Nanofluid Boiling
- 1st Edition - May 24, 2024
- Authors: Ali Sadaghiani, Arzu Ozbey, Mehrdad Karimzadehkhouei, Ali Koşar
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 1 6 9 2 3 - 0
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 1 6 9 2 4 - 7
Nanofluid Boiling presents valuable insights into boiling heat transfer mechanisms, offering state-of-the-art techniques for overcoming obstacles against nanofluid applic… Read more
Purchase options
Institutional subscription on ScienceDirect
Request a sales quote- Reveals insights into the findings and mechanisms of boiling heat transfer in nanofluids, guiding researchers and engineers in their research and design efforts
- Focuses on parametric effects such as nanofluid properties (size, concentration, nanoparticle type), preparation methods on heat transfer and critical heat flux mechanisms, bubble dynamics, flow patterns, and pressure drop
- Presents readers with scaling effects (from macro to microscale) relevant to nanofluid boiling
- Cover image
- Title page
- Table of Contents
- Copyright
- Dedication
- About the authors
- 1. Introduction
- Abstract
- 1.1 Introduction
- References
- 2. Preparation and characterization
- Abstract
- 2.1 Introduction
- 2.2 Stability of nanofluids
- 2.3 Preparation methods
- 2.4 Nanoparticle types
- 2.5 Base fluid types
- 2.6 Nanofluid properties
- 2.7 Characterization and measurement techniques
- References
- 3. Nanofluid stability
- Abstract
- 3.1 Theory
- 3.2 The effect of major parameters
- 3.3 Monitoring and preserving nanofluid stability
- 3.4 Concluding remarks
- References
- 4. Heat and fluid flow mechanisms and characterization
- Abstract
- 4.1 Introduction
- 4.2 Flow and nanoparticle characteristics and relevant forces
- 4.3 Heat transfer mechanism characterization
- 4.4 Heat transfer sustainability
- 4.5 Concluding remarks
- References
- 5. Nanofluid pool boiling
- Abstract
- 5.1 Introduction
- 5.2 Boiling inception
- 5.3 Bubble dynamics in nanofluid pool boiling
- 5.4 Heat transfer enhancement/deterioration mechanisms in nanofluid pool boiling
- 5.5 Parametric effects on nanofluid pool boiling heat transfer
- 5.6 Concluding remarks
- References
- 6. Nanofluid flow boiling
- Abstract
- 6.1 Introduction
- 6.2 Flow and heat transfer mechanisms
- 6.3 Flow patterns in nanofluid flow boiling
- 6.4 Pressure drop in nanofluid flow boiling
- 6.5 Parametric effects on nanofluid flow boiling
- 6.6 Concluding remarks
- References
- 7. Critical heat flux
- Abstract
- 7.1 Introduction
- 7.2 Nanofluid critical heat flux
- 7.3 Nanofluid critical heat flux enhancement mechanism
- 7.4 Effect of particle type and size on critical heat flux
- 7.5 Effect of surface characteristics on critical heat flux
- 7.6 Parametric studies on critical heat flux
- 7.7 Concluding remarks
- References
- 8. Nanofluid boiling applications and challenges
- Abstract
- 8.1 Introduction
- 8.2 Economic and technical aspects of nanofluid utilization
- 8.3 Nuclear reactors
- 8.4 Air-conditioning and refrigeration systems
- 8.5 Electronics cooling
- 8.6 Solar systems
- 8.7 Microdevices
- 8.8 Automotive industry
- 8.9 Future applications
- References
- 9. Concluding remarks and future trends
- Abstract
- 9.1 Concluding remarks
- 9.2 Future trends
- References
- Index
- No. of pages: 304
- Language: English
- Edition: 1
- Published: May 24, 2024
- Imprint: Academic Press
- Paperback ISBN: 9780128169230
- eBook ISBN: 9780128169247
AS
Ali Sadaghiani
Ali Sadaghiani (Assistant Professor, Faculty of Engineering and Natural Sciences, Sabanci
University, Istanbul, Turkey) specializes in interfacial transport and phase change phenomena.
His research primarily focuses on heat and mass transfer in boiling, condensation, evaporation,
and surface modification for energy and water systems. He is notably recognized for
his parametric studies on mixed wettable and micro/nanostructured surfaces. His research
has significantly advanced the understanding of liquid/vapor phase change mechanisms on
these surfaces. His work has been instrumental in developing more efficient thermal management
systems with applications in various industrial processes. His research has been
published in several high-impact journals and has received considerable attention in thermal
sciences. He employs theoretical, numerical, and experimental methods to enhance the efficiency
of multiphase systems, addressing critical global challenges such as climate change,
water scarcity, and energy efficiency.
AO
Arzu Ozbey
Arzu Ozbey (PhD, Sabanci University, Turkey) is interested in the design, fabrication, and
characterization of new-generation microfluidic chips as potential devices for focusing, separation,
and enrichment of small particles and rapid detection and diagnosis of circulating
tumor cells. She has successfully led interdisciplinary teams to develop innovative microfluidic
platforms.
MK
Mehrdad Karimzadehkhouei
Mehrdad Karimzadehkhouei has received his Ph.D. in Mechatronics Engineering at Sabanci University, Istanbul, Turkey, in 2017, MSc. and BSc. degrees in Mechanical Engineering in Thermo-Fluids branch in Istanbul Technical University in Turkey in 2012 and Urmia State University in Iran in 2007. He is currently a Research Assistant Professor at Koç University, Faculty of Engineering.
AK