Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook :: Электронная библиотека попечительского совета мехмата МГУ

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Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook

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Название: A heat transfer textbook

Авторы: Lienhardt J.H. IV, Lienhardt J.H. V

Аннотация:

This book is meant for students in their introductory heat transfer course — students who have learned calculus (through ordinary differential equations) and basic thermodynamics. We include the needed background in fluid mechanics, although students will be better off if they have had an introductory course in fluids. An integrated introductory course in thermofluid engineering should also be a sufficient background for the material here.

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Рубрика: Физика/Термодинамика, статистическая физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 3-rd edition

Год издания: 2008

Количество страниц: 750

Добавлена в каталог: 18.09.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Forced convection, cross flow      see "Cross flow"
Forced convection, cylinders      378—379
Forced convection, flat plates, laminar, uniform $q_{w}$       309—311
Forced convection, flat plates, laminar, uniform $T_{w}$       304—307
Forced convection, flat plates, turbulent      324—327
Forced convection, flat plates, unheated starting length      306
Forced convection, flat plates, variable property effects      308 326
Forced convection, spheres      684
Forced convection, tube bundles      381—384
Fourier (1955)      46
Fourier number      195
Fourier series conduction solutions      203—207
Fourier series conduction solutions, one-term approximations      218
Fourier's law      10—17 50—51
Fourier, J.B.J.      10
Fourier, The Analytical Theory of Heat      3 10 141
Fraas (1989)      128 136
Free convection      see "Natural convection"
Free molecule flow      619
Friction coefficient      see "Darcy — Weisbach friction factor" "Skin
Fried and Idelchik (1989)      128 136
Froeba, Will, and Leipertz (2000)      466 517
Froude number      157 503
Fujii and Imura (1972)      420 423 454
Fully developed flow      see "Internal flow"
Functional replacement method      150
Gardner and Taborek (1977)      117 136
Gardon (1953)      95 97
Gardon gage      95
Gaseous radiation      563—574
Gaseous radiation, absorption, scattering, and extinction coefficients      567
Gaseous radiation, Beer's law      567
Gaseous radiation, equation of transfer      569
Gaseous radiation, flames      34 574
Gaseous radiation, mean beam length      570
Gauss's theorem      55 293 628 667
Gebhart, Jaluria, Mahajan, and Sammakia (1988)      421 454
Ghai, Ertl, and Dullien (1973)      612 686
Giedt (1949)      377 395
Glasstone, Laidler, and Eyring (1941)      622 687
Gnielinski (1976)      361 394
Gnielinski equation      361
Goldstein (1938)      405 407 453
Graetz (1885)      352 394
Graetz number      352
Granville (1989)      321 338
Granville (1990)      321 338
Grashof number      403
Grashof number for mass transfer      646
Grashof, F.      403
Gravity, $g_{eff}$ for condensation      436
Gravity, effect on boiling      492
Gravity, g-jitter      417
Gravity, standard acceleration of      719
Gray body      527—529 534—536 549—563
Gray body, electrical analogy for heat exchange      549—559
Gray body, transfer factor      see "Transfer factor"
Greenhouse effect      579—581
Gregorig, Kern, and Turek (1974)      441 442 456
Gungor and Winterton (1987)      501 503 521
Haaland (1983)      363 394
Hagan — Poiseuille flow      348
Hagan, G.      348
Hahne and Grigull (1975)      244—246 266
Halocline      674
Hansen, Ruedy, Sato, Imhoff, Lawrence, Easterling, Peterson, and Karl (2001)      580 593
Harvey, Peskin, and Klein (2000)      693-695
Hatfield and Edwards (1981)      423 454
Heat      3
heat capacity      see "Specific heat capacity"
Heat conduction      see "Conduction"
Heat convection      see "Convection"
Heat diffusion equation, multidimensional      49—56
Heat diffusion equation, one-dimensional      17—19
Heat exchangers      99—129
Heat exchangers with variable U      17 114
Heat exchangers, counterflow      99 108 123
Heat exchangers, cross-flow      100 118 124
Heat exchangers, design of      126—129
Heat exchangers, effectiveness-NTU method      120—126
Heat exchangers, function and configuration      99—103
Heat exchangers, logarithmic mean temperature difference      see "Logarithmic mean temperature difference"
Heat exchangers, mean temperature difference in      103—113
Heat exchangers, microchannel      351
Heat exchangers, parallel flow      99 108 123
Heat exchangers, relationship to isothermal pipe flow      367—369
Heat exchangers, shell-and-tube      100 118 124
Heat exchangers, single-stream limit      125—126 368
Heat flux, defined      10—13
Heat pipes      509—512
Heat pipes, merit number      510
Heat transfer      3
Heat transfer coefficient      19—20
Heat transfer coefficient, average      20 306—307
Heat transfer coefficient, effect of mass transfer      663—669
Heat transfer coefficient, overall      78—85
Heat transfer, modes of      10—34
Heisler (1947)      208 265
Heisler charts      208
Helmholtz instability      474—477
Hennecke and Sparrow (1970)      174 175 191
Henry's law      631
Herzberg (1989)      566 592
Hewitt (1982)      504 521
Hewitt (1998)      48 128 136 467 487 518
Hirschfelder, Bird, and Spotz (1948)      617 686
Hirschfelder, Curtiss, and Bird (1964)      614 615 619 686
Ho, Powell, and Liley (1974)      692—694
Hohlraum      28
Hot-wire anemometer      380 393
Hottel and Sarofim (1967)      47 570 574 592
Houghton (1985)      576 593
Howell (2001)      542 592
Hsu (1962)      467 517
Hsu and Graham (1986)      47
Hydraulic diameter      368 370—373
Hydrodynamic theory of CHF      see "Peak Heat Flux"
Ideal gas law for mixtures      602
Ideal solution      631
Incompressible flow      277—278 292 629 678
Indices, method of      150
Initial condition      142
Insulation, critical radius of      72—74
Insulation, superinsulation      14
Integral conservation equations for energy      300—304
Integral conservation equations for momentum      286—289
Intensity of radiation      531—533
Interdiffusion coefficient      639
Interfacial boundary conditions      630—634
Internal flow, bulk energy equation      345
Internal flow, bulk enthalpy      343
Internal flow, bulk temperature      343—346
Internal flow, bulk temperature, for uniform $q_{w}$       349
Internal flow, bulk temperature, for uniform $T_{w}$       367—369
Internal flow, bulk velocity      343
Internal flow, entry length, laminar hydrodynamic      347
Internal flow, entry length, laminar thermal      351—352
Internal flow, entry length, turbulent      355—356
Internal flow, friction factor, laminar flow      359
Internal flow, friction factor, turbulent flow      358—364
Internal flow, fully developed, hydrodynamically      343 347—348
Internal flow, fully developed, thermally      343—346
Internal flow, hydraulic diameter      368
Internal flow, laminar heat transfer, developing flow      351—354
Internal flow, laminar heat transfer, uniform $q_{w}$ , fully developed      348—351
Internal flow, laminar heat transfer, uniform $T_{w}$ , fully developed      351
Internal flow, laminar temperature profiles      345—346
Internal flow, laminar velocity profile, developing flow      343
Internal flow, laminar velocity profile, fully developed      347—348
Internal flow, noncircular ducts      370—374

Internal flow, turbulent      355—367
Internal flow, turbulent heat transfer      357—367
Internal flow, turbulent heat transfer, Gnielinski equation      361
Internal flow, turbulent heat transfer, liquid metals      365—367
Internal flow, turbulent heat transfer, rough walls      362—364
Internal flow, turbulent heat transfer, variable property effects      361
Internal flow, turbulent transition      273
International Association for the Properties of Water and Steam (1994)      465 517
Iqbal (1983)      575 593
Irradiance      549
Jacobsen, Penonceilo, Breyerlein, Clark, and Lemmon (1992)      693 696
Jakob (1949)      46
Jakob number      428
Jakob, M.      230 428
Jasper (1972)      466 517
Jeglic (1962)      215 265
Jeglic, Switzer, and Lienhard (1980)      215 265
Juhasz (1973)      271 338
Jupiter, atmosphere of      673
Kadambi and Drake (1959)      423 455
Kadoya, Matsunaga, and Nagashima (1985)      693 696
Kalidasa, Abhijnana Sakuntala      725
Kalish and Dwyer (1967)      383 396
Kandlikar (1990)      499 501 503 520
Kandlikar and Nariai (1999)      501 515 521
Kandlikar, Tian, Yu, and Koyama (1999)      501 521
Karimi (1977)      440 441 456
Katto (1978)      505 521
Katto and Ohne (1984)      505 521
Kaviany (1995)      47
Kays and Crawford (1993)      46 351 352 373 393
Kays and London (1984)      47 121 122 128 136
Kheyrandish and Lienhard (1985)      495 520
Kinetic theory of gases, average molecular speed      614
Kinetic theory of gases, Chapman — Enskog theory      615
Kinetic theory of gases, diffusion coefficient, elementary model      610—611
Kinetic theory of gases, diffusion coefficient, exact      615—617
Kinetic theory of gases, limitations of      619
Kinetic theory of gases, mean free path      297 614
Kinetic theory of gases, thermal conductivity, elementary model      297—298
Kinetic theory of gases, thermal conductivity, gas mixtures      625
Kinetic theory of gases, thermal conductivity, monatomic gas      624
Kinetic theory of gases, viscosity, elementary model      297—298
Kinetic theory of gases, viscosity, gas mixtures      624
Kinetic theory of gases, viscosity, monatomic gas      624
King, Hsueh, and Mao (1965)      622 687
Kirchhoff's law      533—536
Kirchhoff, G.R.      533
Kolmogorov scales of turbulence      336
Kraus (1955)      414 415 453
Kraus, Aziz, and Welty (2001)      181 191
Kreith and Kreider (1978)      581 593
Kreith(1973)      356 357 394
Kutateladze (1948)      479 518
l'Hospital's rule      112
Laesecke, Krauss, Stephan, and Wagner (1990)      692—695
Lamb (1945)      476 518 621 687
Laplace's equation      235
Laplacian      56 235
Lardner, D., The Steam Engine Familiarly Explained and Illustrated      99
Leibnitz's rule      287
Lemmon, Jacobsen, Penoncello, and Friend (2000)      693 696
Lemmon, McLinden, and Friend (2000)      693 696
Lemmon, Peskin, McLinden, and Friend (2000)      693 695
Lennard — Jones intermolecular potential      615—617
Leonard, Sun, and Dix (1976)      487 519
Lewis (1922)      666 687
Lewis number      609
Lewis, W.K.      609 643 666
Li and Chang (1955)      621 687
Libby (1996)      330 339
Lienhard (1966)      375 376 395
Lienhard (1973)      420 453
Lienhard and Dhir (1973)      479 480 484 518
Lienhard and Witte (1985)      491 519
Lienhard and Wong (1964)      488 519
Lienhard, Dhir, and Riherd (1973)      479 484 518
Liquid metal heat transfer in tube bundles      383—384
Liquid metal heat transfer in tubes      365—367
Liquid metal heat transfer, effect of Pr      299—300
Liquid metal heat transfer, laminar boundary layer      305—307
Lloyd and Moran (1974)      422 454
Logarithmic mean temperature difference (LMTD)      103—120
Logarithmic mean temperature, correction factors      114—120
Logarithmic mean temperature, defined      111
Logarithmic mean temperature, limitations on      113—114
Lord Rayleigh (J.W. Strutt)      151
Lubarsky and Kaufman (1955)      365 367 395
Lummer, O.R.      30
Lumped capacity solutions      22—26 194—202
Lumped capacity solutions in natural convection      411—412
Lumped capacity solutions with heat generation      145
Lumped capacity solutions with variable ambient temperature      198—199 263
Lumped capacity solutions, dimensional analysis of      195—196
Lumped capacity solutions, electrical/mechanical analogies      196—198
Lumped capacity solutions, second order      199—202
Lyon (1952)      367 395
Mach number      308
Madhusudana (1996)      66 96
Mamer and Suitor (1987)      84 97
Marrero and Mason (1972)      612 654 686
Marto (1998)      442 443 456 506 507 522
Mason and Saxena (1958)      625 687
Mass average velocity      604
Mass conservation      see "Conservation of mass"
Mass diffusion equation      638
Mass exchangers      683
Mass flux      604
Mass fraction      600
Mass fraction in the transferred state      656
Mass transfer      597—673
Mass transfer coefficients      640—648 654—662
Mass transfer coefficients at low rates      640—648
Mass transfer coefficients at low rates, analogy of heat and mass transfer      641—648
Mass transfer coefficients, defined      641
Mass transfer coefficients, effect of mass transfer rate on      658—660
Mass transfer coefficients, variable property effects      669
Mass transfer driving force      655—657
Mass transfer driving force at low rates      661—662
Mass transfer driving force, one species transferred      641 657
Mass transfer with simultaneous heat transfer      663—673
Mass transfer, analogy to heat transfer      63 635—648
Mass transfer, evaporation      663—666 672
Mass transfer, forced convective      640—645 654—662
Mass transfer, natural convective      645—648
Mass transfer, through a stagnant layer      648—654
Mass transfer, through a stagnant layer, mass-based solution      659
Material derivative      294
McAdams (1954)      46
McCarty and Arp (1990)      694 697
Mean beam length      570
Mean free path      297
Mean free path, rigid sphere molecules      614
Mehendale, Jacobi, and Shah (2000)      351 393
Melville, H., Moby Dick      341
Meyer, McClintock, Silvestri, and Spencer (1993)      692—694
Microchannel heat exchanger      351
Millat, Dymond, and Nieto de Castro (1996)      619 625 686
Mills (1998)      667 688
Mills (1999)      207 265
Mills (2001)      48 669 673 688
Mixed convection      426
Mixing-cup temperature      see "Bulk temperature"
Mixtures of ideal gases      602—603
Mixtures, binary      609
Mixtures, composition of      600—603
Mixtures, molecular weight of      601
Mixtures, specific heat of      627
Mixtures, transport properties      614—627
Mixtures, transport properties, gas diffusion coefficients      614—620

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