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Full Description
This book examines the powerful synergy between artificial intelligence and advanced materials in driving sustainable technologies. It spans a diverse array of topics, including AI-assisted material discovery, nanofluid dynamics, smart and responsive materials, thermal and structural performance modeling, energy-efficient building systems, and next-generation optoelectronic and magnetic materials. This book highlights how computational tools and intelligent systems are reshaping the design, analysis, and deployment of materials for cleaner energy and resilient infrastructure.
Featuring extended chapters selected as exceptional contributions to the 2025 International Conference on Advanced Materials for Sustainable Energy and Engineering in Meknes, Morocco, this book offers a rich, interdisciplinary perspective for researchers, engineers, and innovators working at the forefront of sustainable science and technology.
Contents
Analysis of natural convection using the lattice Boltzmann method (LBM).- Evaluation of Phase-Change Liquid Nitrogen Immersion Cooling Performance for High-Power Electronics.- Mesoscopic lattice Boltzmann simulation of natural convection in a sinusoidally heated cavity.- Intelligent management of a solar-hydrogen micro-grid: Simulation and energy optimization.- Metapiles as a countermeasure of ground vibration.- Modeling railway system using 3D finite element method.- Influence of Hematocrit on Electroosmotic Pulsatile Blood Flow of Casson Nanofluid in a Stenosed Arterial Segment.- Adsorption Kinetics, Isotherm Models, and Thermodynamics: A Brief Review.- Optimizing Mechanical Resilience in 3D-Printed Poly-mers: Exploring Raster Orientation Effects on Fracture Dynamics.- Analysis of the impact of solar irradiation and tilt an-gle on photovoltaic module performance..
