Statistical Fluid Dynamics 

 - Basel  MDPI - Multidisciplinary Digital Publishing Institute  2022 
 - 1 online resource (174 p.) 
<br/><br/> Open Access 
<br/><br/> Modeling micrometric and nanometric suspensions remains a major issue. They help to model the mechanical, thermal, and electrical properties, among others, of the suspensions, and then of the resulting product, in a controlled way, when considered in material formation. In some cases, they can help to improve the energy transport performance. The optimal use of these products is based on an accurate prediction of the flow-induced properties of the suspensions and, consequently, of the resulting products and parts. The final properties of the resulting micro-structured fluid or solid are radically different from the simple mixing rule. In this book, we found numerous works addressing the description of these specific fluid behaviors. 
<br/><br/><br/>Creative Commons 
<br/><br/><br/>English 
<br/><br/><label>ISBN: </label>9783036546551 9783036546568 books978-3-0365-4656-8 
<br/><br/><label>Standard No.: </label>10.3390/books978-3-0365-4656-8  doi 
<br/><br/><label>Subjects--Topical Terms: </label><br/>History of engineering and technology<br/>Materials science<br/>Technology: general issues
<br/><br/><label>Subjects--Index Terms: </label>Carreau nanofluid concentrated suspensions data-driven model diffuse approximation diffuse interface discrete numerical simulation domain reconstruction energy dissipation flow around circular cylinders flow induced orientation flow simulation graphene nano-powder Hausdorff distance interval-pooled stepped spillway liquid-liquid interface lubrication effect manifold learning microcapsule suspension microstructure generation mixture model model order reduction molecular dynamics n/a nanoparticle two-phase flow nanoparticles Navier-Stokes equation numerical simulation octree optimization omega identification method particle coagulation and breakage particle distribution permeability computing phase field method Poisson equation porous media approach proper orthogonal decomposition Proper Orthogonal Decomposition (POD) reduced-order model reinforced polymers rheological behavior shear rate singularity steam generator thermal nanofluid topological data analysis (TDA) transitional flow turbulence Vallejo law void fraction