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131105s2013 enka o 000 0 eng d |
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|a CDX
|b eng
|e pn
|c CDX
|d IDEBK
|d OPELS
|d N$T
|d OCLCQ
|d UPM
|d CUS
|d OCLCF
|d UIU
|d OCLCQ
|d EBLCP
|d DEBSZ
|d OCLCQ
|d U3W
|d D6H
|d AU@
|d OCLCQ
|d OCLCA
|d S2H
|d OCLCO
|d OCLCQ
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|a 862609032
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|a 0080983510
|q (electronic bk.)
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|a 9780080983516
|q (electronic bk.)
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|z 9780080983462
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|z 0080983464
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|z 9781306077910
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|z 1306077915
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|a (OCoLC)862108729
|z (OCoLC)862609032
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|a TJ260
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|a TEC
|x 009070
|2 bisacsh
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|a 621.4025
|2 23
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|a Heat transfer and fluid flow in minichannels and microchannels /
|c contributing authors: Satish G. Kandlikar, Srinivas Garimella, Dongqing Li, St�ephane Colin, Michael R. King.
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|a 2nd ed.
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|a Oxford :
|b Butterworth-Heinemann,
|c [2013]
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|a 1 online resource (496 pages) :
|b illustrations
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
|2 rdacarrier
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|a Heat exchangers with minichannel and microchannel flow passages are becoming increasingly popular due to their ability to remove large heat fluxes under single-phase and two-phase applications. Heat Transfer and Fluid Flow in Minichannels and Microchannels methodically covers gas, liquid, and electrokinetic flows, as well as flow boiling and condensation, in minichannel and microchannel applications. Examining biomedical applications as well, the book is an ideal reference for anyone involved in the design processes of microchannel flow passages in a heat exchanger. Each chapter is accompanied by a real-life case studyNew edition of the first book that solely deals with heat and fluid flow in minichannels and microchannelsPresents findings that are directly useful to designers; researchers can use the information in developing new models or identifying research needs.
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|a Print version record.
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|a Front Cover; Heat Transfer and Fluid Flow in Minichannels and Microchannels; Copyright Page; Contents; About the Authors; Preface; Nomenclature; Greek Symbols; Subscripts; Superscripts; Operators; 1 Introduction; 1.1 Need for smaller flow passages; 1.2 Flow channel classification; 1.3 Basic heat transfer and pressure drop considerations; 1.4 The potential and special demands of fluidic biological applications; 1.5 Summary; 1.6 Practice problems; Problem 1.1; Problem 1.2; Problem 1.3; References; 2 Single-Phase Gas Flow in Microchannels; 2.1 Rarefaction and wall effects in microflows.
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|a 2.1.1 Gas at the molecular level2.1.1.1 Microscopic length scales; 2.1.1.2 Binary intermolecular collisions in dilute simple gases; 2.1.2 Continuum assumption and thermodynamic equilibrium; 2.1.3 Rarefaction and Knudsen analogy; 2.1.4 Wall effects; 2.2 Gas flow regimes in microchannels; 2.2.1 Ideal gas model; 2.2.2 Continuum flow regime; 2.2.2.1 Compressible Navier-Stokes equations; 2.2.2.2 Classic boundary conditions; 2.2.3 Slip flow regime; 2.2.3.1 Continuum NS-QGD-QHD equations; 2.2.3.2 First-order slip boundary conditions; 2.2.3.3 Higher-order slip boundary conditions.
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|a 2.2.3.4 Accommodation coefficients2.2.4 Transition flow and free molecular flow; 2.2.4.1 Burnett equations; 2.2.4.2 DSMC method; 2.2.4.3 Lattice Boltzmann method; 2.3 Pressure-driven steady slip flows in microchannels; 2.3.1 Plane flow between parallel plates; 2.3.1.1 First-order solution; 2.3.1.2 Second-order solutions; 2.3.2 Gas flow in circular microtubes; 2.3.2.1 First-order solution; 2.3.2.2 Second-order solution; 2.3.3 Gas flow in annular ducts; 2.3.4 Gas flow in rectangular microchannels; 2.3.4.1 First-order solution; 2.3.4.2 Second-order solution; 2.3.5 Experimental data.
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|a 2.3.5.1 Experimental setups for flow rate measurements2.3.5.2 Flow rate data; 2.3.5.3 Pressure data; 2.3.5.4 Flow visualization; 2.3.6 Entrance effects; 2.4 Pulsed gas flows in microchannels; 2.5 Thermally driven gas microflows and vacuum generation; 2.5.1 Transpiration pumping; 2.5.2 Accommodation pumping; 2.6 Heat transfer in microchannels; 2.6.1 Heat transfer in a plane microchannel; 2.6.1.1 Heat transfer for a fully developed incompressible flow; 2.6.1.2 Heat transfer for a developing compressible flow; 2.6.2 Heat transfer in a circular microtube.
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|a 2.6.3 Heat transfer in a rectangular microchannel2.7 Future research needs; 2.8 Solved examples; Example 2.1; Solution; Example 2.2; Solution; 2.9 Practice problems; Problem 2.1; Problem 2.2; Problem 2.3; Problem 2.4; Problem 2.5; Problem 2.6; References; 3 Single-Phase Liquid Flow in Minichannels and Microchannels; 3.1 Introduction; 3.1.1 Fundamental issues in liquid flow at microscale; 3.1.2 Need for smaller flow passages; 3.2 Pressure drop in single-phase liquid flow; 3.2.1 Basic pressure drop relations; 3.2.2 Fully developed laminar flow; 3.2.3 Developing laminar flow.
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|a Heat
|x Transmission.
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|a Heat exchangers.
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|a Heat exchangers
|x Fluid dynamics.
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|a Chaleur
|x Transmission.
|0 (CaQQLa)201-0000085
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|a �Echangeurs de chaleur.
|0 (CaQQLa)201-0009196
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|a heat transmission.
|2 aat
|0 (CStmoGRI)aat300056021
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|a heat exchangers.
|2 aat
|0 (CStmoGRI)aat300163204
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|a TECHNOLOGY & ENGINEERING
|x Mechanical.
|2 bisacsh
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|a Heat exchangers.
|2 fast
|0 (OCoLC)fst00953870
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7 |
|a Heat exchangers
|x Fluid dynamics.
|2 fast
|0 (OCoLC)fst00953883
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|a Heat
|x Transmission.
|2 fast
|0 (OCoLC)fst00953826
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1 |
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|a Kandlikar, S. G.
|q (Satish G.),
|e editor,
|e author.
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1 |
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|a Garimella, Srinivas,
|e author.
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700 |
1 |
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|a Li, Dongqing
|c (Professor),
|e author.
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700 |
1 |
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|a Colin, St�ephane,
|d 1964-
|e author.
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700 |
1 |
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|a KIng, Michael R.,
|c (Professor),
|e author.
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776 |
0 |
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|i Print version:
|z 9780080983462
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856 |
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|u https://sciencedirect.uam.elogim.com/science/book/9780080983462
|z Texto completo
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