| Description |
1 online resource |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Series |
Micro and nano technologies |
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Micro & nano technologies.
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| Summary |
Heat Transfer Enhancement Using Nanofluid Flow in Microchannels: Simulation of Heat and Mass Transfer focuses on the numerical simulation of passive techniques, and also covers the applications of external forces on heat transfer enhancement of nanofluids in microchannels. Economic and environmental incentives have increased efforts to reduce energy consumption. Heat transfer enhancement, augmentation, or intensification are the terms that many scientists employ in their efforts in energy consumption reduction. These can be divided into (a) active techniques which require external forces such as magnetic force, and (b) passive techniques which do not require external forces, including geometry refinement and fluid additives. |
| Note |
Includes index. |
|
Online resource; title from PDF title page (ScienceDirect, viewed July 11, 2016). |
| Bibliography |
Includes bibliographical references and index. |
| Contents |
1. Introduction to Heat Transfer Enhancement -- 1.1. Why Enhancing Heat Transfer Rate Is Crucial? -- 1.2. Heat Transfer Enhancement Classification -- References -- 2. Heat Transfer and Pressure Drop in Channels -- 2.1. Concept of Fully Developed and Developing Flow -- 2.2. Navier-Stokes Equations -- 2.3. Fully Developed Region -- References -- 3. Preparation and Theoretical Modeling of Nanofluids -- 3.1. Preparation of Nanofluids -- 3.2. Theoretical Modeling of Nanofluids -- 3.3. Buongiorno Model -- 3.4. Thermophysical Dependency of Nanofluids to Nanoparticle Volume Fraction -- 3.5. Modified Buongiorno Model -- 3.6. Final Remarks -- References -- 4. Simulation of Nanofluid Flow in Channels -- 4.1. How Consequential Is Nanofluid Flow in Channels? -- 4.2. Experimental and Theoretical Modeling of Nanofluids in Channels -- 4.3. Modified Buongiorno's Model and Its Influence on Physical Understanding of Nanofluid Behavior in Channels -- References -- 5. External Forces Effect on Intensification of Heat Transfer -- 5.1. Heat Transfer Enhancement of Nanofluids With External Forces -- 5.2. Magnetic Field Effects on Forced Convective Heat Transfer -- 5.3. Magnetic Field Effects on Mixed Convective Heat Transfer -- 5.4. Magnetic Field Effects on Natural Convective Heat Transfer -- References. |
| Subject |
Heat -- Transmission.
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Microreactors.
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Nanofluids.
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Chaleur -- Transmission.
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Microréacteurs chimiques.
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Nanofluides.
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heat transmission.
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Heat -- Transmission
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Microreactors
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Nanofluids
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| Added Author |
Malvandi, Amir, author.
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| Other Form: |
Print version : 9780323431392 |
| ISBN |
9780323431781 (ePub ebook) |
|
032343178X |
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9780323431392 (print) |
|
0323431399 (print) |
| Standard No. |
AU@ 000061151545 |
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CHBIS 010796348 |
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CHVBK 403939534 |
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DEBSZ 48247212X |
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GBVCP 879397810 |
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UKMGB 017897586 |
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