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Advanced Materials-Based Fluids for Thermal Systems

Editat de Hafiz Muhammad Ali
en Limba Engleză Paperback – 19 ian 2024
Advanced Materials-Based Fluids for Thermal Systems focuses on new advanced materials called nanofluids that can be used to maximize heat transfer rates by adding nanoparticles (nanocomposites) into conventional heat transfer fluids. This comprehensive resource covers fundamentals, brief history, definitions, literature review, an introduction to thermophysical properties, and heat transfer characteristics with mathematical models, techniques, performance-affecting factors, applications, and challenges of hybrid nanofluids. The book includes thermal characteristics, measurement, design, and applications of nanoparticles, as well as up-to-date advances in thermal engineering. Sections cover basics then advance to major topics with mathematical models, schematic diagrams, and summaries of experimental work of different researchers. The book also summarizes previous research and contemporary advances on nanofluids worldwide and introduces new techniques, resolving existing problems, and includes tactics on the implementation in practical applications.


  • Summarizes heat transfer characteristics of nanofluids
  • Addresses factors that affect the properties of heat transfer
  • Includes applications and challenges of commercialization
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Specificații

ISBN-13: 9780443215766
ISBN-10: 0443215766
Pagini: 326
Dimensiuni: 152 x 229 x 20 mm
Greutate: 0.56 kg
Editura: ELSEVIER SCIENCE

Cuprins

1. Introduction to nanofluids
2. Investigating magnetohydrodynamic natural convection in nanofluid‑saturated enclosures through asymptotic expansions
3. Impact of nanoparticle aggregation and uniform horizontal magnetic field on melting heat transfer phenomena of nanofluid flow over rotating disk
4. Application of nanofluids in refrigeration and air-conditioning
5. Application of ferrofluids for heat transfer enhancement
6. Nanofluids - magnetic field interaction for heat transfer enhancement
7. Impact of nonlinear thermal radiation and ohmic heating on MHD darcy forchheimer flow of water-based carbon nanotubes in the presence of non-uniform heat source
8. Thermophysical properties and heat transfer characteristic of copper oxide-based ethylene glycol/water as a coolant for car radiator
9. Discussion on the stability of nanofluids for optimal thermal applications
10. Flow boiling behaviour of nanofluids
11. Entropy optimization of magneto nanofluid flow over a wedge under the Influence of magnetophoresis
12. Non-axisymmetric Homann stagnation point flow of nanofluid towards a flat surface in presence nanoparticle diameter and solid-liquid interfacial layer
13. On the hydrothermal performance of radiative hybrid nanofluid over a slippery revolving disk in presence of highly oscillating magnetic field
14. Applications of nanofluids and future directions