Selected Proceedings of the 1st International Conference on Advanced Materials for Sustainable Innovation; IC-AMSI 2024; 28–30 August; New Delhi; India
This book presents peer-reviewed articles from the 1st International Conference on Advanced Materials for Sustainable Innovation (IC-AMSI 2024) held on Aug 28–30 in New Delhi, India. It delves into four key themes shaping the future of sustainable energy as follows:Emerging Technologies for Clean Energy Production: It explores the forefront of renewable energy research. Cutting-edge advancements in renewable sources, energy storage, and smart grids are unveiled, promising enhanced efficiency and sustainability in energy production.Integration of Sustainable Solutions in Energy Systems: Through meticulous analysis, it highlights the seamless incorporation of sustainable technologies into existing energy infrastructures. Emphasis is placed on optimizing energy systems to maximize their impact on decarbonization.Digitalization and Smart Energy Management: It investigates the transformative role of digital technologies, artificial intelligence, and smart energy management. This section illuminates how these innovations revolutionize energy consumption patterns, playing a pivotal role in minimizing carbon footprints.Policy and Regulatory Frameworks for Decarbonization: Readers gain insights into the evolving landscapes of policies and regulatory frameworks that underpin the deployment of sustainable energy technologies. The exploration of these frameworks creates a conducive environment for the effective implementation of decarbonization strategies. “Innovative Pathways” offers a multidimensional perspective, uniting technological exploration with strategic insights to guide the future of sustainable energy initiatives.
| ISBN: | 9789819644919 |
|---|---|
| Sprache: | Englisch |
| Seitenzahl: | 411 |
| Produktart: | Gebunden |
| Herausgeber: | Kumar, Anil Norton, Brian Tiwari, Deepak Tiwari, G. N. |
| Verlag: | Springer Singapore |
| Veröffentlicht: | 01.06.2025 |
| Untertitel: | Harnessing Sustainable Energy Technologies for Effective Decarbonization |
| Schlagworte: | AI for Sustainability Carbon Footprint Reduction Clean Energy Production Energy Storage Energy System Optimization Policy Frameworks for Decarbonization Regulatory Landscape in Energy Renewable Energy Smart Grid Sustainable Energy Technologies |
Prof. Anil Kumar is a Professor in the Department of Mechanical Engineering at Delhi Technological University and Head of Division-Clean Energy: Head of Division-Clean Energy: Nodal Centre of Excellence in Energy Transition (NCEET). His expertise spans renewable energy, solar applications, energy economics, and heat transfer, with a strong focus on sustainable development. He has led multiple funded research projects and contributed significantly to natural rubber drying, environmental issues, and energy transition technologies, advancing clean energy solutions through research and innovation.Prof. G. N. Tiwari is a renowned solar energy scientist and former professor at the Indian Institute of Technology (IIT) Delhi. He has significantly contributed to solar thermal systems, passive heating, and photovoltaic applications. With over four decades of research, he has authored numerous books and papers on solar energy and sustainability. His pioneering work in solar distillation and drying technologies has greatly advanced renewable energy applications. Prof. Brian Norton is a distinguished academic in Built Environment and Renewable Energy, having been the first professor in the field at the University of Ulster since 1989. A Fellow of the Irish Academy of Engineering and member of the Royal Irish Academy, he holds doctorates from Nottingham and Cranfield Universities. His research focuses on photovoltaic efficiency and building decarbonization, co-chairing the 2021 EASAC report on building decarbonization.Dr. Deepak Tiwari is an Assistant Professor at the School of Engineering & Technology, Vivekananda Institute of Professional Studies - Technical Campus, Delhi, India. His research focuses on low-grade heat source power generation and cooling systems. With expertise in thermal engineering and renewable energy applications, he has contributed to advancing energy-efficient technologies. His work aims to enhance the sustainability and efficiency of power and cooling systems in modern engineering applications.