正文
This year, we launch a new special issue in Renewable Energy dedicated to the SyNERGY MED 2024 Conference scheduled to take place between 21-23 October 2024 in Limassol, Cyprus. This special issue aims to compile papers covering an array of renewable energy themes. The focus will be on the grid integration of renewable energy sources, smart grid technologies and applications, novel renewable energy technology design, synergies between renewable energy generation and other energy vectors (heating, cooling), green hydrogen, as well as socio-economic, policy, community engagement and regulatory issues.
Guest editors:
Manuscript submission information:
The journal’s submission platform: Editorial Manager is available for receiving submissions to this Special Issue from 15 December 2024. Please refer to the Guide for Authors to prepare your manuscript and select the article type of "VSI: SyNERGY MED 2024" when submitting your manuscript online. Both the Guide for Authors and the submission portal could be found on the Journal Homepage here Guide-for-Author
能源学
Applied Energy
Towards Zero Carbon Emission Smart Cities Driven by Hydrogen Energy
全文截稿: 2025-05-31
影响因子: 8.848
CCF分类: 无
中科院JCR分区:
• 大类 : 工程技术 - 1区
• 小类 : 能源与燃料 - 1区
• 小类 : 工程:化工 - 1区
网址:
https://www.journals.elsevier.com/applied-energy/
Efficient, clean, and pollution-free energy supply represents a critical challenge in the construction of smart cities. Hydrogen energy, with its advantages of zero carbon emissions, flexible nature, and ease of conversion with other energy forms such as electricity and heat, is considered as one of the most promising secondary energies in the 21st century. Many countries, including China, the United Kingdom and the United States, have proposed national development strategies for hydrogen energy. The large-scale promotion and utilization of hydrogen energy, along with the continuous improvement of hydrogen facilities, have strengthened the coupling relationship between multiple energy systems such as electricity, hydrogen, transportation, natural gas, and heat supply systems. This provides a new solution path to build zero-carbon energy supply systems for smart cities. However, the existing research on hydrogen-driven zero-carbon smart cities is relatively limited. This special issue is established to invite experts and scholars from academia and industry to jointly explore the implementation paths, key technologies, and critical challenges of critical energy infrastructure for smart cities driven by hydrogen energy.
Guest editors: Zhouyang Ren, Sara Walker, David Flynn, Jianzhong Wu, Jin Lin
能源学
Applied Energy
Towards Zero Carbon Emission Smart Cities Driven by Hydrogen Energy
