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Full Description
Eco-Materials and Green Energy for a Sustainable Future emphasizes the synergy between eco-materials and green energy solutions, highlighting their combined power to reduce carbon emissions, conserve resources, and create a more resilient and sustainable future. It provides a detailed discussion on cutting-edge green energy technologies and their potential to transform the energy landscape.
Covering a range of applications and emerging technologies that are moving toward sustainable and green energy, this book includes topics on nano-batteries, nanoparticle treatments of toxic textile industry wastewater, and green building materials. It explores thin-film solar cells and luminescent materials in solar energy. This book considers green synthesis methods, such as plant extracts and microorganisms, with applications in regenerative medicine.
This book will interest researchers and senior undergraduate and graduate students studying renewable energy sources, green materials engineering and chemistry, and sustainability.
Contents
PART I Eco-Material Technologies 1. Exploring Green Materials for Building a Sustainable Future: Need, Challenges and Strategies. 2. Numerical Simulation Studies on CdTe-based Solar Cells. 3. Green Synthesis of Nanomaterials and Their Applications for Sustainable Environment. 4. Chitosan Nanoparticles: Sustainable and Eco-Friendly Materials for Advancing Nanotechnological Applications. 5. Eco-materials: Opportunity, Applications, and Challenges. Part II Green Energy Applications 6. Green Synthesis of Hydroxyapatite Nanoparticles: Sustainable Approaches for Biomedical Advancements. 7. Sustainable Green Synthesized Metal Oxide Nanoparticles: Characterization and Applications. 8. Meshfree Radial Basis Function Pseudo-Spectral Computation of Nano-fuels in Triple-layer Magnetic Interfacial Flow. 9. CFD Modelling of Combustion and NOX Production in a Propulsion Duct with Aspect Ratio Effects. . 10. Optimal Control Analysis on the Coupled Climate-Economy-Biosphere (CoCEB) Model.. 11. Enhancement of Double-Pipe Heat Exchangers with Al2O3 Nanofluid: Numerical Investigations with Two Configurations. PART III Sustainable Future Approaches 12. Applications of Ionic Liquids Based Electrolytes in Batteries. 13. TiO2 Nanotube: Synthesis, Properties, and Applications. 14.Two-Way Fluid-Structure Interaction Hydroelastic Simulation of Vibrating Membranes with Applications in Marine Renewable Wave Power. 15. Schiff Bases and Their Transition Metal Complexes Composites as Energy Storage Materials.