Nanofluids and Mass Transfer
portes grátis
Nanofluids and Mass Transfer
Sedghamiz, Mohammad Amin; Makarem, Mohammad Amin; Rahimpour, Mohammad Reza; Kiani, Mohhamad Reza
Elsevier Science Publishing Co Inc
09/2021
512
Mole
Inglês
9780128239964
15 a 20 dias
1040
Descrição não disponível.
Section 1: Mass transfer basics of nanofluids 1. Introduction to nanofluids, challenges and opportunities 2. Synthesis, preparation and characterization of nanofluids 3. Thermodynamic properties of nanofluids 4. Mass transfer mechanisms in nanofluids 5. Effect of nanofluids in solubility enhancement 6. Binary nanofluids and mass transfer mechanism 7. Magnetic nanofluids and mass transfer mechanism 8. Conjugate heat and mass transfer in nanofluids 9. Bio-nanofluids and mass transfer characteristics
Section 2: Mass transfer modelling and simulation of nanofluids 10. Mass transfer modelling in nanofluids: Theoretical basics and model development 11. Mass transfer modelling in nanofluids: Numerical approaches and challenges 12. Modelling and prediction of mass transfer coefficient in nanofluids 13. CFD simulation of nanofluids flow dynamics including mass transfer
Section 3: Applications of nanofluids as mass transfer enhancers 14. Mass transfer enhancement in liquid-liquid extraction process by nanofluids 15. Increasing mass transfer in absorption and regeneration processes via nanofluids 16. Mass transfer enhancement by nanofluids in membrane systems 17. Mass transfer improvement in hydrate formation processes by nanofluids 18. Mass transfer enhancement in solar stills by nanofluids 19. Application of nanofluids in drug delivery and disease treatment 20. Industrialization of nanofluidic based processes: economic aspects and environmental challenges
Section 2: Mass transfer modelling and simulation of nanofluids 10. Mass transfer modelling in nanofluids: Theoretical basics and model development 11. Mass transfer modelling in nanofluids: Numerical approaches and challenges 12. Modelling and prediction of mass transfer coefficient in nanofluids 13. CFD simulation of nanofluids flow dynamics including mass transfer
Section 3: Applications of nanofluids as mass transfer enhancers 14. Mass transfer enhancement in liquid-liquid extraction process by nanofluids 15. Increasing mass transfer in absorption and regeneration processes via nanofluids 16. Mass transfer enhancement by nanofluids in membrane systems 17. Mass transfer improvement in hydrate formation processes by nanofluids 18. Mass transfer enhancement in solar stills by nanofluids 19. Application of nanofluids in drug delivery and disease treatment 20. Industrialization of nanofluidic based processes: economic aspects and environmental challenges
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Absorption; Absorption enhancement; Antibacterial activity; Base fluids; Bioconvective stream; Brick; Cancer; Carbon nanotube; Carbon nanotubes; Clathrate hydrate; Dehumidification; Density; Droplet; Drug delivery; Electronic cooling; Enhancement factor; Ethylene glycol; Experiments; Ferrofluid; Fluid inlet temperature; Fundamental mechanisms; Gas absorption; Gas hydrate; Heat transfer; Heterogeneous; Homogeneous; Horizontal magnetic field; Hydrate formation; Hydrodynamic theory; Hydrophobic particles; Liquid-liquid extraction; Long-term stability; Lorentz force; Magnetic nanofluids; Mass transfer; Mass transfer coefficient; Mechanisms; Membrane technology; Metal foam; Microorganisms; Modeling; Monoethanolamine; Nano; Nanofluid characterization; Nanofluid preparation; Nanofluid; Nanofluids; Nanomaterials; Nanoparticle; Nanoparticles; Parallel flow; Polyethylene glycol; Polymer-based nanoparticles; Pool boiling; Productivity; Solar energy; Solar treatment unit; Solubility enhancement; Stability; Surface modification; Surfactant type; Surfactants; Targeted drug delivery; Theories; Thermal conductivity; Thermal radiation; Thermal conductivity; Thermophoresis forces; Transfer mechanisms; Velocity; Vertical magnetic field; Viscosity
Section 1: Mass transfer basics of nanofluids 1. Introduction to nanofluids, challenges and opportunities 2. Synthesis, preparation and characterization of nanofluids 3. Thermodynamic properties of nanofluids 4. Mass transfer mechanisms in nanofluids 5. Effect of nanofluids in solubility enhancement 6. Binary nanofluids and mass transfer mechanism 7. Magnetic nanofluids and mass transfer mechanism 8. Conjugate heat and mass transfer in nanofluids 9. Bio-nanofluids and mass transfer characteristics
Section 2: Mass transfer modelling and simulation of nanofluids 10. Mass transfer modelling in nanofluids: Theoretical basics and model development 11. Mass transfer modelling in nanofluids: Numerical approaches and challenges 12. Modelling and prediction of mass transfer coefficient in nanofluids 13. CFD simulation of nanofluids flow dynamics including mass transfer
Section 3: Applications of nanofluids as mass transfer enhancers 14. Mass transfer enhancement in liquid-liquid extraction process by nanofluids 15. Increasing mass transfer in absorption and regeneration processes via nanofluids 16. Mass transfer enhancement by nanofluids in membrane systems 17. Mass transfer improvement in hydrate formation processes by nanofluids 18. Mass transfer enhancement in solar stills by nanofluids 19. Application of nanofluids in drug delivery and disease treatment 20. Industrialization of nanofluidic based processes: economic aspects and environmental challenges
Section 2: Mass transfer modelling and simulation of nanofluids 10. Mass transfer modelling in nanofluids: Theoretical basics and model development 11. Mass transfer modelling in nanofluids: Numerical approaches and challenges 12. Modelling and prediction of mass transfer coefficient in nanofluids 13. CFD simulation of nanofluids flow dynamics including mass transfer
Section 3: Applications of nanofluids as mass transfer enhancers 14. Mass transfer enhancement in liquid-liquid extraction process by nanofluids 15. Increasing mass transfer in absorption and regeneration processes via nanofluids 16. Mass transfer enhancement by nanofluids in membrane systems 17. Mass transfer improvement in hydrate formation processes by nanofluids 18. Mass transfer enhancement in solar stills by nanofluids 19. Application of nanofluids in drug delivery and disease treatment 20. Industrialization of nanofluidic based processes: economic aspects and environmental challenges
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Absorption; Absorption enhancement; Antibacterial activity; Base fluids; Bioconvective stream; Brick; Cancer; Carbon nanotube; Carbon nanotubes; Clathrate hydrate; Dehumidification; Density; Droplet; Drug delivery; Electronic cooling; Enhancement factor; Ethylene glycol; Experiments; Ferrofluid; Fluid inlet temperature; Fundamental mechanisms; Gas absorption; Gas hydrate; Heat transfer; Heterogeneous; Homogeneous; Horizontal magnetic field; Hydrate formation; Hydrodynamic theory; Hydrophobic particles; Liquid-liquid extraction; Long-term stability; Lorentz force; Magnetic nanofluids; Mass transfer; Mass transfer coefficient; Mechanisms; Membrane technology; Metal foam; Microorganisms; Modeling; Monoethanolamine; Nano; Nanofluid characterization; Nanofluid preparation; Nanofluid; Nanofluids; Nanomaterials; Nanoparticle; Nanoparticles; Parallel flow; Polyethylene glycol; Polymer-based nanoparticles; Pool boiling; Productivity; Solar energy; Solar treatment unit; Solubility enhancement; Stability; Surface modification; Surfactant type; Surfactants; Targeted drug delivery; Theories; Thermal conductivity; Thermal radiation; Thermal conductivity; Thermophoresis forces; Transfer mechanisms; Velocity; Vertical magnetic field; Viscosity
