소장자료
| LDR | 02855cam a2200325 a 4500 | ||
| 001 | 0093625065▲ | ||
| 005 | 20180520235848▲ | ||
| 008 | 121015s2013 flua b 001 0 eng c▲ | ||
| 010 | ▼a2012030319▲ | ||
| 020 | ▼a9781439861929 (hardback)▲ | ||
| 020 | ▼a1439861927 (hardback)▲ | ||
| 040 | ▼aDLC▼beng▼cDLC▼dDLC▲ | ||
| 042 | ▼apcc▲ | ||
| 050 | 0 | 0 | ▼aQC320▼b.N36 2013▲ |
| 082 | 0 | 0 | ▼a620.1/15▼223▲ |
| 090 | ▼a620.115▼bN186m▲ | ||
| 245 | 0 | 0 | ▼aNanoparticle heat transfer and fluid flow /▼cedited by W.J. Minkowycz, E.M. Sparrow, J.P. Abraham.▲ |
| 260 | ▼aBoca Raton :▼bCRC Press,▼c2013.▲ | ||
| 300 | ▼axiii, 328 p. :▼bill. ;▼c24 cm.▲ | ||
| 490 | 0 | ▼aSeries in computational and physical processes in mechanics and thermal sciences▲ | |
| 490 | 0 | ▼aAdvances in numerical heat transfer ;▼vvolume 4▲ | |
| 504 | ▼aIncludes bibliographical references and index.▲ | ||
| 520 | ▼a"Preface The day of nanoparticles and nanofluids has arrived, and the applications of these media are legion. Here, attention is focused on such disparate applications as biomedical, energy conversion, material properties, and fluid flow and heat transfer. The common denominator of the articles which set forth these applications here is numerical quantification, modeling, simulation, and presentation. The first chapter of this volume conveys a broad overview of nanofluid applications, while the second chapter continues the general thermofluids theme and then narrows the focus to biomedical applications. Chapters 3 and 4 deepen the biomedical emphasis. Equally reflective of current technological and societal themes is energy conversion from dispersed forms to more concentrated and utilizable forms, and these issues are treated in Chapters 5 and 6. Basic to the numerical modeling and simulation of any thermofluid process are material properties. Nanofluid properties have been shown to be less predictable and less repeatable than are those of other media that participate in fluid flow and heat transfer. Property issues for nanofluids are set forth in Chapters 6 and 7. The last three chapters each focus on a specific topic in nanofluid flow and heat transfer. Chapter 8 deals with filtration. Microchannel heat transfer has been identified as the preferred means for the thermal management of electronic equipment, and the role of nanofluids as a coolant is discussed in Chapter 9. Natural convection is conventionally regarded as a low heat-transfer coefficient form of convective heat transfer. Potential enhancement of natural convection due to nanoparticles is the focus of Chapter 10"--▼cProvided by publisher.▲ | ||
| 650 | 0 | ▼aHeat▼xTransmission.▲ | |
| 650 | 0 | ▼aHeat exchangers▼xThermodynamics.▲ | |
| 650 | 0 | ▼aNanoparticles▼xFluid dynamics.▲ | |
| 700 | 1 | ▼aMinkowycz, W. J.▲ | |
| 700 | 1 | ▼aSparrow, E. M.▼q(Ephraim M.)▲ | |
| 700 | 1 | ▼aAbraham, J. P.▼q(John P.),▲ | |
| 999 | ▼a김진영▼c김정이▲ |
Nanoparticle heat transfer and fluid flow
자료유형
국외단행본
서명/책임사항
Nanoparticle heat transfer and fluid flow / edited by W.J. Minkowycz, E.M. Sparrow, J.P. Abraham.
개인저자
발행사항
Boca Raton : CRC Press , 2013.
형태사항
xiii, 328 p. : ill. ; 24 cm.
총서사항
서지주기
Includes bibliographical references and index.
요약주기
"Preface The day of nanoparticles and nanofluids has arrived, and the applications of these media are legion. Here, attention is focused on such disparate applications as biomedical, energy conversion, material properties, and fluid flow and heat transfer. The common denominator of the articles which set forth these applications here is numerical quantification, modeling, simulation, and presentation. The first chapter of this volume conveys a broad overview of nanofluid applications, while the second chapter continues the general thermofluids theme and then narrows the focus to biomedical applications. Chapters 3 and 4 deepen the biomedical emphasis. Equally reflective of current technological and societal themes is energy conversion from dispersed forms to more concentrated and utilizable forms, and these issues are treated in Chapters 5 and 6. Basic to the numerical modeling and simulation of any thermofluid process are material properties. Nanofluid properties have been shown to be less predictable and less repeatable than are those of other media that participate in fluid flow and heat transfer. Property issues for nanofluids are set forth in Chapters 6 and 7. The last three chapters each focus on a specific topic in nanofluid flow and heat transfer. Chapter 8 deals with filtration. Microchannel heat transfer has been identified as the preferred means for the thermal management of electronic equipment, and the role of nanofluids as a coolant is discussed in Chapter 9. Natural convection is conventionally regarded as a low heat-transfer coefficient form of convective heat transfer. Potential enhancement of natural convection due to nanoparticles is the focus of Chapter 10"-- Provided by publisher.
ISBN
9781439861929 (hardback) 1439861927 (hardback)
청구기호
620.115 N186m
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