Nanofluids: Preparation, Applications and Simulation Methods

Nanofluids: Preparation, Applications and Simulation Methods provides a comprehensive review of recent advances in this important research field. Different approaches for preparing some remarkable families of nanofluids such as aluminum oxide-based nanofluids, CuO/Cu-based nanofluids, carbon nanotubes/graphene-based nanofluids, ZnO-based nanofluids, Fe3O4 based nanofluids, and SiO2 based nanofluids are discussed in detail , along with their current and potential applications. Different approaches for numerical, semi-analytical, and analytical simulations are also discussed, including the Lattice Boltzmann method, as well as advanced analytical techniques such as the Differential Transform Method, the Homotopy Analysis Method, and Optimal Homotopy Analysis. The book will be a valuable reference resource for academic and industrial researchers, materials scientists and engineers, nanotechnologists, and chemists working in the development of nanomaterials and nanofluids for heat transfer in energy and engineering applications. Covers the synthesis of nanostructures, preparation of nanofluids, different applications and proposed models for fluid mechanics and heat transferPresents recent advances on preparation methods, including green chemistry-based methods for preparation of nanomaterials and nanofluidsIncludes novel model-based approaches such as molecular dynamics and Lattice Boltzmann methodsDelves into applications in renewable energy technologies and thermal managementContains a Semi-analytical approach for solving Time-Fractional Navier-Stokes Equation INDICE: Nanofluids at a glanceCuO/Cu-based nanofluidsAluminum oxide-based nano-fluidsZnO-based nanofluidsFe3O4-based nanofluidsSiO2-based nanofluidsCarbon nanotubes/graphene-based nanofluidsFluid flow and heat transfer simulations of nanofluids in heat sinksOptimizing fluid flow efficiency: third-grade hybrid nanofluid flow with electro-magnetohydrodynamics in confined vertical spacesOptimal homotopy asymptotic method with Caputo fractional derivatives: a new approach for solving time-fractional Navier-Stokes equationNumerical simulations of nanofluids heat and mass transfer (lattice Boltzmann methods and applications)Parametric influences on nanofluid-jet cooling heat transfer

• ISBN: 978-0-443-13625-2
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 452
• Fecha Publicación: 01/07/2024
• Nº Volúmenes: 1
• Idioma: Inglés