Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications
- 1 Edición - 1 de enero de 2045
- Última edición
- Autores: Kumuran Kadirgama, Navid Aslfattahi, Lingenthiran Samylingam
- Idioma: Inglés
Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications is a groundbreaking book that delves into the properties, synthesis and applications of MXene and other… Leer más
Formatos disponibles
Descripción
Descripción
Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications is a groundbreaking book that delves into the properties, synthesis and applications of MXene and other advances nanomaterials in renewable energy systems. MXene is a two-dimensional material that has great significance in renewable energy applications due to its high thermal conductivity. Several thermal systems used in renewable energy technologies can exploit the benefits of MXene and nanomaterials for enhanced heat transfer as a fluid, electrothermal energy conversion. thermal management of solar thermal and geothermal systems, and thermal energy storage. The low cost of production and scalability of MXene makes it a potential candidate to be seamlessly merged in renewable thermal applications. The book highlights MXene’s high thermal conductivity and its potential to revolutionize efficiency in a variety of renewable energy applications. It bridges the gap between scientific research and practical application, providing comprehensive knowledge for industry professionals, academics and students. This novel resource inspires innovation and advances research in this rapidly evolving field by improving thermal energy systems to generate more electricity, reducing greenhouse emissions and transition to low-carbon energy. The text catalyzes advancements in renewable energy applications, contributing to the global effort towards more sustainable energy solutions. Exploring MXene and Advanced Nanomaterials in Renewable Energy Applications educates and informs readers about the potential of advanced materials such as MXene to improve the efficiency, durability, and sustainability of renewable energy systems.
Puntos claves
Puntos claves
- Delivers a comprehensive overview of the latest developments in nanomaterials research, focused on MXene and its role in renewable energy technologies
- Showcases the potential of advanced materials to improve the efficiency, durability, and sustainability of renewable energy systems
- Presents practical applications and case studies of MXene and advanced nanomaterials in renewable energy, real-world examples of how these materials enhance energy efficiency, storage, and conversion
- Catalyzes advancements and innovation in renewable energy applications, contributing to the global effort towards more sustainable energy solutions
De interès para
De interès para
Industry professionals working in materials science, nanotechnology, and renewable energy sectors interested in the latest advancements and applications of MXene and other nanomaterials; Researchers and advanced university students in engineering and energy disciplines
Índice
Índice
1. Background
2. Synthesis of Various Types of MXene Nanomaterial
3. Different Types of Advanced Nanomaterials Including MXene-Based Nanomaterials Towards Renewable Energy Applications
4. Identification of Advantages/Disadvantages With Respect to Various Synthesis Method of MXene and Advanced Nanomaterials
5. Techno-Economic Analysis of Various Types of Renewable Energy Applications Integrated With MXene and Advanced Nanomaterials
6. Impact of MXene and Advanced Nanomaterials on the Efficiency of Solar Cells and Solar Thermal Collectors
7. Importance of MXene and Advanced Nanomaterials in Terms of Energy Storage/Conversion Efficiency of Renewable Energy Applications
8. Challenges and Solutions for Better Performance of Renewable Energy Technologies Using MXene and Advanced Nanomaterials
9. Conclusion and Future Perspectives
2. Synthesis of Various Types of MXene Nanomaterial
3. Different Types of Advanced Nanomaterials Including MXene-Based Nanomaterials Towards Renewable Energy Applications
4. Identification of Advantages/Disadvantages With Respect to Various Synthesis Method of MXene and Advanced Nanomaterials
5. Techno-Economic Analysis of Various Types of Renewable Energy Applications Integrated With MXene and Advanced Nanomaterials
6. Impact of MXene and Advanced Nanomaterials on the Efficiency of Solar Cells and Solar Thermal Collectors
7. Importance of MXene and Advanced Nanomaterials in Terms of Energy Storage/Conversion Efficiency of Renewable Energy Applications
8. Challenges and Solutions for Better Performance of Renewable Energy Technologies Using MXene and Advanced Nanomaterials
9. Conclusion and Future Perspectives
Detalles del producto
Detalles del producto
- Edición: 1
- Última edición
- Publicado: 1 de enero de 2045
- Idioma: Inglés
Sobre los autores
Sobre los autores
KK
Kumuran Kadirgama
Prof. Ts. Ir. Dr. Kumaran Kadirgamais a Professor and research fellow of Advanced Nano Coolant Lubricant Laboratory (ANCoL), UMP. He is a Profesional Engineer registered under the Board of Engineers Malaysia (BEM); and a Charted Engineer (UK) under the Institution of Mechanical Engineers (IMechE). He is a Professional Technologist (P.Tech) of Malaysia Board of Technologists (MBOT). He has published and presented various technical papers and journals at an international and national level. He has received grants totalling RM 6.02 million from various agencies and institutions. He has won a Gold medal in International Invention, Innovation & Technology Exhibition (ITEX), Seoul International Invention Fair, Korea (SIFF), and British Invention Show (BIS). He was included in top scientists 2% in the world for 2021 and 2022 in individual and career long achievement.
Afiliaciones y experiencia
Professor and Research Fellow of Advanced Nano Coolant Lubricant Laboratory (ANCoL), MalaysiaNA
Navid Aslfattahi
Dr. Navid Aslfattahi received his Ph.D. in Mechanical Engineering from Faculty of Engineering, University of Malaya (UM) in 2021. He is a Senior Research Fellow at the Department of Fluid Dynamics and Thermodynamics, Czech Technical University, working on various fields including synthesis and characterization of broad range of nanomaterials, MXene, nanocomposites, nanofluids in heat transfer applications, energy storage application, phase change materials, battery and its thermal management, fuel cell and solar thermal power systems. He is the author and co-author of numerous scientific publications in international peer-reviewed journals and proceedings. His research interests include fundamental, application, technology and commercialization in energy engineering, nanofabrication (thin films, nanotubular and nanoparticulate structures), solar thermal power systems, batteries and their applications, development of novel nanocomposites and related fields of study.
Afiliaciones y experiencia
Senior Research Fellow, Czech Technical University, Czech RepublicLS
Lingenthiran Samylingam
Lingenthiran Samylingam is Research Fellow at the Research Centre for Nanomaterials and Energy Technology School of Science and Technology, Sunway University, Selangor, Malaysia. His area of research is in heat transfer, heat transfer fluid, nanofluids, and nanomaterials.
Afiliaciones y experiencia
Research Fellow, Research Centre for Nanomaterials and Energy Technology School of Science and Technology, Sunway University, Selangor, Malaysia