Preparation, Characterization, Properties, and Application of Nanofluid Micro and Nano Technologies Series
Auteur : Mahbubul I. M.
Preparation, Characterization, Properties and Application of Nanofluid begins with an introduction of colloidal systems and their relation to nanofluid. Special emphasis on the preparation of stable nanofluid and the impact of ultrasonication power on nanofluid preparation is also included, as are characterization and stability measurement techniques. Other topics of note in the book include the thermophysical properties of nanofluids as thermal conductivity, viscosity, and density and specific heat, including the figure of merit of properties. In addition, different parameters, like particle type, size, concentration, liquid type and temperature are discussed based on experimental results, along with a variety of other important topics.
The available model and correlations used for nanofluid property calculation are also included.
Materials scientists who are looking to learn more about nanofluid preparation methods, and how nanofluid can be applied.
- Provides readers with tactics on nanofluid preparation methods, including how to improve their stability
- Explores the effect of preparation method and stability on thermophysical and rheological properties of nanofluids
- Assesses the available model and correlations used for nanofluid property calculation
Date de parution : 09-2018
Ouvrage de 374 p.
19x23.3 cm
Thèmes de Preparation, Characterization, Properties, and... :
Mots-clés :
Absorption coefficient; Chemical methods; Colloid; Colloidal dispersion characteristics; Density; Direct absorption solar collector; Dispersion; Electronics cooling; Energy efficiency; Engine cooling; Extinction coefficient; Flow behavior index; Flow consistency index; Heat exchanger; Heat transfer coefficient; Heat transfer mechanism; Herschel-Bulkley rheological model; High-pressure homogenizer; Machining; Microstructure; Nanofluids; Nanorefrigerants; Non-Newtonian fluid; PH control; Particle aggregate; Physical methods; Polydispersity; Power law model; Preparation methods; Pressure drop; Pumping power; Refractive index; Refrigerator; Rheology; Scattering coefficient; Shear stress; Single step; Solar collector; Specific heat; Specific heat capacity; Stability; Surface tension; Surfactant; Thermal conductivity; Thermophysical properties; Transmittance; Two step; Ultrasonic homogenizer; Ultrasonic vibration; Ultrasonication; Viscosity; Yield stress; Zeta potential