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ix | |
| Preface |
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xi | |
| In Memoriam Epbraim Sparrow |
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xv | |
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1 Heat transfer and pressure drop in the transition region of smooth horizontal circular tubes with different inlet configurations |
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1 | (54) |
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3 | (1) |
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2 Effect of inlet configuration and heating on plain tube friction factor |
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4 | (7) |
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3 Proposed correlations for laminar and transition friction factors |
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11 | (6) |
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4 Effect of inlet configuration on plain tube heat transfer |
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17 | (7) |
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5 Proposed correlations for laminar, transition, and turbulent heat transfer |
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24 | (6) |
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30 | (1) |
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7 Simultaneous heat transfer and friction factor analysis |
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31 | (3) |
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8 Transitional flow heat transfer works of Meyer and co-workers |
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34 | (4) |
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9 Transitional flow heat transfer works of Abraham and co-workers |
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38 | (2) |
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10 Transitional flow heat transfer works of Gnielinski |
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40 | (1) |
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11 Transitional flow heat transfer work of Taler |
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41 | (1) |
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12 Application of Ghajar and co-workers recommended friction factor and heat transfer correlations |
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42 | (4) |
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13 Application of Meyer and co-workers transitional flow heat transfer correlations |
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46 | (2) |
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14 Application of Abraham and co-workers and Gnielinski recommended friction factor and heat transfer correlations |
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48 | (2) |
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50 | (1) |
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51 | (1) |
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52 | (3) |
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2 Nanoparticle transport phenomena in confined flows |
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55 | (76) |
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58 | (1) |
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59 | (8) |
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3 Computational methods and implementation |
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67 | (7) |
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4 Illustrative examples of nanofluid studies and select applications |
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74 | (34) |
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108 | (1) |
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109 | (1) |
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109 | (22) |
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3 A review of the recent developments in laminar, transitional, quasi-turbulent and turbulent forced and mixed convective flow through horizontal tubes |
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131 | (76) |
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134 | (3) |
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2 Flow regime nomenclature |
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137 | (8) |
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3 Laminar forced convection thermal entrance length |
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145 | (2) |
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4 Local heat transfer in the laminar and transitional flow regimes |
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147 | (8) |
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5 Heat transfer in the transitional flow regime |
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155 | (12) |
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6 Pressure drop in the transitional flow regime |
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167 | (5) |
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7 Relationship between pressure drop and heat transfer |
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172 | (4) |
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8 Nusselt number correlations: laminar, transitional, quasi-turbulent and turbulent flow |
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176 | (6) |
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182 | (16) |
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198 | (2) |
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200 | (1) |
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201 | (6) |
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4 The spectral line weighted-sum-of-gray-gases (SLW) model for prediction of radiative transfer in molecular gases |
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207 | (92) |
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210 | (5) |
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2 Radiation transfer in gases |
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215 | (3) |
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3 The origin of the SLW method |
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218 | (11) |
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4 The SLW method in uniform media |
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229 | (27) |
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5 The SLW method in non-uniform media |
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256 | (32) |
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6 Application of the SLW model in practical scenarios |
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288 | (4) |
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292 | (1) |
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293 | (6) |
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5 Thermoelectric generators: A case study in multi-scale thermal engineering design |
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299 | (52) |
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301 | (9) |
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2 Analytical TEG models and impedance matching concepts |
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310 | (9) |
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3 Finite element simulations of thermocouples with temperature-independent properties |
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319 | (5) |
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4 Finite element simulations of thermocouples with temperature-dependent properties |
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324 | (4) |
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5 Finite element simulations of common thermoelectric material structures |
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328 | (5) |
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6 Implications for system design with nano-engineered thermoelectric and heat transfer materials |
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333 | (4) |
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7 Thermoelectric system economics |
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337 | (6) |
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343 | (2) |
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345 | (2) |
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347 | (1) |
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347 | (4) |
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6 Summary of forced-convection fluid flow and heat transfer for square cylinders of different aspect ratios ranging from the cube to a two-dimensional cylinder |
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351 | (100) |
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352 | (18) |
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370 | (9) |
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3 The computational details |
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379 | (9) |
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4 Two-dimensional hydrodynamic results |
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388 | (31) |
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5 Two-dimensional heat transfer results |
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419 | (15) |
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6 Three-dimensional results |
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434 | (15) |
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449 | (2) |
| References |
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451 | |
Daugiau apie elektronines knygas