Computational Simulation and Experimental Techniques for Nanofluid Flow

Computational simulation and experimental techniques for nanofluid flow is a collection of studies on nanofluid modelling. It brings together eight detailed research articles that describe the latest developments in nanofluid flow experimentation and simulation. Topics covered include numerical flow simulations and applications on MHD viscous nanofluid, bioconvective nanofluid, oblique nanofluid, Casson nanofluid, hybrid nanofluid, Darcy-Forchheimer hybrid nanofluid, magneto-radiative Ag-water nanofluid, and thixotropic nanofluid.

Key Features

- Includes eight chapters authored by experts in fluid mechanics and numerical simulation

- Showcases significant and novel attempts on computational simulation modelling for developing new mathematical models on nanofluids at the research level

- Highlights current research intended to advance mathematics and other areas of science and technology

- Includes references for advanced readers

This publication is essential for researchers and students, academicians who are learning nanofluid flow models. Readers involved in applied research and development projects involving nanofluids will also benefit from the information (environmentalists, technicians and biomedical engineers).