Overview

This book provides an in-depth exploration of the latest advancements in the field of sustainable energy technologies. In particular, it focuses on recent progress made in renewable energy sources such as solar, wind, geothermal, and more. By closely examining emerging technological developments, this book seeks to present innovative solutions that are driving the green revolution and contributing to global energy transition. From improving energy efficiency in clinic operating theaters to investigating solar floor heating systems and utilizing deep learning for couscous grain drying, each contribution offers unique insights such as numerical simulations of 3-D mixed convection, the application of Big Data for greening agri-food supply chains, and the optimization of fluid flows using the LBM method. Chapters also cover the design of tools for measuring total solar irradiance, integrating photovoltaic/thermal collectors for desalination-refrigeration, and dynamic analysis of power distribution systems. This book also looks at into compound parabolic collectors for enhanced wood drying, lessons from solar energy plants, and the physicochemical properties of sewage sludge for energy recovery. It concludes with an exploration of an autonomous wind turbine’s viability for supplying energy to a laboratory in Niger. Featuring extended chapters selected as exceptional contributions to the 2023 International Conference on Advanced Materials for Sustainable Energy and Engineering in Meknes, Morocco, this book provides researchers and practitioners with a comprehensive overview of some of the latest advancements in novel nanomaterials. With its interdisciplinary approach and rigorous scientific analysis, this book serves as a valuable resource for those striving to develop sustainable energy solutions for the future.

Full Product Details

Author:   Elkhattabi El Mehdi ,  Mourad Boutahir
Publisher:   Springer Nature Switzerland AG
Imprint:   Springer Nature Switzerland AG
ISBN:  

9783032100689

ISBN 10:   3032100682
Pages:   361
Publication Date:   16 February 2026
Audience:   College/higher education ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
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Table of Contents

1. Modeling and calculation of reactivity feedback coefficients and neutron flux using Monte Carlo code OpenMC for SLOWPOKE-2 reactor.- 2. Design and evaluation performance of Single-Layer and Double-Layer Radiative Cooling Coatings Using Silicon Dioxide and Titanium Dioxide.- 3. Sustainability of photovoltaic materials and smart monitoring: case study in Morocco.- 4. Unveiling the Quantum World of Buckled Aluminene : DFT Insights with Van der Waals Corrections.- 5. Heat transfer enhancement in triangular cavities using nanofluids: A comparative study of heating wall orientation.- 6. Comparative Fatigue Analysis of Zirconia and Titanium Dental Implants with Varying Thread Designs.- 7. Influence of the Rayleigh number on the behavior of Carreau-Yasuda non-Newtonian fluids with viscosity varying with temperature.- 8. Theoretical Investigation of the Structural, Optical, and Thermoelectric Properties of the Hybrid Organic-Inorganic Perovskite [NH3–(CH2)4–NH3]CdCl4 Compound: A First-Principles Approach.- 9. Thermal Performance of Non-Newtonian Water–Ethylene Glycol Nanofluids in Enclosed Natural Convection.- 10. Microwave absorption properties of TiO₂/Al₂O₃ ceramic composite material at X-band frequencies.- 11. First Principals Study Of The Electronic Structure and Optical Properties Of CH3 NH3 PbX3  ( X=I, Br, Cl) For Perovskite Silicon Tandem Solar Cell Applications.- 12. Theoretical study of the physical properties of 𝑋𝐻2 hydrides (X=Mg and Sr) for hydrogen storage.- 13. Lattice Boltzmann fluid simulation with Neumann boundary conditions.- 14. Influence of Process Parameters on Tensile Strength of FDM Printed ABS-Carbon Fiber Composites: Statistical and Experimental Analysis.- 15. Multifunctional Properties of Halide Double Perovskite K 2 NaFeCl 6 : Electronic, Optical, and Thermoelectric Insights"".- 16. Double Perovskite Cs2AgIrBr6: Structural, Electronic, and Optical Properties for Photovoltaic Application.- 17. b Initio Study of the Structural and Optoelectronic Properties of Rb2AgIrBr6 Insights from DFT calculation.- 18. Thermal conductivity of single-walled carbon nanotubes (SWCNTs).- 19. Theoretical analysis of the optical properties of vanadium dioxide using Drude and Lorentz models.- 20. Comprehensive Review on Dissipated Energy in Vanadium Dioxide and its Technological Applications.- 21. Study of the optical response of vanadium dioxide (VO₂) from the complex dielectric constant.

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Author Information

Dr. El Mehdi El Khattabi, founder of the consulting office SOLAR UTION, possesses extensive experience as a professional trainer in energy efficiency, thermal housing, solar pumping, and renewable energy. He has acquired his expertise at national institutions such as the University Al Akhawayn Ifrane, the Ministry of Equipment, and prominent industrial sectors like Saint-Gobain and Strugal. Dr. El Khattabi has also contributed internationally through academic institutions such as the Technical University of Lithuania (VGTU) and the University of Lorraine. His research focuses on monitoring, utilization, and measurement of energy efficiency in real-life building scenarios. He has a particular interest in energy diagnostic processes and innovative techniques for optimizing energy system performance based on specific climatic conditions and local resources. Currently, Dr. Dr. Mourad Boutahir is a professor at Moulay Ismail University in Morocco, specializing in the development of molecular dynamics and ab initio computational methods. He obtained his Ph.D. in Advanced Materials and Applications from the Faculty of Sciences at Morocco’s LEM2A laboratory in 2017. Following this, he conducted a postdoctoral research project under the guidance of Dr. José Mejia Lopez at the Center of Nanotechnology and Advanced Materials Investigation (CIEN-UC) in Chile. His postdoctoral work focused on Materials Design for highly efficient and reliable Hydrogen and Energy Storage devices. Dr. Boutahir aspires to become a leading scientist in academic research, industry, or non-profit institutions, specifically in the field of solar cells. He has a strong computational background and expertise in solar PV design, aiming to contribute to future advancements in solar cell technology.

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