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Fundamentals and Applications of Nanofluids [Pehme köide]

Edited by (Ph.D. Candidate, Georgia Institute of Technology, USA), Edited by (Professor, Islamic Azad University, Iran)
  • Formaat: Paperback / softback, 600 pages, kõrgus x laius: 235x191 mm, kaal: 450 g
  • Sari: Micro & Nano Technologies
  • Ilmumisaeg: 01-Jul-2026
  • Kirjastus: Elsevier - Health Sciences Division
  • ISBN-10: 0443445028
  • ISBN-13: 9780443445026
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  • Pehme köide
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Fundamentals and Applications of NanofluidsSuurem pilt
  • Formaat: Paperback / softback, 600 pages, kõrgus x laius: 235x191 mm, kaal: 450 g
  • Sari: Micro & Nano Technologies
  • Ilmumisaeg: 01-Jul-2026
  • Kirjastus: Elsevier - Health Sciences Division
  • ISBN-10: 0443445028
  • ISBN-13: 9780443445026
Teised raamatud teemal:
Teised raamatud sellest sooduspakkumisest: Kevadine sooduspakkumine - kuni 31. maini üle miljoni raamatu kuni 25% soodsamalt
Püsilink: https://www.kriso.ee/db/9780443445026.html
Fundamentals and Applications of Nanofluids provides an in-depth overview of the fundamental principles of nanofluids, including their synthesis, stability, thermophysical properties, and diverse applications across various industries. The book begins with a foundational review of nanofluids that is followed by a discussion on their thermophysical properties, behavior in heat transfer applications, and the complex interactions between nanoparticles and fluids. In addition, sections cover the rheology of nanofluids, their stability challenges, and their optical properties, along with applications in energy systems, including solar, thermal, and nuclear technologies.

The book also highlights the use of nanofluids in biomedical applications, environmental safety, industrial cooling systems, and in aerospace and automotive sectors, providing insights into computational modeling, experimental techniques for analysis, and emerging trends in nanofluid research. This will be a valuable resource for researchers, engineers, and practitioners interested in the fundamentals and applications of nanofluids across a wide range of fields.
1. Introduction to Nanofluids: Definition and Historical Background
2. Thermophysical Properties of Nanofluids
3. Rheology of Nanofluids: Viscosity and Flow Behaviour
4. Optical Properties of Nanofluids and Their Applications
5. Synthesis and Characterization of Nanofluids
6. Nanoparticle-Fluid Interactions: Mechanisms and Models
7. Stability of Nanofluids: Challenges and Solutions
8. Nanofluids in Energy Systems: Solar, Thermal, and Nuclear
9. Magnetic Nanofluids: Principles and Applications
10. Nanofluids in Biomedical Applications: Drug Delivery and Imaging
11. Nanofluids in Industrial Cooling Systems
12. Nanofluids in Microelectronics Cooling
13. Nanofluids in Lubrication and Tribology
14. Nanofluids in Chemical Processing and Catalysis
15. Nanofluids in Aerospace and Automotive Applications
16. Nanofluids in Water Treatment and Desalination
17. Nanofluids in Heat Exchangers: Design and Optimization
18. Environmental Impact and Safety of Nanofluids
19. Computational Modelling of Nanofluid Behaviour
20. Hybrid Nanofluids: Combining Nanoparticles for Enhanced Properties
21. Experimental Techniques for Nanofluid Analysis
22. Future Trends and Challenges in Nanofluid Research
Davood Toghraie is a professor at the Islamic Azad University, Iran. He is an expert in the field of nanofluids with over 20 years of research experience. His work has contributed to the understanding of fluid mechanics, particularly in relation to nanofluids, CFD simulation, and numerical modeling. Professor Toghraie has made contributions to thermal engineering and the study of heat exchangers, exploring the dynamics of turbulence and thermal properties at the nanoscale. His expertise also includes the mechanical properties of materials, integrating theoretical knowledge with practical insights into modeling and simulation. Navid Nasajpour-Esfahani is a Ph.D. candidate distinguished by his extensive expertise in nanotechnology, materials science, and fluid mechanics. His research spans a broad spectrum of critical topics, such as the modeling and simulation of heat transfer processes, exploration of the mechanical properties of nanomaterials, and the advancement of sophisticated numerical methods to simulate complex fluid dynamics. His current focus is on assessing residual stress in additive manufacturing, aiming to enhance the quality and performance of 3D printed materials.