Sustainable Development Research in Materials and Energy -

Sustainable Development Research in Materials and Energy

Advancement of Science and Technology
Buch | Hardcover
XVII, 343 Seiten
2025
Springer International Publishing (Verlag)
978-3-031-69859-0 (ISBN)
171,19 inkl. MwSt

This book presents current research, recent advances, and emerging technologies on sustainable development issues in materials and energy. It covers various methods, including numerical and experiment analysis.

The coverage of materials includes:

  • Advanced manufacturing and materials processing;
  • Biodegradable and bio-inspired materials;
  • Functional materials and their behavior;
  • Investigation on synthetic versus natural fiber;
  • Thermal and strength analysis of bamboo;
  • Materials for energy storage, conversion, and transmission and structural materials;
  • Soft materials, composites, and fibers.

Studies on renewable and green energy systems and sources include:

  • Research on wind, solar, and biomass energy conversion systems;
  • Renewable resources potential assessment, energy storage;
  • Energy-saving and efficient technologies;
  • Stirling heat pumps;
  • Human energy acquisition;
  • CO2 capture storage and utilization;
  • Energy conversion systems;
  • Energy policies and economics;
  • State-of-the-art renewable energy conversion systems.

The book provides researchers, engineers, industry professionals, graduate students, and practitioners with state-of-the-art research on engineering materials, material science, sustainable energy engineering, and energy technology in developing countries.

Kibret Mequanint, Ph. D., is a professor in the Department of Chemical and Biochemical Engineering at Western University, Canada. His research focuses on biomaterials, tissue and regenerative medicine, interfacing polymer science, materials and chemical engineering, and life sciences. Over the past 20 years, his work has spanned fundamental understandings and translational research in cell-material interactions, the design of novel polymer biomaterials for medical devices, and therapeutic radiation dosimeters. 

Ababay Ketema Worku, Ph.D., is an assistant professor in sustainable energy engineering at Bahir Dar Institute of Technology, Bahir Dar University. His research interests include energy storage and conversion devices, advanced materials, composite materials, electrocatalysts, nanomaterials, materials synthesis and processing, and batteries (metal-air batteries).

Muluken Zegeye Getie, Ph.D., is an assistant professor of mechanical engineering at Bahir Dar Institute of Technology, Bahir Dar University. His research areas include energy transition, energy efficiency enhancement, thermal refrigeration, solar energy, energy management and policy issues, and, more generally, renewable energy. Dr. Getie received his Ph.D. from the Université Bourgogne Franche-Comté, France, an M.Sc. in Sustainable Energy Engineering from Bahir Dar University, and a B.Sc. in Industrial Engineering from Mekelle University in 2021, 2014, and 2005, respectively. 

Zerihun Getahun Workineh, Ph.D., is a postdoctoral researcher in biomechanics and mechanobiology with the Department of Information Technology and Communication at the University of Pompeu Fabra, Barcelona.

 

Chapter 1. Optimization, characterization and Evaluation of starch based biodegradable micro plastic film using clay as a reinforcing agent.- Chapter 2. Assessment of Residual Elastic Properties In Damaged Composite Materials.- Chapter 3. Analysis On Thermal Behavior of Bamboo Leaf Ash Blended Cement Paste .- Chapter 4. Parametric Analysis on Heavy Quadricycle Vehicle Front Crash for Safety Optimization.- Chapter 5. Experimental investigation of the impact strength of sunflower oil-treated Ethiopian highland bamboo fiber reinforced polyester composites.- Chapter 6. Effects of Aggregate Size and Water to Cement Ratio on Fracture Energy of Normal Weight Concrete.- Chapter 7. Investigation of Synthetic Versus Natural Fiber On Interlocking Compressed Stabilized Earth Blocks: A comparison of Plastic Bottle Fiber and "Teff" Straw.- Chapter 8. Use of Sisal Fiber for reduction of plastic shrinkage cracking in concrete.- Chapter 9. Synthesis of Novel Polyaniline-Nanosphere Composite for the Detection of Ammonia in Poised Meat.- Chapter 10. Investigating the thermal performance of different solar-assisted dryers for agricultural produce: A review.- Chapter 11. Recent developments on design and thermal performance enhancement of parabolic dish solar .- Chapter 12. Parameter Identification of Single Diode Solar Photovoltaic Model Using Particle Swarm Optimization Hybrid with Newton Raphson Method.- Chapter 13. Thermal Modeling and Fuzzy Logic control Design for Forced Conviction Solar Dryer.- Chapter 14. Standalone Solar PV system design and analysis using PVsyst software: (a Case of Bahir Dar, Ethiopia).- Chapter 15.  Solar Energy Resource Potential Assessment and the Impacts of Solar PV System Integration on the Performance of Radial Distribution Network.- Chapter 16. Theoretical Analysis of Working Fluid inside Solar Thermal Trackers .- Chapter 17.  Pre-feasibility study of wind power and site suitability analysis in Dire Dawa, Ethiopia.- Chapter 18. Thermodynamics modeling and optimization of Stirling heat pump: Review.- Chapter 19.  State of the art of human energy acquisition technologies for electric power generation- A review.- Chapter 20. Influence of S/N Ratio on Biogas Desulfurization Performance using Conventional Anoxic Bioreactor (ABR) and Membrane Bioreactor (AMBR).

Erscheint lt. Verlag 20.1.2025
Reihe/Serie Green Energy and Technology
Zusatzinfo XVII, 343 p. 216 illus., 183 illus. in color.
Verlagsort Cham
Sprache englisch
Maße 155 x 235 mm
Themenwelt Technik Elektrotechnik / Energietechnik
Technik Maschinenbau
Schlagworte Biomaterials and Bio-Inspired Materials • construction materials • Energy Conversion Systems • Energy Materials • Energy Storage • Engineering Materials • Green Energy • ICAST 2023 • Materials and Energy • Materials for Energy • Solar dryer • solar photovoltaics (PV) • Solar Thermal Energy
ISBN-10 3-031-69859-2 / 3031698592
ISBN-13 978-3-031-69859-0 / 9783031698590
Zustand Neuware
Haben Sie eine Frage zum Produkt?
Mehr entdecken
aus dem Bereich