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| 200 | 1 |
_aHeat transfers and related effects in supercritical fluids _fby Bernard Zappoli, Daniel Beysens, Yves Garrabos. |
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| 210 |
_aDordrecht _cSpringer _dcop. 2015 |
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| 215 |
_a1 vol. (xv-454 p.) _cill., couv. ill. en coul. _d24 cm |
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| 225 | 0 |
_aFluid Mechanics and Its Applications _x0926-5112 _v108 |
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| 327 | 1 |
_aPreface _a1 General Introduction to Near-Critical and Supercritical Fluids _aI Thermomechanical Effects _a1 Bridging Gas and Near-Critical Fluid Dynamics _a2 Bridging Gas and Near-Critical Fluid Dynamics _a3 Temperature and Density Equilibration _a4 Heat Transfer _aII Heat Transfer Experiments Performed in Weightless Conditions _a5 Quick Overview of Some Test Cells _a6 The Pancake Test Cell _a7 Heat Transport by the Piston Effect: Experiments _a8 Coexisting Liquid–Vapor Phases _aIII Effects of a Steady-State Acceleration Field _a9 Interaction Between the Piston Effect and Gravitational Convection _a10 Rayleigh–B´enard and Rayleigh–Taylor Instabilities _a11 Experiments in a weak acceleration field and on Earth _aIV Influence of Time-Dependent Acceleration Fields _a12 Response to Low-Frequency Vibrations: Solid-Like Behavior _a13 Thermovibrational Effect _aV Appendices |
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| 330 | _aThis book investigates the unique hydrodynamics and heat transfer problems that are encountered in the vicinity of the critical point of fluids. Emphasis is given on weightlessness conditions, gravity effects and thermovibrational phenomena. Near their critical point, fluids indeed obey universal behavior and become very compressible and expandable. Their comportment, when gravity effects are suppressed, becomes quite unusual. The problems that are treated in this book are of interest to students and researchers interested in the original behavior of near-critical fluids as well as to engineers that have to manage supercritical fluids. A special chapter is dedicated to the present knowledge of critical point phenomena. Specific data for many fluids are provided, ranging from cryogenics (hydrogen) to high temperature (water). Basic information in statistical mechanics, mathematics and measurement techniques is also included. The basic concepts of fluid mechanics are given for the non-specialists to be able to read the parts he is interested in. Asymptotic theory of heat transfer by thermoacoustic processes is provided with enough details for PhD students or researchers and engineers to begin in the field. Key space are described in details, with many comparisons between theory and experiments to illustrate the topics | ||
| 410 |
_0013546678 _tFluid mechanics and its applications _x0926-5112 _v108 |
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| 452 |
_0183096118 _tHeat Transfers and Related Effects in Supercritical Fluids _fby Bernard Zappoli, Daniel Beysens, Yves Garrabos. _sFluid Mechanics and Its Applications |
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| 606 |
_aEngineering _2lc |
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| 606 |
_aHydraulic engineering _2lc |
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| 606 |
_3027372332 _aTransfert de chaleur _2rameau |
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| 606 |
_302944988X _aFluides supercritiques _2rameau |
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| 606 |
_3027492982 _aHydrodynamique _2rameau |
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| 606 |
_3027393348 _aPhysique statistique _2rameau |
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| 606 |
_3027675505 _aTransitions de phases _2rameau |
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| 676 |
_a620.1064 _v23 |
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| 680 | _aTA357-359 | ||
| 700 | 1 |
_3078808456 _aZappoli _bBernard _4070 |
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| 701 | 1 |
_3050134272 _aBeysens _bDaniel _f1945-.... _4070 |
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| 701 | 1 |
_3128800313 _aGarrabos _bYves _4070 |
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