT FLOW 163 4.2 DISPERSION IN POROUS MEDIA 164 4.3 LOCAL VOLUME AVERAGE FOR PERIODIC STRUCTURES 166 4.3.1 LOCAL VOLUME AVERAGING FOR K S = 0 167 4.3.2 REDUCTION TO TAYLOR-ARIS DISPERSION 171 4.3.3 EVALUATION OF U AND B 172 4.3.4 RESULTS FOR K S = 0 AND IN-LINE ARRANGEMENT 174 4.3.5 RESULTS FOR K S =0 AND GENERAL ARRANGEMENTS 175 4.4 THREE-DIMENSIONAL PERIODIC STRUCTURES 183 4.4.1 UNIT-CELL AVERAGING 184 4.4.2 EVALUATION OF U , B, AND D 187 4.4.3 COMPARISON WITH EXPERIMENTAL RESULTS 190 4.4.4 EFFECT OF DARCEAN VELOCITY DIRECTION 191 4.5 DISPERSION IN DISORDERED STRUCTURESSIMPLIFIED HYDRODYNAMICS 192 4.5.1 SCHEIDEGGER DYNAMIC AND GEOMETRIC MODELS .... 193 4.5.2 DE JOSSELIN DE JONG PURELY GEOMETRIC MODEL .... 196 4.5.3 SAFFMAN INCLUSION OF MOLECULAR DIFFUSION 197 4.5.4 HORN METHOD OF MOMENTS 200 4.6 DISPERSION IN DISORDERED STRUCTURES*PARTICLE HYDRODYNAMICS 205 4.6.1 LOCAL VOLUME AVERAGING 205 4.6.2 LOW PECLET NUMBERS 207 4.6.3 HIGH PECLET NUMBERS 209 4.6.4 CONTRIBUTION OF SOLID HOLDUP (MASS TRANSFER) .... 210 4.6.5 CONTRIBUTION DUE TO THERMAL BOUNDARY LAYER IN FLUID 212 4.6.6 COMBINED EFFECT OF ALL CONTRIBUTIONS 213 4.7 PROPERTIES OF DISPERSION TENSOR 215 4.8 EXPERIMENTAL DETERMINATION OF D 217 4.8.1 EXPERIMENTAL METHODS 217 4.8.2 ENTRANCE EFFECT 225 4.8.3 EFFECT OF PARTICLE SIZE DISTRIBUTION 227 4.8.4 SOME EXPERIMENTAL RESULTS AND CORRELATIONS .... 227 4.9 DISPERSION IN OSCILLATING FLOW 232 4.9.1 FORMULATION AND SOLUTION 234 4.9.2 LONGITUDINAL DISPERSION COEFFICIENT 237 4.10 DISPERSION ADJACENT TO BOUNDING SURFACES 237 4.10.1 TEMPERATURE-SLIP MODEL 240 4.10.2 NO-SLIP TREATMENTS 242 4.10.3 MODELS BASED ON MIXING-LENGTH THEORY 247 4.10.4 A MODEL USING PARTICLE-BASED HYDRODYNAMICS . . . 253 4.10.5 RESULTS OF A TWO-DIMENSIONAL SIMULATION 254 4.11 REFERENCES 254 5 RADIATION HEAT TRANSFER 259 5.1 CONTINUUM TREATMENT 260 5.2 RADIATION PROPERTIES OF A SINGLE PARTICLE 264 5.2.1 WAVELENGTH DEPENDENCE OF OPTICAL PROPERTIES . . . . 264 5.2.2 SOLUTION TO MAXWELL EQUATIONS 268 5.2.3 SCATTERING EFFICIENCY AND CROSS SECTION 277 5.2.4 MIE SCATTERING 278 5.2.5 RAYLEIGH SCATTERING 279 5.2.6 GEOMETRIC- OR RAY-OPTICS SCATTERING 279 5.2.7 COMPARISON OF PREDICTIONS 283 5.3 RADIATIVE PROPERTIES: DEPENDENT AND INDEPENDENT 292 5.4 VOLUME AVERAGING FOR INDEPENDENT SCATTERING 302 5.5 EXPERIMENTAL DETERMINATION OF RADIATIVE PROPERTIES .... 305 5.5.1 MEASUREMENTS 305 5.5.2 MODELS USED TO INTERPRET EXPERIMENTAL RESULTS . . . 309 5.6 BOUNDARY CONDITIONS 311 5.6.1 TRANSPARENT BOUNDARIES 311 5.6.2 OPAQUE DIFFUSE EMITTING/REFLECTING BOUNDARIES . . 311 5.6.3 OPAQUE DIFFUSELY EMITTING SPECULARLY REFLECTING BOUNDARIES 312 5.6.4 SEMITRANSPARENT NONEMITTING SPECULARLY REFLECTING BOUNDARIES 312 5.7 SOLUTION METHODS FOR EQUATION OF RADIATIVE TRANSFER .... 313 5.7.1 TWO-FLUX APPROXIMATIONS, QUASI-ISOTROPIC SCATTERING 313 5.7.2 DIFFUSION (DIFFERENTIAL) APPROXIMATION 317 5.7.3 SPHERICAL HARMONICS-MOMENT (P-N) APPROXIMATION 318 5.7.4 DISCRETE-ORDINATES (S-N) APPROXIMATION 322 5.7.5 FINITE-VOLUME METHOD 327 5.8 SCALING (SIMILARITY) IN RADIATIVE HEAT TRANSFER 327 5.8.1 SIMILARITY BETWEEN PHASE FUNCTIONS 327 5.8.2 SIMILARITY BETWEEN ANISOTROPIC AND ISOTROPIC SCATTERING 331 5.9 NONCONTINUUM TREATMENT: MONTE CARLO SIMULATION 333 5.9.1 OPAQUE PARTICLES 335 5.9.2 SEMITRANSPARENT PARTICLES 337 5.9.3 EMITTING PARTICLES 338 5.10 GEOMETRIC, LAYERED MODEL 339 5.11 RADIANT CONDUCTIVITY MODEL 340 5.11.1 CALCULATION OF F 341 5.11.2 EFFECT OF SOLID CONDUCTIVITY 343 5.12 MODELING DEPENDENT SCATTERING 346 5.12.1 MODELING DEPENDENT SCATTERING FOR LARGE PARTICLES 346 5.13 SUMMARY 359 5.14 REFERENCES 360 6 MASS TRANSFER IN GASES 365 6.1 KNUDSEN FLOWS 367 6.2 FICK DIFFUSION 369 6.3 KNUDSEN DIFFUSION 370 6.4 CROSSED DIFFUSION 370 6.5 PREDICTION OF TRANSPORT COEFFICIENTS FROM KINETIC THEORY . 371 6.5.1 FICK DIFFUSIVITY IN PLAIN MEDIA 371 6.5.2 KNUDSEN DIFFUSIVITY FOR TUBE FLOWS 372 6.5.3 SLIP SELF-DIFFUSIVITY FOR TUBE FLOWS 373 6.5.4 ADSORPTION AND SURFACE FLUX 373 6.6 DUSTY-GAS MODEL FOR TRANSITION FLOWS 376 6.7 LOCAL VOLUME-AVERAGED MASS CONSERVATION EQUATION .... 377 6.8 CHEMICAL REACTIONS 380 6.9 EVALUATION OF TOTAL EFFECTIVE MASS DIFFUSIVITY TENSOR .... 383 6.9.1 EFFECTIVE MASS DIFFUSIVITY 383 6.9.2 MASS DISPERSION TENSOR 385 6.10 EVALUATION OF LOCAL VOLUME-AVERAGED SOURCE TERMS .... 385 6.10.1 HOMOGENEOUS REACTION 386 6.10.2 HETEROGENEOUS REACTION 386 6.11 LOCAL CHEMICAL NONEQUILIBRIUM 387 6.12 MODIFICATIONS TO ENERGY EQUATION 388 6.13 REFERENCES 389 7 TWO-MEDIUM TREATMENT 391 7.1 LOCAL PHASE VOLUME AVERAGING FOR STEADY FLOWS 392 7.1.1 ALLOWING FOR DIFFERENCE IN AVERAGE LOCAL TEMPERATURES 392 7.1.2 EVALUATION OF [B] AND TY] 394 7.1.3 ENERGY EQUATION FOR EACH PHASE 395 7.1.4 EXAMPLE: AXIAL TRAVEL OF THERMAL PULSES 398 7.2 INTERFACIAL CONVECTIVE HEAT TRANSFER COEFFICIENT H SF 401 7.2.1 MODELS BASED ON H SF 402 7.2.2 EXPERIMENTAL DETERMINATION OF H SF 403 7.3 DISTRIBUTED TREATMENT OF OSCILLATING FLOW 404 7.4 CHEMICAL REACTION 409 7.4.1 TWO-DIMENSIONAL DIRECT SIMULATION 411 7.4.2 VOLUME-AVERAGED MODELS 413 7.4.3 INTERFACIAL NUSSELT NUMBER 416 7.4.4 COMPARISON OF RESULTS OF VARIOUS TREATMENTS .... 418 7.5 REFERENCES 424 PART II TWO-PHASE FLOW 425 8 FLUID MECHANICS 427 8.1 ELEMENTS OF PORE-LEVEL FLOW STRUCTURE 430 8.1.1 SURFACE TENSION 432 8.1.2 CONTINUOUS PHASE DISTRIBUTION 442 8.1.3 DISCONTINUOUS PHASE DISTRIBUTIONS 445 8.1.4 CONTACT LINE 448 8.1.5 THIN EXTENSION OF MENISCUS 455 8.2 LOCAL VOLUME AVERAGING 459 8.2.1 EFFECT OF SURFACE TENSION GRADIENT 464 8.3 A SEMIHEURISTIC MOMENTUM EQUATION 465 8.3.1 INERTIAL REGIME 465 8.3.2 LIQUID-GAS INTERFACIAL DRAG 466 8.3.3 COEFFICIENTS IN MOMENTUM EQUATIONS 468 8.4 CAPILLARY PRESSURE 471 8.4.1 HYSTERESIS 471 8.4.2 MODELS 474 8.5 RELATIVE PERMEABILITY 478 8.5.1 CONSTRAINT ON APPLICABILITY 479 8.5.2 INFLUENCING FACTORS 479 8.5.3 MODELS 484 8.6 MICROSCOPIC INERTIAL COEFFICIENT 488 8.7 LIQUID-GAS INTERFACIAL DRAG 490 8.8 IMMISCIBLE DISPLACEMENT 492 8.8.1 INTERFACIAL INSTABILITIES 495 8.8.2 BUCKLEY-LEVERETT FRONT 497 8.8.3 STABILITY OF BUCKLEY-LEVERETT FRONT 500 8.9 FLUID-SOLID TWO-PHASE FLOW 501 8.10 REFERENCES 502 9 THERMODYNAMICS 507 9.1 THERMODYNAMICS OF SINGLE-COMPONENT CAPILLARY SYSTEMS . 507 9.1.1 WORK OF SURFACE FORMATION 507 9.1.2 FIRST AND SECOND LAWS OF THERMODYNAMICS 508 9.1.3 THICKNESS OF INTERFACIAL LAYER 510 9.2 EFFECT OF CURVATURE IN SINGLE-COMPONENT SYSTEMS 511 9.2.1 VAPOR PRESSURE REDUCTION 513 9.2.2 REDUCTION OF CHEMICAL POTENTIAL 513 9.2.3 INCREASE IN HEAT OF EVAPORATION 514 9.2.4 LIQUID SUPERHEAT 516 9.2.5 CHANGE IN FREEZING TEMPERATURE 517 9.2.6 CHANGE IN TRIPLE-POINT TEMPERATURE 518 9.3 MULTICOMPONENT SYSTEMS 519 9.3.1 SURFACE TENSION OF SOLUTION 519 9.3.2 VAPOR PRESSURE REDUCTION 520 9.4 INTERFACIAL THERMODYNAMICS OF MENISCUS EXTENSION 521 9.5 CAPILLARY CONDENSATION 523 9.5.1 ADSORPTION BY SOLID SURFACE 524 9.5.2 CONDENSATION IN A MESOPOROUS SOLID 529 9.6 PREDICTION OF FLUID BEHAVIOR IN SMALL PORES 532 9.6.1 PHASE TRANSITION IN SMALL PORES: HYSTERESIS 533 9.6.2 STABILITY OF LIQUID FILM IN SMALL PORES: HYSTERESIS . 539 9.7 REFERENCES 542 10 CONDUCTION AND CONVECTION 545 10.1 LOCAL VOLUME AVERAGING OF ENERGY EQUATION 545 10.1.1 AVERAGING 545 10.1.2 EFFECTIVE THERMAL CONDUCTIVITY AND DISPERSION TENSORS 550 10.2 EFFECTIVE THERMAL CONDUCTIVITY 551 10.2.1 ANISOTROPY 553 10.2.2 CORRELATIONS 554 10.3 THERMAL DISPERSION 555 10.3.1 ANISOTROPY 557 10.3.2 MODELS 558 10.3.3 CORRELATIONS FOR LATERAL DISPERSION COEFFICIENT .... 563 10.3.4 DISPERSION NEAR BOUNDING SURFACES 569 10.4 REFERENCES 569 11 TRANSPORT THROUGH BOUNDING SURFACES 571 11.1 EVAPORATION FROM HEATED LIQUID FILM 571 11.1.1 SIMPLE MODEL FOR TRANSITION REGION 573 11.1.2 INCLUSION OF CAPILLARY MENISCUS 575 11.2 MASS DIFFUSION ADJACENT TO A PARTIALLY SATURATED SURFACE . 578 11.2.1 LARGE KNUDSEN NUMBER MODEL 580 11.2.2 SMALL KNUDSEN NUMBER MODEL 582 11.3 CONVECTION FROM HETEROGENEOUS PLANAR SURFACES 587 11.3.1 MASS TRANSFER FROM A SINGLE STRIP 587 11.3.2 SIMULTANEOUS HEAT AND MASS TRANSFER FROM MULTIPLE SURFACE SOURCES 588 11.4 CONVECTION FROM HETEROGENEOUS TWO-DIMENSIONAL SURFACES 589 11.4.1 A SIMPLE SURFACE MODEL 590 11.4.2 EXPERIMENTAL OBSERVATION ON SIMULTANEOUS HEAT AND MASS TRANSFER 596 11.5 SIMULTANEOUS HEAT AND MASS TRANSFER FROM PACKED BEDS . . 599 11.6 REFERENCES 601 12 PHASE CHANGE 603 12.1 CONDENSATION AT VERTICAL IMPERMEABLE BOUNDING SURFACES . 603 12.1.1 THICK LIQUID-FILM REGION (DL/D 1) 605 12.1.2 THIN LIQUID-FILM REGION (DL T /D~ 1) 613 12.2 EVAPORATION AT VERTICAL IMPERMEABLE BOUNDING SURFACES . . 614 12.3 EVAPORATION AT HORIZONTAL IMPERMEABLE BOUNDING SURFACES 615 12.3.1 EFFECT OF BOND NUMBER 616 12.3.2 A ONE-DIMENSIONAL ANALYSIS FOR BO 1 619 12.4 EVAPORATION AT THIN POROUS-LAYER COATED SURFACES 624 12.5 MOVING EVAPORATION OR CONDENSATION FRONT 627 12.5.1 TEMPERATURES EQUAL TO OR LARGER THAN SATURATION TEMPERATURE 631 12.5.2 TEMPERATURES BELOW SATURATION TEMPERATURE .... 638 12.5.3 CONDENSATION FRONT MOVING INTO DRY POROUS MEDIA 644 12.6 MELTING AND SOLIDIFICATION 654 12.6.1 SINGLE-COMPONENT SYSTEMS 656 12.6.2 MULTICOMPONENT SYSTEMS 658 12.7 REFERENCES 671 NOMENCLATURE 677 GLOSSARY 683 CITATION INDEX 689 SUBJECT INDEX 697
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illustrated	Illustrated
indexdate	2024-07-09T17:54:23Z
institution	BVB
isbn	0387945504
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-007011953
oclc_num	32550222
open_access_boolean
owner	DE-91 DE-BY-TUM DE-91G DE-BY-TUM DE-20 DE-703 DE-634 DE-83
owner_facet	DE-91 DE-BY-TUM DE-91G DE-BY-TUM DE-20 DE-703 DE-634 DE-83
physical	XXII, 708 S. Ill., graph. Darst.
publishDate	1995
publishDateSearch	1995
publishDateSort	1995
publisher	Springer
record_format	marc
series2	Mechanical engineering series
spelling	Kaviany, Massoud Verfasser aut Principles of heat transfer in porous media M. Kaviany 2. ed. New York u.a. Springer 1995 XXII, 708 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mechanical engineering series Calor e temperatura larpcal Heat Transmission Porous materials Thermal properties Poröser Stoff (DE-588)4046811-2 gnd rswk-swf Zweiphasenströmung (DE-588)4068223-7 gnd rswk-swf Wärmeübertragung (DE-588)4064211-2 gnd rswk-swf Einphasenströmung (DE-588)4151367-8 gnd rswk-swf Poröser Stoff (DE-588)4046811-2 s Wärmeübertragung (DE-588)4064211-2 s Zweiphasenströmung (DE-588)4068223-7 s DE-604 Einphasenströmung (DE-588)4151367-8 s OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007011953&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kaviany, Massoud Principles of heat transfer in porous media Calor e temperatura larpcal Heat Transmission Porous materials Thermal properties Poröser Stoff (DE-588)4046811-2 gnd Zweiphasenströmung (DE-588)4068223-7 gnd Wärmeübertragung (DE-588)4064211-2 gnd Einphasenströmung (DE-588)4151367-8 gnd
subject_GND	(DE-588)4046811-2 (DE-588)4068223-7 (DE-588)4064211-2 (DE-588)4151367-8
title	Principles of heat transfer in porous media
title_auth	Principles of heat transfer in porous media
title_exact_search	Principles of heat transfer in porous media
title_full	Principles of heat transfer in porous media M. Kaviany
title_fullStr	Principles of heat transfer in porous media M. Kaviany
title_full_unstemmed	Principles of heat transfer in porous media M. Kaviany
title_short	Principles of heat transfer in porous media
title_sort	principles of heat transfer in porous media
topic	Calor e temperatura larpcal Heat Transmission Porous materials Thermal properties Poröser Stoff (DE-588)4046811-2 gnd Zweiphasenströmung (DE-588)4068223-7 gnd Wärmeübertragung (DE-588)4064211-2 gnd Einphasenströmung (DE-588)4151367-8 gnd
topic_facet	Calor e temperatura Heat Transmission Porous materials Thermal properties Poröser Stoff Zweiphasenströmung Wärmeübertragung Einphasenströmung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007011953&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kavianymassoud principlesofheattransferinporousmedia

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