K R V Subramanian, Tubati Nageswara Rao, Avinash Balakrishnan
Nanofluids and Their Engineering Applications
K R V Subramanian, Tubati Nageswara Rao, Avinash Balakrishnan
Nanofluids and Their Engineering Applications
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This book introduces basic fluid mechanics, conduction and convection in fluids, along with nanomaterials for nanofluids, property characterization, and outline applications of nanofluids in solar technology, machining and other special applications.
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This book introduces basic fluid mechanics, conduction and convection in fluids, along with nanomaterials for nanofluids, property characterization, and outline applications of nanofluids in solar technology, machining and other special applications.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 498
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 251mm x 178mm x 30mm
- Gewicht: 907g
- ISBN-13: 9780367727543
- ISBN-10: 0367727544
- Artikelnr.: 60796936
- Verlag: CRC Press
- Seitenzahl: 498
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 251mm x 178mm x 30mm
- Gewicht: 907g
- ISBN-13: 9780367727543
- ISBN-10: 0367727544
- Artikelnr.: 60796936
Prof. KRV Subramanian is working as Associate Professor with Mechanical engineering department, GITAM University, Bangalore, India. His research interests are solar technology, nanotechnology, nanofabrication, energy storage devices, carbon nanotubes, nanofluids, hydrogen storage, fuel cells, sensors. He earned his PhD from Cambridge University in 2006 specialising in nanotechnology. His bachelors and masters degree in Materials engineering were from NIT Trichy and IISc Bangalore. He has over 20 years of academic and industrial work experience. He has published over 100 journal and conference papers. He has also edited 2 books. He regularly reviews for prestigious RSC, ACS and Elsevier journals. He is an affiliate member of RSC (Royal Society of Chemistry, UK) and Fellow of Cambridge Commonwealth Society, UK. He is a Marquis Who's Who of the World and IBC Top 100 professionals. He has been co-principal investigator for many government funded research projects. Prof. T. Nageswara Rao works as HOD and Professor with Mechanical Engineering Department, GITAM University, Bangalore, India. He earned his PhD from Indian Institute of Technology, Chennai in 2001 specializing in thermal engineering. He has over 25 years of academic and industrial work experience. He has published over 30 journal and conference papers. Dr. Avinash Balakrishnan is Manager at Suzlon Energy Limited in 2016 and heads the Materials Laboratory for Suzlon Blade Technology vertical. He has a PhD and MS in Materials Engineering from Paichai University, S. Korea and is an alumnus of National Institute of Technology, Karnataka, where he completed his bachelor's in metallurgical engineering. He was a research scientist at Korea Research Institute of Standards and Science (KRISS), South Korea where he extensively worked on ceramic materials for structural and high temperature applications, a post-doctoral fellow at Grenoble Institute of Technology (Grenoble-INP), France, and headed the R&D division for English Indian Clay Limited, India from 2015 to 2016. He has co-authored over 85 research publications, 2 books, and filed 1 patent.
Section I Understanding Nanofluids 1. Nanofluids: Preparation Methods and
Challenges in Stability 2. Thermophysical Properties Enhancement Using
Hybrid Nanofluids and Their Synthesis and Applications 3. Hybrid
Nanoparticles Enriched Cutting Fluids in Machining Processes Section II
Theoretical Perspectives 4. Nanofluid-Based Single-Phase Natural
Circulation Loops 5. Entropy Generation Analysis of Hybrid Nanofluids Flow
in Ducts with Various Shapes 6. Viscosity of Nanofluid Systems: A Critical
Evaluation of Modeling Approaches Section III Nanofluids in Thermal
Applications 7. Application of Nanofluids in Heat Transfer Enhancement of
Refrigeration Systems 8. Graphene-Based Hybrid Nanofluids and Its
Application in Heat Exchangers 9. Lattice Boltzmann Modeling on Convective
Heat Transfer of Nanofluids through Highly Conductive Metal Foams 10.
CNT-Water Nanojet Impingement Cooling of a Sinusoidally Moving Isothermal
Hot Wall Section IV Nanofluids in Solar Applications 11. An Insight of
Ionanofluids Flow and Heat Transfer Behavior for Solar Energy Applications
12. Nanofluid-Based Direct Absorption Solar Collectors 13. Applications of
Nanofluids in Solar Thermal Systems 14. Nanofluids for Solar Steam
Generation 15. Supersteam Production Using Magnetic Nanofluids 16. Enhanced
Thermophysical Properties of the Heat Transfer Fluids for Concentrating
Solar Power by Using Metal-Based Nanofluids: An Experimental and
Theoretical Overview 17. Potential Utilization of Nanofluids for
Concentrating Solar Power (CSP) 18. Influence of the Base Fluid and
Surfactant Arrangement on the Enhancement of Heat Transfer in
Metal-Nanofluids Used in Concentrating Solar Power Plants: A Molecular
Level Perspective 19. Applications of Nanofluids in Direct Absorption Solar
Collectors Section V Nanofluids in Oil and Gas Industry and Carbon
Sequestration 20. Application of Nanofluids in Enhanced Oil Recovery: A
Systematic Literature Review and Organizing Framework 21. Application of
Nanoparticle Suspension in Enhanced Oil Recovery 22. Nanofluids:
Applications and Its Future for Oil and Gas Industry 23. CO2 Capture via
Nanofluids
Challenges in Stability 2. Thermophysical Properties Enhancement Using
Hybrid Nanofluids and Their Synthesis and Applications 3. Hybrid
Nanoparticles Enriched Cutting Fluids in Machining Processes Section II
Theoretical Perspectives 4. Nanofluid-Based Single-Phase Natural
Circulation Loops 5. Entropy Generation Analysis of Hybrid Nanofluids Flow
in Ducts with Various Shapes 6. Viscosity of Nanofluid Systems: A Critical
Evaluation of Modeling Approaches Section III Nanofluids in Thermal
Applications 7. Application of Nanofluids in Heat Transfer Enhancement of
Refrigeration Systems 8. Graphene-Based Hybrid Nanofluids and Its
Application in Heat Exchangers 9. Lattice Boltzmann Modeling on Convective
Heat Transfer of Nanofluids through Highly Conductive Metal Foams 10.
CNT-Water Nanojet Impingement Cooling of a Sinusoidally Moving Isothermal
Hot Wall Section IV Nanofluids in Solar Applications 11. An Insight of
Ionanofluids Flow and Heat Transfer Behavior for Solar Energy Applications
12. Nanofluid-Based Direct Absorption Solar Collectors 13. Applications of
Nanofluids in Solar Thermal Systems 14. Nanofluids for Solar Steam
Generation 15. Supersteam Production Using Magnetic Nanofluids 16. Enhanced
Thermophysical Properties of the Heat Transfer Fluids for Concentrating
Solar Power by Using Metal-Based Nanofluids: An Experimental and
Theoretical Overview 17. Potential Utilization of Nanofluids for
Concentrating Solar Power (CSP) 18. Influence of the Base Fluid and
Surfactant Arrangement on the Enhancement of Heat Transfer in
Metal-Nanofluids Used in Concentrating Solar Power Plants: A Molecular
Level Perspective 19. Applications of Nanofluids in Direct Absorption Solar
Collectors Section V Nanofluids in Oil and Gas Industry and Carbon
Sequestration 20. Application of Nanofluids in Enhanced Oil Recovery: A
Systematic Literature Review and Organizing Framework 21. Application of
Nanoparticle Suspension in Enhanced Oil Recovery 22. Nanofluids:
Applications and Its Future for Oil and Gas Industry 23. CO2 Capture via
Nanofluids
Section I Understanding Nanofluids 1. Nanofluids: Preparation Methods and
Challenges in Stability 2. Thermophysical Properties Enhancement Using
Hybrid Nanofluids and Their Synthesis and Applications 3. Hybrid
Nanoparticles Enriched Cutting Fluids in Machining Processes Section II
Theoretical Perspectives 4. Nanofluid-Based Single-Phase Natural
Circulation Loops 5. Entropy Generation Analysis of Hybrid Nanofluids Flow
in Ducts with Various Shapes 6. Viscosity of Nanofluid Systems: A Critical
Evaluation of Modeling Approaches Section III Nanofluids in Thermal
Applications 7. Application of Nanofluids in Heat Transfer Enhancement of
Refrigeration Systems 8. Graphene-Based Hybrid Nanofluids and Its
Application in Heat Exchangers 9. Lattice Boltzmann Modeling on Convective
Heat Transfer of Nanofluids through Highly Conductive Metal Foams 10.
CNT-Water Nanojet Impingement Cooling of a Sinusoidally Moving Isothermal
Hot Wall Section IV Nanofluids in Solar Applications 11. An Insight of
Ionanofluids Flow and Heat Transfer Behavior for Solar Energy Applications
12. Nanofluid-Based Direct Absorption Solar Collectors 13. Applications of
Nanofluids in Solar Thermal Systems 14. Nanofluids for Solar Steam
Generation 15. Supersteam Production Using Magnetic Nanofluids 16. Enhanced
Thermophysical Properties of the Heat Transfer Fluids for Concentrating
Solar Power by Using Metal-Based Nanofluids: An Experimental and
Theoretical Overview 17. Potential Utilization of Nanofluids for
Concentrating Solar Power (CSP) 18. Influence of the Base Fluid and
Surfactant Arrangement on the Enhancement of Heat Transfer in
Metal-Nanofluids Used in Concentrating Solar Power Plants: A Molecular
Level Perspective 19. Applications of Nanofluids in Direct Absorption Solar
Collectors Section V Nanofluids in Oil and Gas Industry and Carbon
Sequestration 20. Application of Nanofluids in Enhanced Oil Recovery: A
Systematic Literature Review and Organizing Framework 21. Application of
Nanoparticle Suspension in Enhanced Oil Recovery 22. Nanofluids:
Applications and Its Future for Oil and Gas Industry 23. CO2 Capture via
Nanofluids
Challenges in Stability 2. Thermophysical Properties Enhancement Using
Hybrid Nanofluids and Their Synthesis and Applications 3. Hybrid
Nanoparticles Enriched Cutting Fluids in Machining Processes Section II
Theoretical Perspectives 4. Nanofluid-Based Single-Phase Natural
Circulation Loops 5. Entropy Generation Analysis of Hybrid Nanofluids Flow
in Ducts with Various Shapes 6. Viscosity of Nanofluid Systems: A Critical
Evaluation of Modeling Approaches Section III Nanofluids in Thermal
Applications 7. Application of Nanofluids in Heat Transfer Enhancement of
Refrigeration Systems 8. Graphene-Based Hybrid Nanofluids and Its
Application in Heat Exchangers 9. Lattice Boltzmann Modeling on Convective
Heat Transfer of Nanofluids through Highly Conductive Metal Foams 10.
CNT-Water Nanojet Impingement Cooling of a Sinusoidally Moving Isothermal
Hot Wall Section IV Nanofluids in Solar Applications 11. An Insight of
Ionanofluids Flow and Heat Transfer Behavior for Solar Energy Applications
12. Nanofluid-Based Direct Absorption Solar Collectors 13. Applications of
Nanofluids in Solar Thermal Systems 14. Nanofluids for Solar Steam
Generation 15. Supersteam Production Using Magnetic Nanofluids 16. Enhanced
Thermophysical Properties of the Heat Transfer Fluids for Concentrating
Solar Power by Using Metal-Based Nanofluids: An Experimental and
Theoretical Overview 17. Potential Utilization of Nanofluids for
Concentrating Solar Power (CSP) 18. Influence of the Base Fluid and
Surfactant Arrangement on the Enhancement of Heat Transfer in
Metal-Nanofluids Used in Concentrating Solar Power Plants: A Molecular
Level Perspective 19. Applications of Nanofluids in Direct Absorption Solar
Collectors Section V Nanofluids in Oil and Gas Industry and Carbon
Sequestration 20. Application of Nanofluids in Enhanced Oil Recovery: A
Systematic Literature Review and Organizing Framework 21. Application of
Nanoparticle Suspension in Enhanced Oil Recovery 22. Nanofluids:
Applications and Its Future for Oil and Gas Industry 23. CO2 Capture via
Nanofluids